16th INTERNATIONALHEAT TRANSFER CONFERENCEAugust 10-15, 2018 · Beijing, China

CONFERENCE PROGRAMHeat & Mass Transfer Society of China Assembly for International Heat Transfer ConferencesInternational Centre for Heat and Mass TransferChinese Society of Engineering Thermophysics

Organized byUnder the auspices of

Supported by

Contents

Welcome

Conference Chair, IHTC-16 ·········································································· 1 President, AIHTC ························································································ 2 Vice Chairman, 11th CPPCC········································································· 2 President, Tsinghua University······································································· 3 Vice Director, NSFC ···················································································· 3 Acknowledgments ······················································································· 4

General Information Registration, Name Badges, Tickets ······························································· 5 Welcome Reception ···················································································· 5 Opening Ceremony ····················································································· 5 Conference Banquet ··················································································· 5 Closing Ceremony······················································································· 5 Lunches ···································································································· 5 Smoking ··································································································· 6 Coffee Breaks ···························································································· 6 WIFI ········································································································· 6 Conference Proceedings ·············································································· 6 IHTC Digital Library (IDL) ············································································· 6 IHTC Logo ································································································ 6 Information ································································································ 6 17th International Heat Transfer Conference····················································· 7 Mobile Conference App················································································ 7 Important Notes·························································································· 8

Technical Program Floor Maps ································································································ 9 Schedule at a Glance ·················································································· 11 Plenary Lectures ························································································ 15 Panel Sessions ·························································································· 17 Keynote Lectures ························································································ 21 General Sessions ······················································································· 35 Young Researchers Meeting (YRM) ·······························································147 Awards ·····································································································148

Miscellaneous Topics

Exhibitors ··································································································153 History of IHTCs ·························································································156

Committees, Author Index, and IHTC-16 Statistics

Meetings ···································································································157 AIHTC ······································································································157 IHTC-16 Committees ···················································································158 Author Index ······························································································161 Statistics ···································································································208

WELCOME

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Welcome Welcome from the Conference Chair, IHTC-16

Welcome to the 16th International Heat Transfer Conference. We are delighted to have this conference held in the beautiful Olympic Green Park in Beijing. This is the same venue where the 2008 Summer Olympics was held exactly ten years ago. We hope that you will enjoy the beauty of Beijing and experience the vibrant activities the city has to offer.

Heat transfer continues to be one of the most important disciplines in the engineering fields of the 21st century. Thermal transport processes are fundamental to many technologies such as energy, materials, food processing, space exploration, manufacturing and chemical processes. In recent years, new heat and mass transport research areas, including nano and micro-scale transport phenomena, nano-fluids, and very short time scale thermal transport have recently been developed to meet the demand of modern technologies. In addition, many significant breakthroughs have propelled our fundamental understanding in boiling and condensation, melting and solidification, combustion, and turbulent flows. Additionally, new developments in heat transfer enhancement techniques, computational heat transfer methods, green energy conversion devices and energy storage systems continue to catapult the field of heat transfer to new heights. Despite these successes, we continue to face many challenges in developing cutting edge technologies in efficient energy systems, pollution management, cooling of microelectronic devices and massive data processing systems, advanced manufacturing systems, and hypersonic transport that will all lead to a better living environment and will stimulate economic growth. We hope that your interactions at IHTC-16 will contribute to advancing our understanding of heat and mass transport processes and in developing new energy technologies for future needs. The key to success will require interdisciplinary collaboration across a wide range of disciplines.

The IHTC meetings have been nicknamed the “Heat Transfer Olympics”. For more than 60 years, IHTC has offered unique opportunities for heat transfer and energy specialists to develop personal networks and exchange exciting ideas about their state-of-the-art research. The IHTC-16 Organizing Committee is continuing the fine tradition of providing an excellent forum that will advance the heat transfer research work in this rapidly changing world. From more than 1800 submitted abstracts and 1300 submitted full papers, we have accepted more than 1000 full papers from participants from more than 40 countries and regions for presentation at this conference. These papers will be included in the conference proceedings to be published in the Begell House IHTC Digital Library along with all the previous IHTC papers.

The program in this conference will include 3 plenary lectures, 28 keynote lectures, 4 panel sessions, and 40 general sessions. The IHTC-16 organizing committee seeks to create a friendly environment at IHTC-16 which will facilitate our interactions to advance the worldwide heat transfer community. We are committed to making your time in Beijing enjoyable and productive. If you have any questions, please do not hesitate to ask for help from any committee member or any volunteer during the conference. Beijing has been the cultural and political center of China for hundreds of years. I hope that you will find time to visit some of these historical sites such as the Forbidden City, the Temple of Heaven, the Summer Palace and, of course, the Great Wall of China.

Finally, I am grateful for the generous support of many organizations. I would like to express my sincere appreciation to: The Heat and Mass Transfer Society of China, the Chinese Society of Engineering Thermophysics, the International Centre for Heat and Mass Transfer, and the Assembly for International Heat Transfer Conferences and other cooperating societies and companies for organizing and supporting this meeting. I would like to especially acknowledge the members of the Assembly of IHTCs for handling the paper reviews. And I would like to recognize and thank the IHTC-16 Committee members and the volunteers for their enormous contributions in organizing and running this conference. Ping Cheng Conference Chair Chair Professor, Shanghai Jiao Tong University Shanghai, China

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Welcome Welcome from the Assembly for International Heat Transfer Conferences (AIHTC)

The Assembly for International Heat Transfer Conferences (AIHTC), along with its delegates and 23 member national organizations, is delighted to welcome all the participants from around the world to the 2018 International Heat Transfer Conference in Beijing, China, held in conjunction with the Heat and Mass Transfer Society of China.

The IHTC was founded in London and Atlantic City in 1951 to provide a worldwide forum for the presentation, discussion, and identification of future directions and priorities in the various domains of thermal science and engineering. This 16th IHTC is a testament to the wisdom of the founders of AIHTC and to the vitality of the international thermal science and engineering community. The Heat and Mass Transfer Society of China has been a member of AIHTC for many years, with this being China’s first opportunity to host the International Heat Transfer Conference. I am thrilled to see that more than 1,000 papers will be presented covering many areas involving heat and mass transfer. I am also thrilled to see participants from more than 40 countries and regions who are making this a truly International Heat Transfer Conference. These conferences have played a key role promoting heat transfer and thermal engineering research and development on the international stage.

We look forward to an outstanding IHTC-16 with good science, good friendship, and good food! Hideo Yoshida President, The Assembly for International Heat Transfer Conferences Professor, Kyoto University, Japan Welcome address from Zhizhen Wang, Vice Chairman, 11th CPPCC Distinguished guests, Dear friends, Ladies and Gentlemen,

China is very pleased to host the 16th International Heat Transfer Conference in Beijing this year. The Chinese government recognizes the importance of scientific research in developing the country and in advancing the social welfare of all the people. Thus, the Chinese government has invested significantly in not only energy related heat transfer research but in all fields of research. China has seen tremendous advances in all areas of scientific and engineering research and looks forward to many more developments that will significantly improve the lives of not only the Chinese people, but people from all over the world. The world faces many significant problems related to health, pollution, energy supplies, global warming and sustainable development and I can see from the many outstanding papers to be presented at IHTC 16 that this conference will contribute significantly to addressing these key problems. China will continue to develop outstanding researchers and will continue to encourage them as they collaborate with colleagues worldwide to advance our scientific knowledge and to develop efficient, clean and effective solutions for the entire world.

I applaud all of you for organizing this very important conference that extends the important findings of the previous 15 IHTC conferences. I hope that you will all benefit greatly from your interactions here and will also enjoy all the history and scenery in Beijing and throughout China during your stay.

Thank you. Zhizhen Wang Vice Chairman, 11th Chinese People's Political Consultative Conference Academician of the Chinese Academy of Sciences

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Welcome Welcome address from Yong Qiu, President of Tsinghua University

On behalf of Tsinghua University, I am delighted to welcome such an eminent gathering of world-renowned scientists to IHTC-16 and to Beijing.

Tsinghua University was founded in 1911. Over the years, Tsinghua has gradually expanded its scope and become a comprehensive university with 20 schools and 58 departments. Currently, we have 45,000 students, more than two-thirds of whom are graduate students. The university has extensive research facilities, including those in thermal engineering, with faculty conducting numerous leading research projects on national and international levels. We are proud of our faculty, students as well as our alumni who excel in their respective fields.

In 2016, we launched the first global strategy in the history of Tsinghua. In April 2017, under the initiative of Tsinghua, Asian Universities Alliance was established, consisting of 15 most representative universities across Asia. We envision Tsinghua will become increasingly open and international in the future and we would like to further strengthen our cooperation with international partners.

We highly value the opportunity to host IHTC-16. I am confident that through presentations of research papers, panel discussions and various personal interactions, this conference will make notable contributions to progress in the heat transfer field.

Finally, I hope you will have an enjoyable and memorable stay in Beijing. Thank you.

Yong Qiu President, Tsinghua University Welcome address from the National Natural Science Foundation of China (NSFC)

It is my great pleasure to welcome all of you to the 16th International Heat Transfer Conference. I am thrilled to see so many leading scientists from all over the world gathering here to advance the state-of-the-art in heat transfer research.

The NSFC was established in 1986 by the Chinese government to support basic research, foster talented researchers, develop international research cooperation and promote China’s socioeconomic development. The NSFC has a rigorous and objective merit-review system to select projects for funding. NSFC’s annual budget has increased from 80 million RMB in 1986 to 17 billion RMB in 2012, a 1000 fold increase. At present, about 38,000 new awards are granted to over 1500 host institutions each year.

NSFC encourages international cooperation and exchange in basic research, including this conference, and has signed 70 Cooperative Agreements with partners in 35 countries and regions.

I thank all the supporters and organizing committee members for their hard work in organizing this conference and I share their hope that IHTC-16 will be a resounding success. I hope that each of you will enjoy this conference and your time in Beijing. Xincheng Xie Vice Director, National Natural Science Foundation of China Academician of the Chinese Academy of Sciences Professor, Peking University

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Acknowledgments

Organizer The Heat and Mass Transfer Society of China

Host Organization Tsinghua University, Beijing, China

Under the Auspices of The Assembly for International Heat Transfer Conferences

Supporting Organizations International Centre for Heat and Mass Transfer National Natural Science Foundation of China Chinese Society of Engineering Thermophysics Asian Union of Thermal Science and Engineering (AUTSE)

Sponsor Begell House Inc. http://www.begellhouse.com/

GENERAL INFORMATION

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General Information Registration, Name Badges, Tickets Hours and Location

The registration desk is located in the Main Lobby B on the 1st floor of the China National Convention Center (CNCC) during the following times:

Friday August 10 08:30 - 20:30 Saturday August 11 08:30 - 18:00 Sunday August 12 08:30 - 18:00 Monday August 13 08:30 - 18:00 Tuesday August 14 08:30 - 20:30 Wednesday August 15 08:30 - 17:30

On-site Registration Fees Regular1 RMB 5200 Student*1 RMB 3250 Accompanying Person2 RMB 650

1 Includes admission to all technical sessions, conference proceedings data on a USB flash drive, final program, name badge, welcome reception on August 10, lunches on August 11, 12, 13, 14 and 15, conference banquet on August 14 and break refreshments. 2 Includes name badge, welcome reception on August10 and conference banquet on August 14. * Students must present a valid student ID. Name Badge

Each delegate registered for IHTC-16 will receive a name badge at the registration desk. Admission to all conference functions is via the official IHTC-16 badge only. Please wear your name badge at all times.

Tickets

Each delegate will receive various tickets together with their name badge at the registration desk. Use your name holder to keep your tickets handy. The conference organizers cannot reissue any tickets.

Welcome Reception Friday, August 10, 18:30-20:30, Plenary Hall A on the 4th floor Everybody with a name badge and a ticket for the reception is welcome.

Opening Ceremony Saturday, August 11, 8:30-9:10, Ballroom B & C on the 1st Floor Everybody with a name badge is welcome.

Conference Banquet Tuesday, August 14, 18:30-20:30, Ballroom B & C on the 1st Floor Individual banquet ticket is required to enter the Event Hall.

Closing Ceremony Wednesday, August 15, 17:00-17:30, in the Auditorium on the 3rd Floor Everybody with a name badge is welcome.

Lunches

Saturday August 11 12:30-14:00 Exhibition Hall 4A, 1st floor Gallery Café & Gallery Foyer, 2nd floor

Sunday August 12 12:30-14:00 Ballroom B & C, 1st floor Monday August 13 12:30-14:00 Ballroom B & C, 1st floor Tuesday August 14 12:30-14:00 Ballroom B & C, 1st floor Wednesday August 15 12:30-14:00 Gallery Café & Gallery Foyer, 2nd floor

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General Information

In accordance with public health center guidelines, lunch boxes must be consumed within the eating area. Thank you for your cooperation.

Smoking Smoking is strictly prohibited anywhere inside the CNCC facility.

Coffee Breaks

Coffee breaks will be available during the following times:

Saturday August 11 10:20 - 10:40 14:40 - 15:00

Sunday August 12 10:20 - 10:40

14:40 - 15:00 Monday August 13 10:20 - 10:40

Tuesday August 14 10:20 - 10:40

14:40 - 15:00

Wednesday August 15 10:20 - 10:40 15:00 - 15:20

WIFI The CNCC conference facility provides a WIFI signal. You do not need any login name.

Conference Proceedings Proceedings on USB drive

The conference program and proceedings for the keynote lectures and general papers are on the USB drive in your registration package.

Proceedings on the schedule webpage in the IHTC-16 website

The conference program is also on the conference website.

IHTC Digital Library (IDL) AIHTC and Begell House have agreed to establish an IHTC Digital Library (IDL). The IDL is an online

archival library with an interactive web interface and advanced search engine for the use of active researchers and engineers. The library contains past Proceedings of the International Heat Transfer Conferences held under the auspices of the AIHTC and all papers presented at IHTC-16 will be uploaded and included in the IDL. http://ihtcdigitallibrary.com/

IHTC Logo A special logo for the IHTC was authorized by the AIHTC on

October 16, 2013 and introduced in 2014 to celebrate the conference being held since 1951. The logo offers a metaphorical expression of multi-modal and multi-scale heat transfer phenomena. The center sphere with the small sphere on a ring stands for the sun and the earth, or a molecule with an orbiting electron, while the outer arcs represent flames, thermal conduction, and radiation.

This logo is now used on the conference homepage, conference program, documents and other related items and by the IHTC Digital Library that Begell House has established.

Information If you have any questions, please ask any of the volunteers, the conference staff or come to Room 306B.

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General Information

17th International Heat Transfer Conference (IHTC-17) August 8-12, 2022 Cape Town, South Africa Enquiries: Prof. Josua P. Meyer: josua.meyer@up.ac.za

Mobile Conference APP IHTC-16 has developed a website for mobile devices that allows all participants to check and search the

conference program and schedule.

Access The Mobile App can be accessed through: https://www.ihtc16.org/mobile/static/ Or you can use an app that can scan and recognize a QR code (such as WeChat) to scan:

The app that you used to scan the QR code may open this site in its own internal browser which may not

fully support all the functions. If you cannot use some of the functions, open the menu of the browser you are using and choose to open this site in your device’s default browser (such as Safari for iOS devices). Usage

The Search function can search for a specific activity by typing in the number, author, affiliation or title. The Sessions function lists all the conference sessions. You can click on a session to see the activities

and presentations in that session. Detailed information of an activity can be seen by clicking on an item listed in the search result or in a

session. An Add to favorites button can be found at the bottom where you can add your own presentation or other presentations to your favorites.

The Favorites function can show you all the activities you have added. You may also remove items from the favorites.

The site will automatically download the newest data from the server if you are connected to the internet when it starts. You can click on the Update data button if you wish to force an update process manually. Offline use

This site can be used even when you do not have internet access. For most iOS devices and some Android devices, you can find an option similar to Add to desktop or Add to home screen in the menu of the device’s default browser (not the one in the QR code scanning app, such as WeChat). After adding the site to your desktop or home screen, you can access it as with any app. The search and favorites functions are usable even when you are offline. Troubleshooting

Most problems can be solved by refreshing the page, exiting, and re-entering. The site address is a secure link (https), so some devices may have problems accessing it. If you cannot open the site correctly, try inputting http://www.ihtc16.org/mobile/static/ directly into your device’s default browser (use http instead of https). Some simplified browser apps may not fully support the necessary capabilities required by the site. In this case, please try another browser. If you still have problems using the site or if you find wrong information, please contact techsupport@ihtc16.org via email

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Important Notes

To presenters:

Please be sure to arrive at least 5 minutes before your session’s starting time, and please inform the session staff of your arrival.

Only at the General Sessions: 2 minute oral introduction sessions: Each speaker will first give a short 2 minute oral presentation with two PowerPoint slides introducing their paper. The slides for each session will be collected before IHTC 16 and combined into one presentation for each Poster Introduction Session. These oral sessions are: August 11, Saturday 15:00 – 16:00, Posters should be mounted between 13:00 – 13:50 August 12, Sunday 9:20 – 10:20, Posters should be mounted between 8:00 – 8:20

15:00 – 16:00, Posters should be mounted between 13:00 – 13:50 August 13, Monday 9:20 – 10:20, Posters should be mounted between 8:00 – 8:20 August 14, Tuesday 9:20 – 10:20, Posters should be mounted between 8:00 – 8:20

15:00 – 16:00, Posters should be mounted between 13:00 – 13:50 August 15, Wednesday 9:20 – 10:20, Posters should be mounted between 8:00 – 8:20

14:00 – 15:00, Posters should be mounted between 13:00 – 13:50 Each speaker should arrive in the session room 10 minutes before the beginning of the Poster Introduction Session. Poster Sessions: After their oral presentation, each author should then stay by their poster throughout the poster session to discuss their work with other attendees.

To chairpersons:

Please inform the session staff of your arrival prior to the start of the session.

Only at the General Sessions: Please see the details in the instructions for the chairpersons distributed separately.

To questioners/commentators:

Please clearly identify yourself before asking your question or making your comment.

TECHNICAL PROGRAM

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Floor Maps

China National Convention Center The China National Convention Center (CNCC) is in the heart of the Beijing Olympic Green built for the

2008 Olympics, right next to the Bird’s Nest National Stadium and the Water Cube (National Aquatics Center) that are all part of a large park. CNCC now hosts many congresses, international meetings, exhibitions and other events with world-class services and unparalleled facilities.

The front of the CNCC looks like traditional Chinese quoins, illustrating China’s rich history and culture and incorporating tradition with bridging to the future. CNCC has nearly 100 meeting rooms, 2 large ballrooms and a 23,000 sqm exhibition hall. CNCC is also close to the subway line 8 Olympic Green station with access from the underground exhibition halls.

The 2008 Beijing Olympics was designed to be the "Green Olympics, High-tech Olympics and People's Olympics" with environmentally friendly technologies used throughout the venues. CNCC meets strict ecological standards with a central vacuum system, Beijing's first central refuse collection system, natural air-conditioning to reduce the air-conditioning load, and a uniquely designed roof to collect rainfall.

1st Floor (Registration, Opening ceremony, Plenary lectures, Lunch on August 12-14, Banquet on August 14)

(Lunch on August 11 in the Exhibition Hall 4A, 1st floor and Gallery Café & Gallery Foyer, 2nd floor)

(Lunch on August 15 in the Gallery Café & Gallery Foyer, 2nd floor)

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Floor Maps 3rd Floor

(Keynotes, Posters, Meetings, Coffee Breaks, Exhibition Areas, Closing Ceremony, Panel Sessions)

4th Floor (Welcome Reception)

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Schedule at a Glance

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Schedule at a Glance

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Schedule at a Glance

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Schedule at a Glance

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Plenary Lectures August 11, Saturday Ballroom B & C, 1st Floor 9:20-10:20 Chair: Prof. Xing Zhang

Energy Transition in China: Challenges and Opportunities

Prof. Qiang Yao Head, Expert Group of Advanced Energy Technology

Ministry of Science and Technology China

Abstract Energy plays a key role in the development of humanity and civilization. In the last 40 years China has

adhered to the policy of reform and opening up and its social and economic development has grown rapidly with great progress in all fields. An important factor in this progress is energy security. However, due to the fact that China's major energy resource is coal, coal has supplied about 70% of the energy in China for a long time, which has brought about two serious challenges. First is the ecological environmental damage, especially serious atmospheric effects. The second is high carbon dioxide emissions. China has decided to transition to clean, efficient, safe low-carbon energy sources combined with prioritizing energy conservation. Thus, China is gradually increasing the renewable energy supply proportion, increasing the nuclear energy and natural gas proportions, implementing clean, efficient use of coal, and increasing research and development of advanced energy utilization technologies. In particular, China is focusing on the development of energy storage technologies, hydrogen energy technologies and smart grid technologies to achieve a smooth transition to a cleaner, more efficient energy supply system. This lecture will describe China's achievements in energy research and development since 2000 and the research and development layout towards 2030. New energy conservation methods and the development of renewable energy sources both require innovative research in heat transfer. We expect that this ancient and active area will make new contributions to the world’s energy transition. August 11, Saturday Ballroom B & C, 1st Floor 10:40-11:30 Chair: Prof. Avram Bar-Cohen Fourier Lecture Historical Development in the Thought of Thermal Science ---- Heat and Entropy

Prof. Hideo Yoshida Kyoto University

Kyoto, Japan Abstract

This paper is an English excerpt of the Japanese book “Historical Development in the Thought of Thermal Science—Heat and Entropy” by Yoshitaka Yamamoto (first edition, Gendai-Sugakusha, Kyoto, 1986; revised edition, Chikumashobo, Tokyo, 2009). The subtitle “250 Years after James Watt and 200 Years after Sadi Carnot” was added to this excerpt by the translator, because the separate condenser for the steam engine was invented (patented) by Watt in 1769 and the historical paper “Réflexions sur la Puissance Motrice du Feu (Reflections on the Motive Power of Fire)” was published by Carnot in 1824. In the Fourier Lecture at IHTC-16, the translator presented one of the most important and interesting parts of Yamamotoʼs masterpiece, in which he thoroughly studied the development of thermal science in the seventeenth‒nineteenth centuries and shed light on its true nature. This excerpt comprises Chapters 18‒20, about one-tenth of the original book. In Chapter 18, Carnotʼs original problem setting of the motive power of heat is discussed in conjunction with Wattʼs pioneering work on the steam engine. In Chapters 19 and 20, the essence of Carnotʼs theory is described and its profound significance in physics is analyzed in detail.

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Plenary Lectures

August 11, Saturday Ballroom B & C, 1st Floor 11:30-12:20 Chair: Prof. Ken Okazaki Nukiyama Award Lecture Thermodynamic Systems for Highly Efficient Uses of Low Grade Thermal Energy

Prof. Ruzhu Wang

Institute of Refrigeration and Cryogenics Shanghai Jiao Tong University

Shanghai, China Abstract

Low grade thermal heat (from ambient temperature to 200°C) is widely available from factories, ground sources, the ambient, and also solar energy. The rational and economic choice of thermal energy conversion systems (heat to power/cooling/heating) can be determined from thermodynamic studies. Innovative or improved thermodynamic cycles can improve the efficiency; however, the thermal design of thermodynamic systems is critical. This lecture reports how low grade thermal heat can be converted into high grade thermal energy, cooling and power. The thermodynamic system design and the heat transfer processes are shown for various sorption based systems: adsorption, absorption and desiccant.

Typical examples are some novel thermodynamic designs like the mass recovery cycle for adsorption refrigeration, variable effect LiBr-water absorption refrigeration, highly inner heat recovery ammonia-water absorption refrigeration, and weakly coupled temperature & humidity control vapor compression systems. Meanwhile, various enhanced heat and mass transfer designs are also introduced, like a composite sorbent bed with expanded graphite, a desiccant coated heat exchanger, capillary assisted rising film evaporation, and heat pipes matched with sorption systems.

These concepts are based on the extensive research of heat powered cycles in Shanghai Jiao Tong University in the last 25 years. The study shows that we need to consider both the supply side (heat source) and the demand side (electricity, heating, cooling, or storage) to optimize solutions for the efficient use of low grade thermal energy.

The Nukiyama Memorial Award was established by the Heat Transfer Society of Japan in 2012 to commemorate the land-mark

contributions by Shiro Nukiyama as an outstanding heat transfer scientist. Prof. Nukiyama addressed the challenges of the boiling phenomena and published an epoch-making paper, well known as the Nukiyama curve (boiling curve). The Nukiyama Memorial Award shall be bestowed to a scientist, preferably under 50 years of age, every two years in the field of Thermal Science and Engineering.

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Panel Sessions Nanoscale Heat Transfer August 11, Saturday 16:00-18:00 Auditorium, 3rd floor Moderator Prof. Changying Zhao School of Mechanical Engineering, Shanghai Jiao Tong University, China Panelists Prof. Gang Chen Department of Mechanical Engineering, Massachusetts Institute of Technology, USA Prof. Dimos Poulikakos Department of Mechanical and Process Engineering, ETH Zurich, Switzerland Prof. Zhuomin Zhang George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, USA Prof. Shigeo Maruyama Department of Mechanical Engineering, The University of Tokyo, Japan Prof. Li Shi Department of Mechanical Engineering, University of Texas at Austin, USA Abstract

Nanoscale heat transfer is a new branch of heat transfer that explores unconventional heat transport phenomena in nanostructured materials and devices to produce exotic thermal transport properties. This field has been rapidly growing in the past few decades due to the discovery of novel nanomaterials and the development of nanofabrication methods. Nanoscale heat transfer now plays an important role in emerging energy systems and thermal management, including thermoelectric devices, thermophotovoltaic systems and advanced electronic cooling systems.

The nanoscale heat transfer community has already produced many significant studies that have contributed much not only to our fundamental understanding of nanoscale science but also to cutting-edge nanotechnology applications. In the past few years, we have witnessed more and more people becoming interested in this field, including many young scholars. We organized this panel discussion to further promote understanding of this field in the entire heat transfer community and to address important issues critical to the future development of nanoscale heat transfer applications.

This panel includes leading scientists in the nanoscale heat transfer field. In the first part, each invited scientist will give a very brief talk on a specific topic based on his research area which will present the current status of our research, existing problems and challenges and future outlooks. The second part will be a discussion among the experts on several current topics. The third part is then an open discussion between the invited scientists and the audience. We hope that all participants in this discipline can be involved in this panel and forward-looking discussions are highly encouraged. Our hope is that this panel will inspire new ideas, shape ways of thinking and lead to revolutionary innovations for all researchers in this field.

G. Chen D. Poulikakos Z. M. Zhang S. Maruyama C. Y. Zhao L. Shi

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Panel Sessions Energy Storage August 12, Sunday 16:00-18:00 Auditorium, 3rd floor Moderator Prof. Changying Zhao School of Mechanical Engineering, Shanghai Jiao Tong University, China Panelists Prof. Tianshou Zhao HKUST Energy Institute, The Hong Kong University of Science and Technology, Hong Kong, China Prof. Yulong Ding Birmingham Centre for Energy Storage, University of Birmingham, UK Prof. Chaoyang Wang Department of Mechanical and Nuclear Engineering and Electrochemical Engine Center (ECEC) Pennsylvania State University, USA Dr. Christos Markides Department of Chemical Engineering, Imperial College London, UK Dr. Hong Wang Pioneer Energy Co., LTD, China Abstract

Energy storage refers to technologies that utilize the energy stored in an energy system at a later period through various energy conversion processes. Energy storage systems are normally used to reduce the mismatch between the energy supply and demand. The value of the energy storage increases in scenarios where the energy systems utilize renewable energy sources which alleviates carbon emissions to the atmosphere or recover waste heat from the industrial sector which improves the energy efficiency of the integrated system.

In terms of the concrete processes involved in the charging/discharging periods, the energy storage technologies can be mainly classified as thermal energy storage (TES), thermochemical energy storage (TCES), and battery energy storage (BES). These advanced technologies should be further developed in consideration of their merits including their relatively low capital costs, high round-trip efficiency, their ability to improve the energy supply reliability, and their energy density. There are still challenges to commercializing these energy storage technologies. For instance, how to scale up well-developed TES systems to fulfill the thermal demand in various communities? How to accurately control the chemical reactions at the right time for the fluctuating heat loads in various applications? What are the key issues for creating a rechargeable battery with a long lifetime that can efficiently convert chemical energy into power for driving an electric vehicle?

The panelists, all worldwide leading scientists in the field, will discuss current research on resolving these scientific and technological challenges associated with these energy storage technologies. These forward-looking discussions will cover the synthetization of composite materials, the optimization of thermal/chemical/electrical processes, the integration of innovative energy storage systems as well as the needed governmental energy policies, to secure mature large-scale energy storage technologies that can be widely applied worldwide.

T. S. Zhao Y. L. Ding C. Y. Wang C. Markides C. Y. Zhao H. Wang

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Panel Sessions Entransy: A New Concept in Heat Transfer August 14, Tuesday 16:00-18:00 Auditorium, 3rd floor Moderators Prof. Khellil Sefiane School of Engineering University of Edinburgh, U.K. Prof. Lingai Luo French National Center for Scientific Research CNRS, Nantes, France Panelists Prof. Zengyuan Guo Department of Engineering Mechanics Tsinghua University, China Prof. Annie Steinchen Laboratory of Non-equilibrium Thermodynamics University of Marseille, France Prof. Heinz Herwig Department of Mechanical Engineering Hamburg University of Technology, Germany Prof. Milivoje Kostic Department of Mechanical Engineering North Illinois University, USA Abstract

The concept of ‘entransy’, which is a product of heat/thermal energy and temperature, was originally introduced in heat transfer without heat-work conversion in 2003 by Prof. Z. Y. Guo and his group through an analogy between heat and electrical conduction, with entransy corresponding to the electrical potential energy in a capacitor. They proposed that the total ‘entransy’ always decreases during any heat transfer process. The minimum ‘entransy’ dissipation based thermal resistance principle states that a lower thermal resistance leads to better heat transfer. Since its formulation, the concept of ‘entransy’ has been used to analyze and optimize various heat transfer processes by many researchers and groups. There are continues to be ongoing efforts by many groups around the world to refine and test the concept of ‘entransy’ and its usefulness in heat transfer optimisation.

Following its introduction, ‘entransy’ as a concept has been the subject of much controversy between its supporters and detractors. While its supporters believe that the ‘entransy’ concept has very broad applicability and is an effective tool for heat transfer optimisation, the concept has been criticized by many researchers as being “inconsistent and not needed” and “redundant to Entropy”. These two opposing views and approaches to this new concept have been widely debated in the open literature in recent years.

The panel includes leading international scientists with expertise in non-equilibrium thermodynamics, heat transfer and transport phenomena. The discussion aims to present a fair and balanced debate of opinions from both sides. This panel gives the opportunity to hear the opinions of supporters and antagonists, as well as neutral opinions, of ‘entransy’ and its validity as a new concept in thermodynamics and heat transfer.

Z. Y. Guo A. Steinchen M. Kostic H. Herwig K. Sefiane L. A. Luo

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Panel Sessions Multi-scale Innovative Cooling Technologies for Data Centers August 15, Wednesday 14:00-16:00 Auditorium, 3rd floor Moderators Prof. Zhen Li Department of Engineering Mechanics Tsinghua University, China Prof. Avram Bar-Cohen Department of Mechanical Engineering University of Maryland, USA Panelists Prof. Sung Jin Kim Department of Mechanical Engineering KAIST, Korea Prof. Yogendra Joshi School of Mechanical Engineering Georgia Institute of Technology, USA Dr. Jie Wei Advanced Technologies Fujitsu Limited, Japan Abstract

Data centers are large rooms full of IT equipments which produce huge amounts of heat. In the past few decades, data centers have been rapidly increasing in size and power density. The energy consumption just for thermal management has then increased dramatically with the average annual cooling power consumption reaching as high as 30% of the total energy cost.

Cooling technologies for data centers can be classified based on their size as room level, rack level and server level systems. These cooling systems can cool the entire room, just one rack and just one server as the smallest cooling object with smaller cooling objects leading to more efficient systems. Cooling systems can also be classified based on the cooling medium as air cooled or liquid cooled systems. Liquid cooling is generally more efficient than air cooling because of the higher heat capacity of the liquid.

This panel will focus on developments for cooling data centers and the various innovative cooling technologies for the various cooling scales in data centers. The panel discussion topics are:

Strategies and Technologies in Cooling of Data Center Computer Equipment and Systems Embedded Microfluidic Cooling - Path to High Computational Efficiency Heat Pipe Technology for Data Center Cooling Emerging Trends and Challenges in Data Center Thermal Management Multiscale Cooling Systems for Data Centers

A. Bar-Cohen S. J. Kim Z. Li J. Wei Y. Joshi

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Keynote Lectures IHTC-16 will feature 28 Keynote lectures covering a wide range of heat transfer research. The

Keynote speakers were nominated and invited through the International Scientific Committee (ISC) members for each region.

August 11, Saturday 14:00-14:40

Chair: Prof. Tassos Karayiannis Keynote KN01: Room 309A Advances and Challenges in Droplets Wetting and Evaporation Prof. Khellil Sefiane School of Engineering, The University of Edinburgh Edinburgh United Kingdom

The wetting and evaporation of sessile droplets resting on solid substrates have been of interest to a wide range of disciplines. Ranging from engineering, biomedical to atmospheric science. The topic of droplets evaporation exhibits a fundamental importance to these areas. In this paper, we review some of the recent advances on this subject, including the influence of substrate thermal properties and flexibility, thermal instabilities driven by evaporation, patterns from dried droplets, progress in modelling these phenomena and predicting lifetimes. The challenges facing researchers in the field are highlighted aiming at providing some outlooks on this topic. The thermal properties of underlying substrate can indeed significantly affect the evaporation kinetics and hence lifetimes of volatile droplets. Equally thermal instabilities driven by evaporation is an interesting observation which still represents many unraveled aspects. The role of these latter in evaporation and their effect on phase change remains to be fully elucidated. Attempts to predict life times of droplets has been restricted to mainly mathematical models. Evaporation and drying of complex fluid droplets is another topic which presents many challenges to researchers. Understanding and predicting the patterns formed from dried complex fluid droplets remain of practical interest and challenging. The area of superhydrophic substrates and how evaporation of droplets proceeds on these new materials requires more experimental investigations. Many challenges on the modelling front are also highlighted. This includes the multiscale nature of the three-phase contact line region as well as non-symmetrical geometries and the three dimensional nature of droplets.

Chair: Prof. Peixue Jiang Keynote KN02: Room 309B Self-Assembled Stable Clusters of Droplets over the Locally Heated Water Surface: Milestones of the Laboratory Study Prof. Leonid A. Dombrovsky The University of Tyumen Tyumen, 625003 Russia

The self-assembled clusters of regularly positioned small droplets are formed over the locally heated water surface. This phenomenon was observed for the first time by Alexander Fedorets in 2004. The behavior of levitating droplet clusters in the upcoming gas flow has been studied in detail. The life cycle of clusters from the baby-droplet to the coalescence of heavy droplets with substrate layer of water is quite clear now. In 2015, the first milestone of the work has been reached and we transferred from passive observations to managing the process. The main objective was to stabilize the clusters and avoid their coalescence with water substrate. This was achieved by relatively weak infrared heating of droplets. An alternative way to decrease significantly the rate of droplet growth with the use of a periodic variation of the heating laser power was also analyzed. The optimum period of the power variation was experimentally determined. The problem of generation of droplet clusters in the desired temperature range for the upcoming studies of biochemical processes was solved with the use of a strong cooling of both water layer and ambient air. Life goes on, and we are now at the second milestone. The new stage of the work on entropy analysis of ordinary and small clusters has been recently started in a cooperation with our colleagues from Israel and USA. The work on formation of droplet clusters with the controlled amount of admixtures in water is also in progress now. An additional laboratory equipment with Raman spectroscopy of single droplets will enable us to leave behind the next milestone and begin the study of biochemical processes in the droplets.

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Keynote Lectures

Chair: Prof. Qiuwang Wang Keynote KN03: Room 310 Multiscale Simulation for Fluid Flow and Heat Transfer Problems: A Brief Review and Further Research Needs Prof. Wenquan Tao Xi’an Jiaotong University Xi’an China

This keynote presentation includes following four parts. In Part 1, the question of “What is the multiscale simulation (MSS)?” is answered. System or process which covers several geometric or time scales is called multiscale problem. From numerical simulation viewpoint, the multiscale problems in thermo-fluid science and engineering may be divided into two categories: multiscale process and multiscale system. The transport phenomena in a PEMFC and cooling of a data center are, respectively, the examples of the multiscale process and multiscale system. In Part 2, how to do the MSS is presented. For the multiscale process there are two numerical approaches. One is solving regionally and coupled at the interface. Numerical methods of different scales are adopted in different regions of the same problem, and at the interface of two regions, the solutions from the two regions are coupled to ensure the continuity in dependent variables and their first order derivative. The other approach is the upscale method, in which the mesoscale or microscale method is used to predict some parameters and they are adopted in the macroscale simulation. In the 3rd part, “Why should we adopt the MSS?” is answered. There are two reasons. One reason is that computational resource can be greatly saved by the MSS. The other reason is that with the MSS one can find or reveal some new results which can not be obtained by single scale method. Examples will be provided. Finally, the further research needs in the MSS are suggested.

Chair: Prof. Charl G. du Toit Keynote KN04: Room 311A Heat Transfer Enhancement, Thermodynamic and Numerical Optimisation of Complex Solar Energy Systems - Parabolic Trough Collector Systems Prof. Tunde Bello-Ochende University of Cape Town Rondebosch South Africa

In this paper, heat transfer enhancement, thermodynamic, and numerical optimization using both the entropy generation minimization method and multi-objective optimization for parabolic trough solar collector systems is presented. Due to the non-uniform heat flux distribution across the receiver tube’s circumference, accurate determination of the heat flux profile is crucial for the prediction of the thermal and thermodynamic performance. Firstly, the Monte Carlo ray tracing techniques are used to obtain the realistic optical performance of the system. Then, the thermal and thermodynamic performances are investigated by coupling the obtained realistic heat flux profiles with a finite volume based computational fluid dynamics tool. The parabolic trough systems considered have concentration ratios from 57-143, rim angles between 40° and 120°, inlet temperatures from 400-650 K and flow rates from 1.22 m3 h-1 to 134.73 m3 h-1. Following the thermal and thermodynamic performance studies, the potential for improved performance using centrally placed perforated plate inserts and twisted tape inserts were investigated. For some range of Reynolds numbers, the studies showed significant improvements in both the thermal and thermodynamic performance with heat transfer enhancement. Both the thermal and thermodynamic performance were improved appreciably. The heat transfer performance increased by about 134% and 169% whereas the entropy generation rate reduced by 53% and 68% for the respective heat transfer enhancement techniques. Moreover, the use of the entropy generation minimization method and multi-objective optimisation gave the optimal parameters for each of the enhancement techniques considered.

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Keynote Lectures

August 12, Sunday 8:30-9:10

Chair: Prof. Leonid A. Dombrovsky Keynote KN05: Room 309A Aerodynamics and Heat Transfer in Turbulent Separated Flows Dr. Viktor I. Terekhov Kutateladze Institute of Thermophysics SB RAS Novosibirsk Russia

Separation flows are widely used as one of the main methods for enhancing the transfer processes in heat transfer devices of modern power engineering, chemical technology, aviation and space technology. A huge number of works dealt with the study of the flow structure and heat and mass transfer at flow separation behind various barriers. At the same time, the use of separation flows, as a rule, are associated with an increase in hydraulic losses and formation of poorly purged stagnation zones with reduced heat transfer. Therefore, it is important to study the methods of controlling flow separation by introducing additional low-intensity perturbations directly into the recirculation flow zone. There are few works in this direction and they present the primary results of experimental and numerical studies of possibilities of the action of small-scale perturbations on the nature of deformation of a global separated flow.

This report is aimed at the detailed analysis of the current state of this problem, including the studies carried out by the author. The effect of high turbulence of an external flow or specially generated periodic disturbances of different frequency and intensity on separation is also directly relevant to this problem. The researches on the effect of vortex generators of various sizes and shapes on heat transfer enhancement, especially in the channels of compact heat exchangers, are intensively developing now. The investigation results in this direction are undoubtedly interesting for understanding the complex processes of interaction between different-scale turbulent separated structures.

Chair: Prof. Sung Jin Kim Keynote KN06: Room 309B Attempts to Realize Long-Lasting Drop-Wise Condensation of Steam on Metallic Surfaces Prof. Ji Hwan Jeong Pusan National University Busan Korea

Numerous thermal-energy systems incorporate condensers to reject heat. The condensation can be classified into three modes depending on the condensate flow behavior: film condensation (FWC), dropwise condensation (DWC), and conventional condensation. The condensation heat transfer performance of the DWC is superior to the other modes because the condensate does not wet the surface so that thermal resistance is minimized. That is why the DWC has been of interest to heat transfer researchers. Previous experiments demonstrated that a hydrophobic textured surface may be changed into a hydrophilic surface when water vapor condenses on the surface. The condensate nucleated to the bottom and the pillar side walls appeared to be sticky and would not climb up the pillar to form a spherical droplet. In order to avoid this pinning effect, ions implantation for flat metallic substrates was examined. Argon, Nitrogen, and Chromium ions are accelerated and irradiated onto metallic substrates. This method allows surface modification without fabrication of micro/nano-size texture and polymer coatings. Physical and chemical interaction is expected to occur in thin layer near the substrate surface when the high energy ions are irradiated. The effects of ion-irradiation on aluminum and copper substrates were experimentally observed in terms of a change in contact angle, surface morphology, and steam condensation heat transfer coefficient. The results show that the DWC occured on a Cr-ion implanted aluminum and the DWC lasts for more than six months. Condensation heat transfer coefficient appeared to be two-fold larger than that predicted by Nusselt theory.

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Keynote Lectures

Chair: Prof. Denis Maillet Keynote KN07: Room 310 Thermal Properties Measurements of Phase-Change Alloys Within the Configuration of Nanostructures and Devices Prof. Jean-Luc Battaglia I2M laboratory, UMR CNRS 5225 University of Bordeaux France

Thermal properties of phase change chalcogenide alloys involved in the phase change memory devices are measured using experimental techniques suitable with the observation scale. The modulated photothermal radiometry, the time resolved pump-probe thermoreflectance and the scanning thermal microscopy are used in a general inverse approach. This note aims to describe the work we have done during the ten last years in terms of experimental techniques and comparison with theoretical models.

Chair: Prof. Michael Jensen Keynote KN08: Room 311A Frost and Ice Fog Formation and Heat Transfer in Supersaturated Air in Industrial Freezers Prof. S. A. Sherif Department of Mechanical and Aerospace Engineering University of Florida Gainesville, Florida USA

Frost build-up contributes to coil heat transfer performance degradation due to the insulating effect of the frost layer and the resulting coil blockage. While the frosting problem has been extensively researched, very few studies have investigated the problem in industrial freezers when the freezer is operating under supersaturated conditions. Field observations of the operation of these types of freezers indicate that this is a common mode of operation and that the transition to supersaturated operation can easily occur if proper care is not exercised. Field observations also reveal that operating freezers under supersaturated conditions can significantly accelerate the occurrence of the negative aspects of frost formation in so far as coil heat transfer performance is concerned. The purpose of this paper is to provide a summary of many years of an experimental research program whose main objective was to study coil frosting and defrosting issues at low temperatures and high humidity conditions in industrial freezers. The idea was to develop tools and protocols that help refrigeration-system designers and freezer operators improve the performance of freezer coils that are particularly prone to the frosting problem and offer the research community accurate calculation tools to predict both frost formation and heat transfer rates in supersaturated freezer air. The paper will give an overview of the research conducted and the conclusions reached.

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Keynote Lectures

August 12, Sunday 14:00-14:40

Chair: Dr. Francesco Coletti Keynote KN09: Room 309A Flow Boiling in Micro-Passages: Developments in Fundamental Aspects and Applications Prof. Tassos G. Karayiannis Department of Mechanical and Aerospace Engineering Brunel University London Uxbridge, UP8 3PH United Kingdom

Flow boiling in mini to micro passages located at the heat source, and as part of a thermal management system, has been identified as a possible way to remove the increasing high heat fluxes generated by high power electronic devices due to their capability of high heat transfer rates with small surface temperature variations. However, some still unresolved fundamental issues hinder the possible full adoption of this technology. These relate to the prevailing flow patterns, heat transfer rates and pressure drop in such geometries, and their dependence on key parameters. The possible major applications of flow boiling in microchannels are first mentioned in this paper, highlighting the requirements and the challenges of the thermal management of each application. The paper then presents new experimental research by the present authors as well as research reported in the literature on flow boiling in single tubes and rectangular multi microchannels to help elucidate the following fundamental issues: the definition of a microchannel, prevailing flow patterns, heat transfer mechanisms, flow instability and reversal and their effects on heat transfer rates, effect of channel material and surface characteristics (including latest research in coatings), effect of different fluid properties, and its relation to channel material, effect of channel length and aspect ratio. An appreciation of the above can help explain the interpretation of the prevailing fluid flow and heat transfer phenomena and the data scatter and discrepancies observed in past studies. In addition, models and correlations predicting flow patterns and heat transfer rates are presented.

Chair: Prof. S. Srinivasa Murthy Keynote KN10: Room 309B Microscale Thermal Transport: Some Biomedical Perspectives and Beyond Prof. Suman Chakraborty Department of Mechanical Engineering Indian Institute of Technology Kharagpur Kharagpur 721302 India

The application areas of microscale thermal transport have dramatically expanded in the past few years,

having significant implications in understanding thermophysical phenomena occurring in biological systems and bio-medical devices. In particular, understanding thermal transport in biological tissue has numerous applications in disease diagnosis and therapy, which often demands quantification of the temporal and spatial variations in the tissue temperature. This article aims to introduce researchers to some of the topics on microscale thermal and fluid transport in the broad purview of biomedical applications, as persuaded in the author’s research group. At first, laser assisted photo–thermal therapy of biological tissues is discussed, wherein the effect of laser type and laser input configurations on the optimization of therapeutic outcome is outlined. To evaluate the variation in tissue temperature induced by melting of fat and vaporization of water, an enthalpy based bioheat model is illustrated. Further, the potential of plasmonic nanomaterials in improving the tumor specificity during cancer ablation is discussed, along with an experimentally validated predictive model. Subsequently, the working principle and model of magnetic fluid hyperthermia (MFH) is illustrated, wherein the physics of magnetic nanoparticle heating and magnetophoretic transport of nanoparticles through tissues is explained. Next, a new radiometric device for imaging dynamic changes in skin blood perfusion is introduced, wherein the measurement of blood perfusion and its clinical relevance is discussed. Finally, the process of DNA hybridization in microfluidic devices is illustrated, that are widely applicable for determination of DNA sequences. In this regard, a physics based theoretical model of DNA hybridization is discussed considering microscale heat, fluid and ion transport in a microchannel under electrical field and the pressure gradient, bearing far reaching consequences in point of care diagnostic applications employing lab-on-chip micro devices.

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Keynote Lectures

Chair: Prof. Ruzhu Wang Keynote KN11: Room 310 Role of Flow and Mass Transfer in Photobioreactor : From Bacteria Locomotion to Hydrogen Production Prof. Xun Zhu Institute of Engineering Thermophysics, Chongqing University Chongqing China

Photo fermentation by photosynthetic bacteria (PSB) in biofilm photobioreactors (PBRs) is a green route to produce hydrogen energy; however, it faces many thermodynamic challenges such as flow, heat, mass and light transfer in the growth and metabolism of microbes, significantly limiting the PBR performance. In PBRs, photosynthetic bacteria in suspension are absorbed and attached onto surface of support materials to form stable porous biofilms. As liquor flow over the biofilm surface, the organic substrates transport from the bulk liquid into the biofilm, and subsequently are degraded by PSB to generate hydrogen and CO2 as well as metabolic heat. The metabolic products inversely diffuse to the bulk flow. Such processes are associated with combined biochemical reactions and multi-scale transport steps. Facing the interdisciplinary challenges, we have focused our attention on transport mechanisms and characteristics in the PBRs, including the movement and adsorption behaviors of bacteria, the mechanisms of PSB biofilm formation on the surface of solid materials, and the characteristics of fluid flow and mass transfer coupling with biochemical reactions. In addition, we proposed novel approaches for PBR performance enhancement based on the fundamental research. The main findings are listed below:

(1) The locomotion behaviors of suspended bacteria on support material surface and the chemotaxis under a non-uniform chemical concentration were explored by a theoretical model that takes account of the interaction between flagellum and liquid, Brownian motion and the tumble motion. The effects of flow field, substrate concentration and support material structure were discussed comprehensively. Based on the theoretical study, a new unsaturated operation mode and a novel biomaterial containing SiO2-chitosan-medium coating glass slide were proposed to improve the adhesive capacity of PSB by 8.1 times.

(2) The mechanisms of the growth and biofilm formation of PSB on structured surfaces were investigated by systematic experiments and a theoretical model with diffusion-reaction equations and cellular automata rules. The evolutions of biofilm morphology and characteristic parameters were obtained at various operating conditions. The results indicated that substrate limitation is the most critical factor affecting the biofilm activity. In addition, the optical fiber and light guide plate with surface modification were firstly employed to enhance the light transport and biofilm formation, resulting in a 4.4 times increase in PSB biomass accumulation.

(3) The transport characteristics and hydrogen production performance in various PBRs were studied by visual and numerical experiments to discover the desirable PBR structure and operating conditions for performance enhancement. A novel optical fiber bundle biofilm PBR and a light guide plate PBR with multi-layer decoration by photothermal biomaterial were proposed to improve hydrogen production by 2.6 and 5.1 times, respectively.

Chair: Prof. Dominic Groulx Keynote KN12: Room 311A Fusing Cooling and Power Delivery in 3D-Integrated Electronics with Redox Flow Batteries Prof. Dimos Poulikakos Laboratory of Thermodynamics in Emerging Technologies Institute of Energy Technology, Mechanical and Process, Engineering Department ETH Zurich Switzerland

With rising scientific evidence that human activity plays a major role in global warming, the demand for

replacement of fossil-fuel-based energy sources in favor of renewable sources has greatly increased. Inseparably coupled to this, due to the intermittent nature of most renewable energy sources, is the development of efficient energy storage technologies. With reference to electric power storage, one attractive option is the redox flow battery (RFB), mainly due to the decoupling of the amount of energy stored and the rated power. The miniaturization of redox flow cells (RFCs) enables novel energy conversion concepts combining power delivery and heat regulation. In this lecture we discuss recent developments demonstrating for the first time the realization of integration of high-power-density RFCs into electronic devices, providing electric power through conversion of chemical energy to electricity, and heat management (cooling) simultaneously. To this end, optimization of the enabling microfluidic networks in miniaturized flow cells is key. Employing 3D-printing for the inexpensive and effective fabrication of these networks, it was shown recently that RFCs with maximum power densities of up to 1.4 W/cm2 at room temperature and net power densities of up to 0.99 W/cm2 after accounting for pumping power losses (highest reported to date to our knowledge) are possible.

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Keynote Lectures

August 13, Monday 8:30-9:10

Chair: Prof. Yukitaka Kato Keynote KN13: Room 309A Advanced X-ray Visualization of Fuel Cell and Lithium Ion Battery Prof. Shuichiro Hirai Tokyo Institute of Technology Ohokayama 2-11-2, Meguro-ku, Tokyo 152-8551 Japan

Proton exchange membrane fuel cells (PEFC) and lithium ion secondary battery (LIB) are regarded as a promising alternative clean power sources for automobile applications, fuel cell vehicle (FCV) and electric vehicle (EV), respectively. PEFC and LIB needs higher performance, i.e., high current density to achieve cost reduction and downsizing for PEFC and higher specific capacity and rapid charge/discharge for LIB. In order to improve the performance, fundamental mechanism of the mass transport phenomena in PEFC and LIB under in-situ conditions need to be elucidated. We have developed a soft X-ray microscopy system, which is an advanced imaging system that could visualize water and Li ion in PEFC and LIB, respectively. It could be used in ordinary laboratories without synchrotron and neutron sources. Current density corresponds to liquid water production in fuel cell. It is noted that although H2O is produced at the catalyst layer, liquid water firstly appears near the cathode rib. Liquid water at the interface of MPL and catalyst layer is also observed. The concentration distributions of lithium ions inside the hard carbon negative electrode were able to be investigated. Density reduction caused by lithium intercalation was observed in the graphite negative electrode. These results suggest that transport phenomena in PEFC and LIB could be evaluated quantitatively by the advanced soft X-ray microscopy technique.

Chair: Prof. Ulrich Gross Keynote KN14: Room 309B How to Teach Heat Transfer More Systematically: Involving Entropy and Some Newly Defined Quantities Prof. Heinz Herwig Institute of Thermodynamics, Hamburg University of Technology Hamburg, D-21073 Germany

In order to teach heat transfer systematically and with a clear physical background it is recommended not to ignore entropy as a fundamental quantity. Heat transfer processes are characterized by introducing the so-called entropic potential of the transferred energy and an assessment number is based on this new quantity. Prior to these considerations the concept of a thermally active layer is introduced by which various heat transfer situations can be uniquely qualified with respect to their general performance. And it is suggested to categorize heat transfer situations quite generally as either conduction based or radiation based heat transfer processes. Three examples illustrate all these different aspects.

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Keynote Lectures

Chair: Prof. Jacques Padet Keynote KN15: Room 310 Property & Field Darboux Transformations (Profidt Method): A Versatile Toolbox for Generating Exact Analytical Solutions to Diffusion-Like and Wave-Like Equations in Graded Media Dr. J.-C. Krapez ONERA, The French Aerospace Lab, DOTA, F-13661 Salon de Provence France

Transfer processes, whether by diffusion or wave propagation, often take place in media that show continuous variations in their properties. The modeling of these processes should then take into account the local variations of the influential properties, in particular (but not only) those defining the diffusion coefficient, respectively the wave celerity. Due to the lack of a general analytic solution for arbitrary distributions of these parameters, even in the one-dimensional case, it is often expedient to replace the medium with a piecewise-constant approximate model. Several methodologies have been developed to provide solutions of higher order, namely with a higher fidelity to the actual property profiles, as it is outlined in a review focused on the heat diffusion problem. However, their weaknesses are limited applicability, limited scalability or numerical burden due to the use of special mathematical functions. A method with quite remarkable properties has recently been described to solve dynamic heat-transfer problems in 1D graded media, namely media with heterogeneous heat capacity and conductivity. Its particularity is not to propose a solution to a particular problem, but a way to build cascades of solutions for problems of increasing complexity. Among these solutions is a class of profiles flexible enough to play the role of smart bricks in so-called “solvable splines”. Arbitrary complex profiles can then be synthetized by joining those bricks and applying the classical quadrupole methodology (with however ad-hoc quadrupole matrices). The procedure was then extended to electromagnetic waves for media with graded permittivity and permeability. This paper intends to review the major aspects of this general analytical approach, in particular the Liouville transformation, which merges the influential properties into a single leading property, and then the Darboux transformation, which expands the number of solutions and their sophistication. Examples related to photothermal modeling will be presented and some reference will be given to other applications such as advection-diffusion or light-wave propagation in graded-index dielectrics.

Chair: Prof. Helcio R. B. Orlande Keynote KN16: Room 311A Modeling of Heat and Mass Transfer in Human Thermal and Respiratory Systems and Its Application to Engineering and Medical Sciences Prof. Jurandir Itizo Yanagihara University of São Paulo São Paulo Brazil

The paper summarizes the development of physiology-based models of the human thermal and

respiratory systems. There is an increasing interest in the development of such models as they allow the determination of temperature, blood flow rate, contents of oxygen, carbon dioxide and carbon monoxide in different tissues of the human body, depending on the ambient conditions and the physical activity levels. Different strategies for the geometrical modeling of the human body are presented and the simulation of the heat transfer processes in the segments representing different parts of the body, such as head, neck, trunk, arms, forearms, hands, thighs, legs and feet, will be discussed. The modeling of the mass transport and storage of gases such as O2, CO2 and CO in the blood and tissues are also discussed. These models are very useful to predict the behavior of the human body under different hazardous environmental conditions such as thermal stress, decompression accident in airplanes, compartment fire or urban atmospheric pollution. Finally, the use of these models for the exergy analysis of human body performance under physical activities and for the assessment of the thermal comfort conditions is also considered.

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Keynote Lectures

August 14, Tuesday 8:30-9:10

Chair: Prof. Yasuyuki Takata Keynote KN17: Room 309A Bubbles and Droplets at the Initial Stage of Nucleation: Recent Advances in Experimental Techniques Prof. Koji Takahashi Department of Aeronautics and Astronautics, Kyushu University International Institute for Carbon-Neutral Energy Research, Kyushu University Motooka 744, Nishi-Ku, Fukuoka 819-0395, Japan

Recent microfabrication techniques have exhibited tremendous opportunities to improve the phase-change heat transfer by tailoring the surface structure and wettability, which indicates that microscopic understanding of liquid-gas phase change are vital for further improvement of heat transfer devices. Boiling and condensation have been studied by numerous researchers for more than a half century and are known to be a successive process of nucleation, growth and departure of bubbles and droplets. Fluid dynamical modeling has been extensively developed for their growth and departure but the nucleation is still incompletely understood because of the lack of imaging techniques of two-phase phenomena smaller than the resolution limit of optical microscopy. This paper introduces new trends to investigate nanoscale bubbles and droplets experimentally, using AFM, SEM and TEM. AFM is of the highest spatial resolution and its feedback control of tip tapping enables us to obtain the accurate shape of nanobubbles at the solid-liquid interface. A new mode of AFM gives force data of approaching and retracting tips, which unveils the strong interaction between nanobubble and AFM tip. Environmental SEM is a useful tool for observing water condensation with droplets of micrometer-order diameter but there are several concerns including the contamination due to the electron beam irradiation. TEM requires ultra-high vacuum environment but utilization of nano liquid cell enables us to image the liquid-gas interface in nanoscale. By using these techniques, some key issues for generation and stability of interfacial nanobubbles and condensed nanodroplets have been understood, which should result in novel techniques to control the initial stage of phase change heat transfer.

Chair: Prof. Changying Zhao Keynote KN18: Room 309B Enhancing Heat Transfer in Phase Change Materials Prof. Gennady Ziskind Ben-Gurion University of the Negev Beer-Sheva 84105 Israel

Phase change materials (PCM) are attracting a significant amount of attention these days, as they might be used in such diverse applications as thermal energy storage, thermal management electronics and energy efficient buildings. The number of research works in the field of PCM is growing very fast, and, as in many other fields of heat transfer, things are sometimes re-discovered or re-invented. This lecture’s first aim is to give a historical perspective of heat transfer research in this rich and important field. It is shown that, in fact, the true interest in it arose first about half a century ago, in connection with the space exploration. In fact, many prominent heat transfer researchers contributed to this field, and it is demonstrated in the lecture how their insightful work remains more than relevant today. The second aim of this lecture is to present state-of-the-art of heat transfer enhancement in PCM, because these materials are notorious for their low thermal conductivity. Various enhancement methods are outlined and their merits are evaluated. Among those methods, we discuss extended surfaces, conductive additions, porous matrices, nanoparticles and PCM-based slurries. The presentation is based, to a very large extent, on the author’s personal knowledge and experience in PCM systems, partially reflected in a number of very recent publications of our laboratory. Although “the big picture” is important, our attention is dedicated also to numerous essential details and subtleties, which can affect the processes significantly but are frequently overlooked.

30

Keynote Lectures

Chair: Prof. Dimos Poulikakos Keynote KN19: Room 310 CO2 Absorption/Regeneration Performance Enhancement by Nanoabsorbents Prof. Yong Tae Kang School of Mechanical Engineering, Korea University Seoul, 136-701 Korea

Experiments on CO2 absorption were carried out in Taylor-Couette type absorber at low rotational speeds. The base absorbent used is methanol. Al2O3 and SiO2 nanoparticles are combined with methanol to produce nanoabsorbents with the purpose of enhancing the absorption of the CO2 gas. The system is equipped with a mass flow controller at the inlet and a mass flow meter at the outlet to obtain the absorption rate. The Taylor-Couette absorber performance is compared to a modified version in which trays were added to enhance the absorption rate by increasing the residence time of the gas phase. Experiments in co-current and counter-current flow modes are carried out. It is found that the CO2 absorption rate enhances up to 6% and 8%, respectively, by using SiO2 and Al2O3 nanoparticles. In addition, the two-phase flow pattern of the CO2 gas bubbles and the liquid methanol in the Taylor-Couette absorber and the modified version is analysed with the high-speed camera pictures. Nanoemulsion absorbent is also developed for CO2 absorption performance enhancement. Nanoemulsion absorbent with nanoscale oil droplets has higher dispersion stability than nanofluids. Dispersion stability for both nanofluid and nanoemulsion absorbents is evaluated and compared.

Chair: Prof. Pedro Coelho Keynote KN20: Room 311A Heat Transfer in PCB Manufacturing Prof. José Carlos Teixeira Department of Mechanical Engineering, University of Minho Braga Portugal

The optimal placement of electronic components on a Printed Circuit Board (PCB) requires satisfying multiple conflicting design objectives as most of the components have different power dissipation, operating temperature, types of material and dimension. Also, the margin of solder joints and the pitch dimensions in an electronic component is continuously scaled down as a future trend.

These challenges lead to more complex thermal responses, mostly during the soldering process. Reflow soldering is one of the most widespread soldering technologies used in the electronic industry. It is a method of attaching surface components to a PCB with solder paste. The goal of the reflow process is to melt the solder and heat the adjoining surfaces, without overheating and damaging the electrical components. Improvements in the heat transfer performance require the identification of heat transfer mechanisms within the structure, the design parameters and the models to predict heat transfer performance at the boards.

The three common principles of conduction, convection and radiation all occur in PCB manufacturing processes. The latter two apply directly to surface layers of the board as well as the surface mounted components. The limitations in the heat dissipation depend on the amount of mounted components, their size and their distribution in the PCB. Thus, large heat sources should not be placed in close proximity to sensitive components as they may raise the operating temperature to a critical level; and, when placing several components in a row, natural convection flow can create turbulent wakes and increases heat transfer. The conduction mechanism is mostly affected by the materials, the thickness and the number of layers of the PCB, as well as the characteristics of the surface mounted components.

Computational Fluid Dynamics (CFD) techniques can be used to accurately predict the actual behaviour of the PCB and its components when it moves along the reflow oven. The modelling can extend through all steps of the manufacturing process, from the paste deposition to the meniscus formation during the reflow phase. Models are multi component and multiphase to capture the interface solid-liquid-gas. It is possible to analyse the process variables, eliminating potential thermal aspects that could be responsible to damage the PCB and their components. These tools allow using the simulation process measurements to create a model that can predict the temperature at any point within the domain, analyse the heat dissipation in the PCB and their components over a specific time cycle.

31

Keynote Lectures

August 14, Tuesday 14:00-14:40

Chair: Prof. Steven Armfield Keynote KN21: Room 309A Transition of Thermal Boundary Layers and Its Implication for Heat Transfer Prof. Chengwang Lei Centre for Wind, Waves and Water, School of Civil Engineering, The University of Sydney Sydney, NSW 2006 Australia

This paper describes experimental and numerical investigations of pure natural convection (thermal) boundary layers undergoing natural and controlled transitions. The natural transition takes place naturally under the influence of arbitrary or random perturbations, whereas the controlled transition is triggered by artificial perturbations of particular forms. In this study, two types of controlled transitions including K-type and H-type transitions are investigated. It is found that a frequency and wavenumber filtering process takes place in thermal boundary layers undergoing natural transition, and aligned and staggered ˄-shaped structures appear in thermal boundary layers undergoing the K-type and H-type transitions respectively. The transition depends on both the perturbation frequency and amplitude. The numerical simulation further demonstrates that the transition of thermal boundary layers is controlled by buoyancy effects rather than by Reynolds stresses, and the heat transfer through the heated surface is enhanced significantly as a result of the thermal boundary layer transition.

Chair: Prof. Theo H. van der Meer Keynote KN22: Room 309B Void Fraction Measurements in Gas-Liquid Flow and How to Use Them for Probabilistic Flow Maps for Evaporating Refrigerants Prof. Michel De Paepe Department of Flow, Heat and Combustion Mechanics Ghent University Belgium

In 1998 Thome, Kattan and Favrat proposed for the first time a new heat transfer model based on refrigerant flow patterns. Ten years later, the same team also proposed flow pattern based pressure drop correlations for refrigerant two-phase flow in horizontal tubes. Now, flow pattern based heat transfer and pressure drop correlations are widely accepted. Almost all flow pattern based methods use the void fraction to describe geometrical gas-liquid distribution. To accurately predict heat transfer during evaporation the different flow regimes have to be accurately distinguished. The reasoning being that each flow regime has a different liquid/gas geometrical distribution. The heat transfer in the gas (convection) or in the liquid (convection and pool boiling) has a totally different heat transfer mechanism. Several flow regime maps and correlations exist for defining the different flow regimes. Most of them are based on visual observations with strict discrete separation between flow regimes that are subjectively chosen. We have shown that flow pattern maps can be objectively constructed by using a void fraction probe. After correct calibration this probe can be used to construct a probabilistic flow pattern map. In these maps the transition between different flow regimes is described by the likelihood of a state to be in a flow regime. In this paper, we clearly show that the transition between slug flow and intermittent flow is very sudden in function of vapor quality. On the other hand, the transition from intermittent to annular flow happens over a range of vapor qualities. Based on the insights gained from the two-phase flow characterization, suggestions were made for further improvement of the predictive models.

32

Keynote Lectures

Chair: Prof. David Naylor Keynote KN23: Room 310 The Rate Problem in Solid-Liquid Phase Change Heat Transfer: Efforts and Questions Toward Heat Exchanger Design Rules Prof. Dominic Groulx Mechanical Engineering, Dalhousie University Halifax, Nova Scotia Canada

The use of phase change materials (PCMs) in energetic systems today is in large parts restricted by dynamic issues, or what could be termed the “rate problem”; i.e. how long will it take (heat transfer rate) to store, or recover, a given amount of thermal energy in a latent heat energy storage system (LHESS) for a specific application? There is no theory today that can easily answer that question. Therefore, this keynote paper focus on the work done currently in the PCM heat transfer community to better understand heat transfer within PCM-based thermal storage systems (TES), the study of application specific designs of PCM-TES, and the search for a theory to guide the design of those systems from a heat exchange point of view. To that affect, the study of a large number of different PCM-heat exchanger configurations is required to achieve the important long-term objective of determining heat exchanger design rules. For some decades now, numerous configurations of PCM-heat exchangers have been designed, built and studied; and important results and lessons from these studies will be presented and discussed. Furthermore, through the sum of all those results, the search for a PCM-heat exchanger’s design theory is on-going. This theory could follow traditional ε – NTU or LMTD methods, as some researchers have already tried, or require novel approaches. Fundamental questions are still unanswered: what are the important parameters for such theory? What are and how should the dimensionless numbers needed be defined? What reference temperature needs to be used for the PCM? This paper will ask many more questions and try to provide paths to determine some of the answers.

Chair: Prof. Wei Liu Keynote KN24: Room 311A Thermochemical Energy Storage: From In-Silico Characterization to Full-Scale Experimentation Prof. C.C.M. Rindt Eindhoven University of Technology Eindhoven The Netherlands

Thermochemical heat storage is still at a low TRL-level compared to sensible and latent heat storage. To

improve its technological maturity simultaneous investigation on more than one length scale, ranging from molecular level up to system level, is required. In this work, the results of a multi-scale approach are presented to investigate the potential for thermochemical heat storage. On molecular scale, atomic-scale Density Functional Theory (DFT) calculations are performed, which are upscaled to molecular level via a Reactive Force Field (ReaxFF) approach. The newly developed ReaxFF approach is used for in-silico characterization of the material properties of magnesium and calcium chloride hydrates. On grain scale, the focus is on numerical and experimental analyses of the dehydration reaction kinetics and the accompanying heat and mass transfer processes. Lithium sulfate monohydrate (Li2SO4 ·H2O) is used as model material. Microscope experiments are carried out on the dehydration reaction of encapsulated single crystals of lithium sulfate monohydrate to gain insight into the nucleation process at the surface and the reaction kinetics in the substrate. On material scale, the challenge lies in synthesizing an optimized material showing enough thermal and mechanical stability, sufficiently fast kinetics and mass and heat transfer properties to obtain the required power, and adequately high enough energy density. Calcium chloride salt hydrate has been tested in its pure form, when encapsulated in an inert material and when impregnated in a porous matrix. On reactor scale, a detailed understanding of the transport phenomena for heat and mass transfer is needed. During the (de)hydration process in a cylindrical packed bed reactor, the wall creates radial effects due to heat losses, flow channeling and a non-uniform state of charge. A detailed 2D model for the transport phenomena in a packed bed is developed. The model is validated using experimental data measured in a 1L lab-scale setup and unique experimental results on adsorbed water concentration from MRI experiments. On system scale, an 8L lab-scale thermochemical heat storage system is constructed and optimized for providing hot tap water. Then, a proof-of-principle prototype is successfully built in order to demonstrate the feasibility of thermochemical heat storage for application in the built environment. The prototype consists of four reactor segments of 62.5L each.

33

Keynote Lectures

August 15, Wednesday 8:30-9:10

Chair: Prof. Stephan Kabelac Keynote KN25: Room 309A Influences of Dynamic Wetting and Dewetting Processes on Evaporative Heat Transfer Prof. Peter Stephan Institut für Technische Thermodynamik, Center of Smart Interfaces, Technische Universität Darmstadt Germany

Evaporative heat transfer is an efficient method for cooling applications such as spray or drop impingement cooling, mini- or microchannel flow boiling cooling, or oscillating heat pipes. In all these configurations highly dynamic wetting and dewetting processes occur which strongly interact with the heat transport processes and vice versa. An optimization of the heat transfer efficiencies should be based upon a deep and detailed understanding of these mutual interactions.

Two generic experiments are presented: a drop impingement cooling experiment and a minichannel meniscus evaporation experiment. The design of the heater element is the same in both experiments. It allows a high spatio-temporal resolution of the temperature and heat flux profile at the solid-fluid interface using IR thermography. The dynamic wetting or dewetting process is recorded in parallel using shadowgraphy. In case of the drop impingement experiment, the wetting and dewetting velocities (or Capillary number) result from the drop impingement process itself. In case of the minichannel experiment, however, these velocities can be controlled by a specific liquid-vapor displacement unit. Therefore, the two experiments complement one another and allow deep insights into the mutual interactions of the wetting and heat transfer characteristics. These experimental insights are further complemented by modelling and numerical simulations using OpenFOAM with a modified specific VOF method.

Using these complementary methods, a variety of parameter studies were performed and analyzed: wetting versus dewetting situations at different velocities, wall superheat, system pressure from atmospheric pressure up to near critical pressure, smooth versus nanocoated wall surface, and pure fluids versus binary mixture.

The results show that sensible heat transfer dominates in the wetting regime while evaporative heat transfer dominates in the dewetting regime. Microlayer formation and evaporation can be observed at higher dewetting velocities while so called contact line evaporation can be observed at lower dewetting velocities. The apparent contact angle rises with increasing wall superheat. The characteristic local maximum in heat transfer near the moving contact line diminishes when approaching the critical pressure. The heat transfer efficiency can be increased using a nanocoated heater wall that provokes thin film formation. The heat transfer efficiency decreases with a binary mixture compared to the efficiencies using the pure components.

Chair: Prof. Josua P. Meyer Keynote KN26: Room 309B Improvement of Solar Thermal Plant Efficiency by the Use of Secondary Concentrators Prof. Thirumalachari Sundararajan Indian Institute of Technology Madras Chennai India

A solar collector field based on linear Fresnel reflectors has been set up with support from the Department of Science and Technology, Government of India. Fresnel mirrors coupled with secondary concentrator are employed to focus solar radiation on a coated stainless steel receiver tube of 70mm diameter. The collector system directly generates superheated steam at about 45 bar and 400°C. The receiver tube is covered with borosilicate glass, with the annular space evacuated to reduce heat losses. Theoretical studies have been carried out to optimize the secondary concentrator profile and to assess the heat losses from the solar collector. Compound-parabolic, trapezoidal and segmented- parabolic configurations are considered for the secondary concentrator. It is shown that the segmented parabolic configuration can provide high optical efficiency as well as nearly uniform flux distribution on the receiver tube. Evacuation of the annular space between the absorber tube and the glass cover, significantly reduces heat losses and improves the temperature distribution within the absorber.

34

Keynote Lectures

Chair: Prof. David Christopher Keynote KN27: Room 310 Turbine Blade Cooling at BUAA Prof. Zhi Tao National Key Laboratory of Science and Technology on Aero Engines Aero-thermodynamics Beihang University Beijing China

Gas turbine is one of the most important power source for military plane, aircraft, airplanes, warships, and so on. With the development of gas turbine, the turbine inlet temperature has been increased significantly, which is far beyond the allowable metal temperatures. In order to ensure the operation of turbine blades safely, turbine blade cooling technology must be development. With the increase of turbine inlet temperature, turbine blade cooling technology faces serious challenges. Beihang (BUAA) starts to investigate the turbine blade cooling technology since 1990’s. For turbine blade cooling, it contains internal cooling and film cooling. We investigated the internal cooling from three aspects: pin-fin cooling in trailing edge, ribs cooling in the mid-zone, and impingement cooling in leading edge. We developed three different rotating rigs with advanced measurement technology to carry out the experimental investigations at rotating conditions. For film cooling, we developed a 1.5 stage turbine blade rotating rig to investigate the film cooling at rotating conditions. Now days, we are carrying out an investigation on the boundary layer flow at rotating conditions, hoping to improve the simulation accuracy of flow and heat transfer at rotating conditions. We measured the boundary layer flow using hot-wire, and developed a rotating correction function to replace the standard log law, which has been used hundreds of years. We also measured the thermal boundary flow, and obtained the turbulent Prandtl number (Prt) at rotating conditions. Using these rotating correction functions, the accuracy of the simulation has been improved.

Chair: Prof. Paolo Di Marco Keynote KN28: Room 311A The Design of Mini/Micro Heat Exchangers: A World of Opportunities and Constraints Prof. Gian Luca Morini Alma Mater Studiorum Università di Bologna Bologna Italy

Micro heat exchangers and heat sinks broadened their use in many technological fields during the last two decades. The reduction of the dimensions of the channels allows to obtain ultra-compact heat exchangers characterized by higher surface-to-volume ratio and overall heat transfer coefficients but, in general, with large pressure losses. Many imaginative configurations have been proposed and tested, by changing the geometry of the manifolds, the position of the inlet/outlet ports, the structure of the heat transfer core, the structural materials and others more. Unfortunately, these efforts were not coordinated and a complete overview of the results accumulated up to now is not available. However, some general conclusions can be made by using the published results and the main scope of this paper is to summarize these milestones. Some shared conclusions are the following: (i) the design of micro heat exchangers can be obtained by using the classical methods developed for conventional heat exchangers even if the presence of non- negligible scaling effects (i.e. compressibility effects, conjugate wall-fluid effects, viscous dissipation) must be always verified; (ii) the performances of micro heat exchangers and heat sinks is strongly influenced by the proper distribution of the flow rate within the heat transfer core and a series of different solutions is available in order to solve this problem, as summarized in this paper; (iii) the presence of strong conjugate wall-fluid heat transfer effects can become an opportunity for the use of miniaturized heat exchangers made with inexpensive materials having low thermal conductivity values, especially in presence of counter-current flow and cross-flow configurations.

35

General Sessions

August 11, Saturday 14:00-18:00 Room 309A

Session subject: Boiling and Evaporation-1 (BAE1) Co-Chairs: Wojciech Lipinski & Yongping Chen

Time ID Title, Author, Affiliation

15:00-15:02 23152

In situ temperature measurement of evaporation in micropillar wick structures using micro-Raman spectroscopy Lenan Zhang, Yangying Zhu, Sameer R. Rao, Kevin R. Bagnall, Dion S. Antao, Arny Leroy, Lin Zhao, Bikram Bhatia, Colin C. Kelsall, Evelyn N. Wang* Massachusetts Institute of Technology, USA

15:02-15:04 20805

An experimental investigation of bubble dynamics of time periodic subcooled flow boiling in annular ducts due to wall heat flux oscillation Chin-An Chen, Tsiang-Fa Lin, Wei-Mon Yan*, Mohammad Amani Taipei University of Technology, Chinese Taipei

15:04-15:06 24179

Evaporation of binary mixtures: Pools and droplets Adam G. L. Williams, Pedro J. SÁEnz, George Karapetsas, Khellil Sefiane, Omar K. Matar, Prashant Valluri* The University of Edinburgh, UK

15:06-15:08 23953

Influence of localised heating on thermocapillary convection of pure water drops Alexandros Askounis*, Huacheng Zhang, Dejian Zhang, Yutaku Kita, Gyoko Nagayama, Jungho Kim, Masamichi Kohno, Yasuyuki Takata, Khellil Sefiane Kyushu University, Japan

15:08-15:10 22585

Convective flow inside and close to an evaporating sessile drop Chafea Bouchenna, Mebrouk Ait Saada*, Salah Chikh, Lounès Tadrist University of Sciences and Technology Houari Boumediene, Algeria

15:10-15:12

22227

Heat transfer analysis for cooling process of liquid nitrogen utilizing thin film evaporation Fengmin Su*, Zhongyu Ma, Nannan Zhao, Yangbo Deng, Hongbin Ma Dalian Maritime University, China

15:12-15:14 22043

Role of easy-to-activate nucleation sites in pool boiling Yi Liu, Ming-Chang Lu*, Dongyan Xu* The Chinese University of Hong Kong, Hongkong, China

15:14-15:16 23412

Numerical simulation of film boiling on downward facing horizontal flat and curved surfaces Nikhil Kumar Singh, B. Premachandran* Indian Institute of Technology Delhi, India

15:16-15:18

23566 Evaporation of single water droplet under laser irradiation Pei Zhang, Chuang Sun*, Fengxian Sun, Zicheng Jin Harbin Institute of Technology, China

15:18-15:20 22433

Effect of surface morphology on subcooled flow boiling under the typical condition of internal combustion engines Fei Dong*, Liuwendi Hou, Taotao Cao, Decai Song Jiangsu University, China

15:20-15:22 23832

Aluminum micropost wicks with a circular hyperboloid shape for micro heat spreaders Soosik Bang*, Seunggeol Ryu, Youngsuk Nam KyungHee University, Korea

36

General Sessions

15:22-15:24 22322

An approximate model of incipience of highly intensive film boiling regime in subcooled liquids Victor V. Yagov, Arslan R. Zabirov*, Pavel K. Kanin, Maxim A. Lexin Moscow Power Engineering Institute, National Research University, Russia

15:24-15:26 23962

Contribution of latent heat transfer in pool boiling Takanori Tanaka*, Tomohide Yabuki, Koji Miyazaki Kyushu Institute of Technology, Japan

15:26-15:28 23281

Hydrothermal wave control in a steady state evaporation droplet Xin Zhong, Fei Duan* Nanyang Technological University, Singapore

15:28-15:30 22803

Using planar laser-induced fluorescence to study the phase transformations of water droplets and water-based emulsions and suspensions Roman Volkov, Maxim Piskunov*, Pavel Strizhak National Research Tomsk Polytechnic University, Russia

15:30-15:32 20788

Critical heat flux enhancement for saturated pool boiling on downward-facing structured surfaces Dawen Zhong, Ji'an Meng*, Zhixin Li North China Electric Power University, China

15:32-15:34 22231

Effect of characteristic dimensions of surface structure and particles on the contact line motion of sessile suspended droplet evaporation Yutaka Yamada*, Akihiko Horibe Okayama University, Japan

15:34-15:36 21908

Experimental evaluation of the flow boiling heat transfer coefficient of DI-water inside microchannels under conditions close to the critical heat flux Tiago Moreira, Francisco Nascimento, Gherhardt Ribatski* University of Sao Paulo, Brazil

15:36-15:38 20651

Effect of nano-structure coating on thermal performance of thermosyphon boiling in micro-channels Shuang-Fei Li, Ping-Yang Wang, Zhenhua Liu* Shanghai Jiao Tong University, China

15:38-15:40 22930

Heat transfer and critical heat flux enhancement at boiling and evaporation in the liquid film flows on microstructured surfaces Aleksandr Pavlenko*, Nikolay Pecherkin, Oleg Volodin Volodin, Denis Kuznetsov Siberian Branch of Russian Academy of Sciences, Russia

15:40-15:42

22170 Periodical heat transfer performance of coiled tube type molten salt steam generator Zijian Huang, Jing Ding, Jianfeng Lu* Sun Yat-Sen University, China

15:42-15:44 20902

Rising film evaporation: Fluid dynamics and heat transfer performance of a pilot plant Stefan Jahnke, Tim Rittmeier, Stephan Scholl* Technical University of Braunschweig, Germany

15:44-15:46 21891

Experimental investigation on cryogenic quenching characteristics of rock in liquid nitrogen and the enhancing effects of surface structuring Ran Li, Chengcheng Zhang, Zhongwei Huang* China University of Petroleum-Beijing, China

15:46-15:48 21801

Heat transfer intensification by surface structuration in spray cooling Nadia Caney*, Wahid Cherief, Maria Cristina Riofrio, Jean Antoine Gruss, Francesc Madrid-Lozano University Grenoble Alpes, France

37

General Sessions

15:48-15:50 22198

Achieve ultrafast and sustainable nucleate boiling during HFE-7100 flow boiling in parallel microchannels interconnected by micro-slots Jiaxuan Ma, Wenming Li, Chen Li* University of South Carolina, USA

15:50-15:52 22172

Numerical simulation of bubble growth in a rectangular microchannel Le Lei, Kong Ling, Wen-Quan Tao* Xi’an Jiaotong University, China

15:52-15:54 22684

Control of pool boiling hydrodynamics through surface wettability patterning Taylor P. Allred, Justin Weibel, Suresh V. Garimella* Purdue University, USA

15:54-15:56 24127

Acoustic analysis on the dynamic motion of vapor-liquid interface in boiling crisis during the quenching process Seok Bin Seo, In Cheol Bang* Ulsan National Institute of Science and Technology, Korea

15:56-15:58 22252

On the process of bubble growing and departure on Hydrophilic, Superhydrophobic and Biphilic surfaces Pedro Pontes, Emanuele Teodori, Ana Moita*, Antonio Moreira University of Lisbon, Portugal

38

General Sessions

August 11, Saturday 14:00-18:00 Room 309B

Session subject: Nano and Microscale Transport-1 (NMT1) Co-Chairs: Angela Ourivio Nieckele & Peng Zhang

Time ID Title, Author, Affiliation

15:00-15:02 23288

A novel improved layered effective medium approximation for ellipsometric parameters of microrough surfaces Jun Qiu*, Yuanbin Liu, Linhua Liu* Harbin Institute of Technology, China

15:02-15:04 24211

A three-dimensional analysis of localized transport phenomena in SOFC anode Tomasz Prokop, Katarzyna Berent, Hiroshi Iwai, Janusz Szmyd, Grzegorz Brus* AGH University of Science and Technology, Poland

15:04-15:06 22397

Adjustable thermal resistor by reversibly folding a graphene sheet Meng An*, Qichen Song, Xiandong Chen, Zhan Peng, Jianfeng Zang, Nuo Yang Huazhong University of Science and Technology, China

15:06-15:08 22886

Capillary-driven flow in open converging microchannels Yuki Itahana, Shunya Gyotoku, Takaharu Tsuruta, Gyoko Nagayama* Kyushu Institute of Technology, Japan

15:08-15:10 22090

Comparison of different machine learning methods for the prediction of thermal conductivities of composite materials Hua Bao*, Shuaishuai Zhao Shanghai Jiao Tong University, China

15:10-15:12

23033 High performance multi-insulator carbon nanotube tunnel diode arrays Erik C. Anderson*, Thomas L. Bougher, Baratunde A. Cola Georgia Institute of Technology, USA

15:12-15:14 22237

Coupling effects of nanostructures on the photovoltaic device performances in multi-physics Yi-Peng Zhou, Ya-Ling He*, Du Shen Xi'an Jiaotong University, China

15:14-15:16 23031

Detection of liquid-vapour interface in molecular dynamics simulation Qiang Sheng, Jie Sun*, Xinyu You, Wen Wang, Huasheng Wang* Queen Mary University of London, UK

15:16-15:18

22725

Enhancement of thermal conductivity of polyvinyl alcohol membrane using nano-fiber Xiandong Chen, Shichen Deng*, Rulei Guo, Ni Tang, Zhan Peng, Hao Feng, Xiaobo Li, Jianfeng Zang, Nuo Yang Huazhong University of Science and Technology, China

15:18-15:20 22030

Heat transfer performance evaluation of corrugated microchannel heat sinks Ganbat Davaa*, Odgerel Jambal National Institute of Technology, Yuge College, Japan

15:20-15:22 24162

Thermal conductivity modulation in Zr(Hf)SiS material system by substitutional atoms Lei Li*, Jiahui Pan, Xue-Jun Yan, Yang-Yang Lv, Chen Di, Shu-Hua Yao, Yan-Bin Chen, Jian Zhou, Hong Lu, Yan-Feng Chen, Ming-Hui Lu Nanjing University, China

15:22-15:24 23447

Molecular dynamics simulation of the structure effect on interfacial thermal resistance between graphene and silicon Aoran Fan, Weigang Ma, Xing Zhang* Tsinghua University, China

39

General Sessions

15:24-15:26 22210

Influence of surface wettability and nanostructure on the generation of interfacial nanobubbles Hideaki Teshima*, Takashi Nishiyama, Yasuyuki Takata, Koji Takahashi Kyushu university, Japan

15:26-15:28 23080

Inhomogeneous thermal effect on ion transport in charged nanochannel Yuankai Yang, Moran Wang* Tsinghua University, China

15:28-15:30 23204

Thermal characterization, phonon spectral mapping, and control of the heat transfer in 2D Van Der Waals materials Joon Sang Kang, Ming Ke, Man Li, Huan Wu, Nicolas Rongione, Huuduy Nguyen, Julia Diaz, Albert Rieck, Yongjie Hu* University of California, Los Angeles (UCLA), USA

15:30-15:32 23710

Lattice Boltzmann modeling for slip flow and heat transfer of gaseous fluid in confined porous media Zhenyu Liu, Zhiyu Mu, Huiying Wu* Shanghai Jiao Tong University, China

15:32-15:34 23055

Thermal transport behaviors in lead halide perovskites Wee-Liat Ong*, Giselle Elbaz, Evan A. Doud, Philip Kim, Daniel Paley, Xavier Roy, Jonathan A. Malen Zhejiang University/University of Illinois at Urbana-Champaign Institute, China

15:34-15:36 23417

Method of the rupture film thickness measurement between approaching bubbles during coalescence process in water and ethanol pools Takayuki Morokuma*, Takashi Ohara, Hiroaki Matsumoto, Yoshio Utaka Yokohama National University, Japan

15:36-15:38 23960

Molecular dynamics study of thermal rectification based on domino effect Xiaoliang Zhang*, Ronghui He, Liang Han, Zixiong Rao, Cun Zhang, Kunpeng Yuan, Chengzhi Hu, Dawei Tang*, Ming Hu* Dalian University of Technology, China

15:38-15:40 23792

Molecular dynamics study on effects of structure on nucleation of water droplets Kenshiro Matsui*, Kunio Fujiwara, Yoshitaka Ueki, Masahiko Shibahara Osaka University, Japan

15:40-15:42 23083

Nanoscale view of the evaporating contact line profile of a sessile water droplet on silicon surface Abbasali Abouei Mehrizi*, Qiao Liu, Hao Wang Peking University, China

15:42-15:44 23703

Necking effects control thermal conductivity of phononic membranes Roman Anufriev*, Aymeric Ramiere, Jeremie Maire, Masahiro Nomura The University of Tokyo, Japan

15:44-15:46 22486

Thermal rectification in nanoscale confined fluids with nanopatterned surfaces Fan Li, Guodong Xia, Jun Wang* Beijing University of Technology, China

15:46-15:48 22623

Numerical study of conjugate heat transfer in evaporating thin liquid film of a sessile binary droplet on heated substrates Qiaobian Xu, Leping Zhou* North China Electric Power University, China

15:48-15:50 23336

A molecular dynamics study on thermophysical and transport properties of fluorinated alkane liquids Gota Kikugawa*, Naoki Minami, Yingping Fang, Mitsuru Nemoto, Hiroki Matsubara, Taku Ohara Tohoku University, Japan

40

General Sessions

15:50-15:52 22907

Explosive evaporization of water and propanol on flat and nanostructured microheaters Igor A. Kozulin*, Vladimir Kuznetsov Siberian Branch of Russian Academy of Sciences, Russia

15:52-15:54 24428

High thermal conductivity thin film for heat spreading enhancement in microelectronic measured using short pulsed photothermal technique Mohammad Rammal*, Bertrand Garnier, Puvikkarasan Jayapragasam, Christophe Rodiet, Boubakeur Belkerk, Julien Camus, Abdou Djouadi The National Center for Scientific Research, France

15:54-15:56 23362

Physiologically-based pharmacokinetic modeling of different size polyethylene glycol-coated gold nanoparticles in mice Linjing Deng, Jinping Zhao, Yufeng Miao, Xu Hu, Qihong Deng* Central South University, China

15:56-15:58

22118 Effective thermal rectification in suspended monolayer graphene Haidong Wang, Xing Zhang*, Hiroshi Takamatsu*, Koji Takahashi Kyushu University, Japan

41

General Sessions

August 11, Saturday 14:00-18:00 Room 310

Session subject: Computational Methods and Simulations-1 (CMS1) Co-Chairs: Jean-Claude Krapez & Xiaobin Luo

Time ID Title, Author, Affiliation

15:00-15:02 21773

Concentration profiles of high pressure nozzle under expanded jet flows impinging a vertical plate Jinghu Hu, David Christopher* Tsinghua University, China

15:02-15:04

23036

A numerical study of drying and preheating of food in a rotary dryer with superheated steam and air as the drying media Atinder Singh, Partha Ghoshdastidar* Indian Institute of Technology Kanpur, India

15:04-15:06 23341

CFD simulations of exhaust reforming characteristics in catalytic packed bed reactors for a natural-gas engine Zunhua Zhang, Pengpeng Jia, Shangsheng Feng, Junjie Liang, Gesheng Li* Wuhan University of Technology, China

15:06-15:08 21262

A parallel non-dimensional lattice Boltzmann simulation on double diffusion and convection from porous structure walls Yan Su*, Tiniao Ng University of Macau, Macau, China

15:08-15:10 23501

Heat transfer modeling of CO2 in the wellbore and aquifer during geological sequestration Qian Zhang, Yi Zhang, Shezhan Liu, Yuan Chi, Changzhong Zhao, Shuyang Liu, Yongchen Song* Dalian University of Technology, China

15:10-15:12 23925

Advanced lumped parameter model for switched reluctance motors with high performance cooling Jasper Nonneman*, Nils Clarie, Ilya T'jollyn, Stephan Schlimpert, Peter Sergeant, Michel De Paepe University of Ghent, Belgium

15:12-15:14 23170

An experimental study on single-phase wilson heat transfer of three-dimensional enhanced tubes Shang-Qing Liu, Yan He*, Jing-Xiang Chen, Rui-Heng Guo, Tariq Amin Khan, Wei Li Qingdao University of Science and Technology, China

15:14-15:16 23705

Thermal-flow characteristics of ferrofluid in the microchannel under external magtetic force Jaehee Kim*, Youn-Jea Kim Sungkyunkwan University, Korea

15:16-15:18 23324

Direct numerical simulation of convective heat transfer in a vertical pipe for supercritical pressure CO2 Junjie Yan, Wei Wang, Peixue Jiang*, Shuisheng He* Tsinghua University, China, University of Sheffield, UK

15:18-15:20 23612

Some aspects of presumed filtered density functions formulation in the context of large eddy simulation of turbulent reacting flows Viacheslav Stetsyuk*, Krzysztof Kubiak, Lande Liu, John Chai University of Huddersfield, UK

42

General Sessions

15:20-15:22 22348

Further development of 3D/1D patched transient heat transfer model Hong Wang*, Entian Li, Yanchen Su, Jingjun Zhong Dalian Maritime University, China

15:22-15:24 22962

Improvements of velocity-correction formulas for simple algorithm Hui Xiao, Junbo Wang, Zhichun Liu, Wei Liu* Huazhong University of Science and Technology, China

15:24-15:26 24583

Integral transforms for transient three-dimensional heat conduction in heterogeneous media with multiple geometries and materials Anderson P. Almeida, Carolina P. Naveira-Cotta, Renato M. Cotta* Federal University of Rio De Janeiro, Brazil

15:26-15:28 23231

Lattice Boltzmann simulation of hydrodynamic entrance region of rectangular microchannel in slip regime Niya Ma, Zhipeng Duan*, Hao Ma, Liangbin Su, Peng Liang, Xiaoru Ning, Xin Zhang Beijing Jiaotong University, China

15:28-15:30 23919

Numerical computation of coupled radiation-conduction heat transfer using spectral method Qi Chen*, Xiaolong Yu, Xinchun Tang, Chun Li Shenzhen Aerospace Dongfanghong Hit Satellite Ltd, CASC, China

15:30-15:32 23896

Multi-physics FEM model of solar hybrid roads for energy harvesting performance evaluation in presence of semi-transparent or opaque pavement surface layer Nicolas Le Touz*, Jean Dumoulin, Jean-Michel Piau French Institute of Science and Technology for Transport, Development and Networks, France

15:32-15:34

23389

Numerical analysis of effective damage radius for large tumor microwave hyperthermia Jing Li*, Huan Yao, Yan Lei, Yanyong Ye South China University of Technology, China

15:34-15:36 24036

Numerical modeling of vortex shedding in finned tube bundles in cross flow Karl Lindqvist*, Erling Naess Norwegian University of Science and Technology, Norway

15:36-15:38 23912

Study of urban air pollution in street canyons using lattice Boltzmann method with atmospheric boundary layer models Yongliang Feng*, Jérome Jacob, Pierre Sagaut Aix-Marseille University, France

15:38-15:40 24219

Phase prediction and control method of supercritical carbon dioxide fluid in fracturing oil wellbore Jiaqiang Zuo, Shichao Chen, Zhang Bai*, Liang Gong, Deyong Zou, Zenglin Wang China University of Petroleum (East China), China

15:40-15:42 21386

Numerical study on supercritical CO2 in a printed circuit heat exchanger with asymmetrical fins Wen-xiao Chu, Katrine Bennett, Yi-Tung Chen*, Qiu-Wang Wang University of Nevada, USA

15:42-15:44 22464

A coupled lattice Boltzmann-finite difference approach for boiling two-phase flow with high density ratios Shimpei Saito*, Yutaka Abe, Ken-Ichi Ebihara, Alessandro De Rosis, Akiko Kaneko, Kazuya Koyama University of Tsukuba, Japan

15:44-15:46 23858

A numerical study on the melting and heat transfer characteristics of the urea-water solution with electric heating module D. K. Lee, M. Y. Kim*, K. C. Oh The National University of Chonbuk, Korea

43

General Sessions

15:46-15:48 24443

Molecular dynamics simulation of the salinity effect on the water/oil interface for enhanced oil recovery Jin Zhao, Srinivasa Ramissetti, Robert B. Hammond, Dongsheng Wen* University of Leeds, UK

15:48-15:50 22883

Laminar-turbulent transition in supersonic flow over a flat plate Ivan Egorov*, A.V. Fedorov, K.H. Ding Russian Academy of Sciences, Russia

15:50-15:52 23782

Modeling of epitaxial silicon growth in a planetary CVD reactor Zaher Ramadan, Ik-Tae Im* Chonbuk National University, Korea

15:52-15:54 22630

Numerical study of flat tube bank fin heat exchanger by POD projection method Ye Wang*, Xintong Xia, Yi Wang, Wenting Hu, Liangbi Wang* Lanzhou Jiaotong University, China

15:54-15:56 23294

Numerical assessment of interfacial heat transfer coefficients in a Mg squeeze casting with various section thicknesses by polynomial extrapolation Luyang Ren, Zhizhong Sun, Henry Hu* University of Windsor, Canada

44

General Sessions

August 11, Saturday 14:00-18:00 Room 311A

Session subject: Heat Transfer Enhancement-1 (HTE1) Co-Chairs: Tatiana Gambaryan-Roisman & Bin Chen

Time ID Title, Author, Affiliation

15:00-15:02 23247

Methods to design optimum heat sink geometries Reijo Karvinen*, Kaj Lampio Tampere University of Technology, Finland

15:02-15:04 22700

Adjoint-based shape optimization for turbulent convective heat transfer with a hybrid RANS-DNS approach Yukinori Kametani*, Yosuke Hasegawa University of Tokyo, Japan

15:04-15:06 23824

Influence of surface wettability on heat transfer and pressure drop characteristics of wet air in metal foam under dehumidifying conditions Haitao Hu*, Zhancheng Lai, Guoliang Ding Shanghai Jiao Tong University, China

15:06-15:08 24252

Comparison of evaporation characteristics in horizontal three dimensional enhanced tubes Xiang Ma, Weiyu Tang, Yan He, Wei Li*, S.A. Sherif* University of Florida, USA

15:08-15:10 21937

Conjugate heat and mass transfer in a quasi-counter flow parallel-plate membrane channel (QCPMC) Wen-Kai Zhang, Si-Min Huang*, Minlin Yang, Xiaoxi Yang Dongguan University of Technology, China

15:10-15:12 22711

Condensation heat transfer and pressure drop characteristics of low GWP refrigerants in plate heat exchanger Oh Jin Kwon, Jae Hoon Jung, Yong Tae Kang* Korea University, Korea

15:12-15:14 22642

Approximation assisted optimization of pillow plate heat exchangers Radia Eldeeb, Jiazhen Ling, Vikrant Aute*, Reinhard Radermacher University of Maryland, USA

15:14-15:16 22616

Development and experimental analysis on the performance of composite consolidated silica gel fabricated by freeze-drying method Lin Liu, Hong-Yu Huang*, Zhao-Hong He*, Shi-Jie Li, Jun Li, Jie-Chao Chen, Li-Sheng Deng, Yugo Osaka, Noriyuki Kobayashi Guangzhou Institute of Energy Conversion, China

15:16-15:18 22151

Experimental investigation of heat transfer enhancement on the endwall around an obstacle embedded with a vortex generator pair Safeer Hussain, Jian Liu, Lei Wang, Bengt Sundén* Lund University, Sweden

15:18-15:20 24304

Interaction of longitudinal vortices with co-rotating or counter-rotating directions and the effects on fluid flow and heat transfer Kewei Song*, Zhonghao Chen, Chen Gao, Qiang Zhang, Liangbi Wang, Shuai Wu Lanzhou Jiaotong University, China

45

General Sessions

15:20-15:22 22580

Experimental investigation of the heat transfer in the separation region behind the back-facing step with placed tabs Aleksey Dyachenco, Yaroslav Smulsky*, Viktor I. Terekhov, Valery Zhdanov Kutateladze Institute of Thermophysics, Siberian Branch of the Russian Academy of Sciences, Russia

15:22-15:24 23775

Experimental study on aqueous lithium bromide hozizontal motion on smooth copper and enhanced copper tube bundles in the absorber Yueting Yang, Xiaoyun Xie*, Yi Jiang Tsinghua University, China

15:24-15:26 24221

Computational modeling of low Reynolds number air flows in wavy-plate-fin channels: Contribution of pressure drag on performance Dantong Shi, Milind A. Jog, Raj M. Manglik* University of Cincinnati, USA

15:26-15:28

23355 Heat transfer in grille-sphere composite packed bed: Rical parametric study Jingyu Wang, Pei Qian, Jian Yang, Qiuwang Wang* Xi'an Jiaotong University, China

15:28-15:30 24215

Melting front evolution of paraffin wax inside metal foams at different acceleration levels Alessandro Viglione, Federico Celi, Mauro Mameli*, Paolo Di Marco, Sauro Filippeschi University of Pisa, Italy

15:30-15:32 23384

Modeling of jumping-droplet condensation with dynamic droplet growth Zhenyuan Xu*, Lenan Zhang, Kyle Wilke, Evelyn Wang Shanghai Jiao Tong University, China

15:32-15:34

23711

Numerical studies on the coupled heat transfer characteristics of supercritical pressure CO2 under cooling condition Haiyan Zhang, Jiangfeng Guo*, Mengru Xiang, Keyong Cheng, Xiulan Huai, Xinying Cui Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

15:34-15:36 23287

Experimental investigation on reversible characteristics of heat transfer and fluid flow using wavelength-dependent photoresponse of aqueous surfactant solution Reiko Kuriyama*, Takanori Ishii, Shojiro Isono, Kazuya Tatsumi, Kazuyoshi Nakabe Kyoto University, Japan

15:36-15:38 23479

Numerical study on heat transfer enhencement and flow structure in a tube with central slant deflector Jinyi Lv, Peng Liu, Zhichun Liu, Wei Liu* Huazhong University of Science and Technology, China

15:38-15:40 22031

Parametric study and optimization of a circular tube fitted with twisted winglet vortex generator inserts using Taguchi method Zhimin Lin*, Yong-He Wu, Liang-Bi Wang, Yong-Heng Zhang, Xiang Wu Lanzhou Jiaotong University, China

15:40-15:42 23317

Rectangular permeable ribs in turbulent boundary layer V. N. Afanasiev, Dehai Kong* Bauman Moscow State Technical University, Russia

15:42-15:44 23014

Study on flow and heat transfer mechanism of corrugated plate heat exchanger Huaizhi Han*, Qian Wang, Bingxi Li Harbin Engineering Univeristy, China

15:44-15:46 22355

Pore-scale numerical simulation of melting process of PCMs in foam metals Gaosheng Wei*, Gang Wang, Yanping Yang, Chao Xu, Xiaoze Du North China Electric Power University, China

46

General Sessions

15:46-15:48 23145

Experimental investigation of the thermal performance of matrix plate fin heat sink with multiple phase change materials Amritha Elangovan*, Srikanth Rangarajan, Balaji Chakravarthy* Indian Institute of Technology Madras, India

15:48-15:50 24301

Optimal design of multistream plate fin heat exchangers used in cooling stage of a cascade LNG plant Ali Allahyarzadeh-Bidgoli*, Daniel Jonas Dezan, Jurandir Itizo Yanagihara University of Sao Paulo, Brazil

47

General Sessions

August 11, Saturday 15:00-18:00 Room 311B

Session subject: Conduction and Inverse Problems (CIP) Co-Chairs: Timothy S. Fisher & Yanhui Feng

Time ID Title, Author, Affiliation

15:00-15:02 21874

Experimental investigation of the oxidational influence on the thermal contact resistance at the blade-rotor-connection in a steam turbine Dennis Toebben*, Helen Schulte, Piotr Luczynski, Manfred Wirsum, Wolfgang Mohr, Frank Udo Leidich, Klaus Helbig Rwth Aachen University, Germany

15:02-15:04 22255

An asymptotic local solution for axisymmetric heat conduction problems with temperature discontinuity in boundary Liang Zhang*, Liwu Fan, Zitao Yu, Renwei Mei Zhejiang University, China

15:04-15:06 23723

Crosslinking effect on thermal conductivity of electrospun poly (acrylic acid) nanofibers Yeongcheol Park, Sumin Ha, Yoong Ahm Kim, Sangwon Kim, Jae Hun Seol* Gwangju Institute of Science and Technology, Korea

15:06-15:08 22691

Numerical investigation on thermal diffusivity prediction based on analytical solution of transient heat conduction Ruifeng Dou*, Cheng Zhu, Rongzhang Zhang, Xunliang Liu, Zhi Wen University of Science and Technology Beijing, China

15:08-15:10 25159

Topologically optimum configurations for anisotropic conductivity A. F. Emery* University of Washington, USA

15:10-15:12 22989

Influence of main components on solidification behaviors of blast furnace slag droplet in variable cooling conditions Bin Ding, Hong Wang*, Xun Zhu*, Xian-Yan He, Yu Tan, Qiang Liao Chongqing University, China

15:12-15:14 22659

MCMC and approximation error model for the simultaneous estimation of heat flux and heat transfer coefficient using heat transfer experiments Gnanasekaran N*, Harsha Kumar, Chakravarthy Balaji National Institute of Technology Karnataka, India

15:14-15:16 22994

Characterizing the irreversibility of heat conduction process by entransy and its dissipation rate as Lyapunov functions Yu-Chao Hua, Zeng-Yuan Guo* Tsinghua University, China

15:16-15:18 24001

Modelling and experimental investigation of the shape change of a sessile water droplet during freezing Xin Liu, Xuan Zhang, Jingchun Min* Tsinghua University, China

15:18-15:20 23645

Numerical investigation on the influence of interstitial fluids on thermal contact conductance Yona Frekers*, Reinhold Kneer Rwth Aachen University, Germany

15:20-15:22 23124

Inversion of the inner wall temperature of the two-dimensional pipe based on conjugate gradient method Ping Xiong, Tao Lu* Beijing University of Chemical Technology, China

48

General Sessions

15:22-15:24 24117

Aerothermal analysis of the atmospheric reentry of the intermediate experimental vehicle (IXV) Loïc Van Ghele*, Philippe Reulet, Jean-Luc Verant, Pierre Millan, Jean-Luc Battaglia National Office of Aerospace Studies and Research, France

15:24-15:26 23543

Preparation and performance evaluation of natural rubber composites with AlN and aligned carbon nanotubes Yuanzheng Tang, Yan He*, Jin Xu, Guoqing Liu, Juan Xue Qingdao University of Science and Technology, China

15:26-15:28 23443

A backup system of a spacecraft orientation based on temperature measurements at the design elements of various orientations Aleksey Nenarokomov*, Irina V. Krainova, Evgeny Chebakov, Dmitry L. Reviznikov, Leonid A. Dombrovsky Moscow Aviation Institute, Russia

15:28-15:30

23128 An inverse problem method for thermal cloak design with adaptive heat source Jun Guo, Zhiguo Qu*, Xiuhai Zhang Xi’an Jiaotong University, China

15:30-15:32 22009

An analytical extenstion of the reciprocity functional approach to estimate thermal contact conductances between different materials using transient measurements Inoussa Tougri, Ricardo Padilha, Marcelo Colaco* Federal University of Rio De Janeiro/Coppe, Brazil

15:32-15:34 23681

Inverse design of thermal meta-device Shuling Zhou, Liliang Zhou, Yupu Ma, Ruikang Wu, Run Hu*, Xiaobing Luo Huazhong University of Science and Technology, China

15:34-15:36

21812

An improved space marching method incorporating future temperatures in least square manner for linear and nonlinear IHCP Ran Li, Zhongwei Huang* China University of Petroleum-Beijing, China

15:36-15:38 23828

Coupled effects of convection and conduction on heat transfer in solid-liquid two-phase media densely laden with finite-sized particles Jingchen Gu*, Shintaro Takeuchi, Takeo Kajishima Osaka University, Japan

15:38-15:40 23680

Thermal transport across a transition metal oxide-insulator interface Yijun Ge, Man Li, Zhen Zhang, Joon Sang Kang, Yongjie Hu, Shriram Ramanathan, Timothy Fisher* University of California, Los Angeles, USA

15:40-15:42 22121

Thermal transport simulations at carbon nanotube interface junctions by molecular dynamics Siyi Xiang, Wen Chen, Yuxin Fang, Yanan Yue* Wuhan University, China

15:42-15:44 23445

Thermal conductivity improvement of lunar regolith simulant Chao Wang, Xiaochen Lu, Rong Ma, Wei Yao* China Academy of Space Technology, China

15:44-15:46 23159

Tuning the thermal conductance of polymer and sapphire interface Kun Zheng, Jiaxin Lu, Yafang Zhuang, Fangyuan Sun, Jie Zhu*, Yongmei Ma*, Dawei Tang Dalian University of Technology, Institute of Chemistry,Chinese Academy of Science, China

15:46-15:48

23044

Revealing the anisotropic thermal conductivity using time-resolved magneto-optical kerr effect Jie Zhu, Dustin Lattery, Junyang Chen, Delin Zhang, Xiaokun Gu, Haechan Park, Dawei Tang, Mo Li, Xu Du, Ronggui Yang, Jian-Ping Wang, Xiaojia Wang* University of Minnesota, USA

49

General Sessions

15:48-15:50

22572

Measurement of intrinsic thermal conductivity of DLC and thermal boundary resistance by wide frequency 3ω method Jia Li, Zhaoliang Wang*, Mingman Sun China University of Petroleum(East China), China

15:50-15:52 23345

Local meshless finite difference method for coupled radiative and conductive heat transfer Jie Sun, YanHua Cheng, RuiKang Wu, Bin Xie, XingJian Yu, BoFeng Shang, Xiaobing Luo* Huazhong University of Science and Technology, China

15:52-15:54 23810

Experimental study of the in-plane thermal conductivity enhancement of suspended glass thin films due to long range surface phonon-polaritons Laurent Tranchant*, Satoki Hamamura, Jose Ordonez-Miranda, Sebastian Volz, Koji Miyazaki Kyushu Institute of Technology, Japan

15:54-15:56 22524

Anisotropic thermal conductivity in two-dimensional materials and van der Waals heterostructures Kyunghoon Kim, Jixiong He, Banu Ganeshan, Jun Liu* North Carolina State University, USA

50

General Sessions

August 12, Sunday 8:30-12:20 Room 309A

Session subject: Convection-1 (COV1) Co-Chairs: Alexander Oron & Xiaoze Du

Time ID Title, Author, Affiliation

9:20-9:22 22953

Direct numerical simulation of the long-term behaviour of weak fountains in a homogeneous fluid Liqiang Dong*, Wenxian Lin, Steven Armfield, Michael Kirkpatrick, Nicholas Williamson, Dan Zhao James Cook University, Australia

9:22-9:24 23495

Experimental study on heat transport in turbulent Rayleigh-Bénard convection with viscoelastic fluids Tongzhou Wei, Weihua Cai*, Fengchen Li Harbin Institute of Technology, China

9:24-9:26 23562

Numerical study of heat transfer in viscoelastic flow through a straight duct with a square and rectangular cross-section Fouad Hagani*, Ronnie Knikker, Mhamed Boutaous, Shihe Xin National Institute of Applied Sciences of Lyon, France

9:26-9:28 22864

Effects of turbulent wake flow formed behind a square cylinder on mass diffusion process in a turbulent boundary layer Tomoya Houra*, Takuya Watanabe, Fumiya Suzuki, Masato Tagawa Nagoya Institute of Technology, Japan

9:28-9:30 23017

Analysis of natural convection of water via heatline approach in various enclosures involving unit area and identical heat input Leo Lukose*, Tanmay Basak Indian Institute of Technology Madras, India

9:30-9:32 22567

Experimental investigation of supercritical pressure CO2 flow and heat transfer instability in vertical tube Zhenchuan Wang, Ruina Xu, Peixue Jiang* Tsinghua Univeristy, China

9:32-9:34 23022 Relationship between pressure drop and heat transfer in smooth horizontal tubes Marilize Everts, Josua Petrus Meyer* University of Pretoria, South Africa

9:34-9:36 23243

Numerical study of thermal performance for large-scale wet cooling tower equipped with a fan driven by water dropping potential energy Zhigang Dang, Chaoqun Ma, Yang Zhou, Ming Gao* Shandong University, China

9:36-9:38 24129

Analysis of natural convection of water around a small magnetic sphere under induction heating Yuki Arakawa, Keisuke Nishijima, Van Cuong Han, Katsuya Kondo, Naoto Kakuta* Tokyo Metropolitan University, Japan

9:38-9:40 22295 Viscous dissipation influence on nanoscale liquid metal flows Z. H. Wang*, L.Y. Zhang University of Chinese Academy of Sciences, China

9:40-9:42 21349

A new approach to the formulation and solution of multi-temperature convection problems Sepehr Foroushani*, David Naylor, John Wright University of Waterloo, Canada

51

General Sessions

9:42-9:44 24276 Natural convection in a V-shaped cavity Sidhartha Bhowmick, Feng Xu*, Suvash C. Saha Beijing Jiaotong University, China

9:44-9:46 21341

Similarities between heat and mass transfer enhancement in convective flow, using variational optimization technique Jean-Marc Avellaneda*, Shnegkun Jia, Pierre Neveu, Françoise Bataille, Xigang Yuan, Gilles Flamant French National Centre for Scientific Research, France

9:46-9:48 22834

On the proper interpretation of nanofluid convective heat transfer Matthias H. Buschmann*, Reza Azizian, Tobias Kempe, Enrique Julia, Raul Martínez-Cuenca, Bengt Sunden, Zan Wu, Ari Seppälä, Ala-Nissilä Tapio Institute of Air Handling and Refrigeration (ILK), Germany

9:48-9:50 22933

Lattice Boltzmann simulation of double diffusive natural convection of an eccentric annulus filled with Carreau-Yasuda fluids Gholamreza Kefayati*, Hui Tang The Hong Kong Polytechnic University, Hong Kong, China

9:50-9:52 24128

Applicability of the second moment closure models for turbulent heat flux of the turbulent natural convection in a confined cavity Seokwon Whang, Hyun Sun Park*, Moo Hwan Kim Pohang University of Science and Technology, Korea

9:52-9:54 21556

Transient convection heat transfer for helium gas under exponentially decreasing flow condition Qiusheng Liu*, Makoto Shibahara, Katsuya Fukuda Kobe University, Japan

9:54-9:56 23918 Heat transfer of an ionic wind cooling system with wire-to-wire group electrodes Lu Liang, Changhong Wang*, Qingming Liu Guangdong University of Technology, China

9:56-9:58 22661

Effects of numerical disturbances on natural convection heat transfer from an upward-facing horizontal heated plate Akihiko Mitsuishi*, Takashi Suzuki, Kenzo Kitamura Toyohashi University of Technology, Japan

9:58-10:00 22301 Turbulent forced convection in porous media: A direct numerical simulation study Stefan Gasow, Andrey V. Kuznetsov, Michael Schlüter, Yan Jin* University of Bremen, Germany

10:00-10:02

23530 Thermal hydraulic characteristic of a triangular cross corrugated plate Asal Sharif*, Michel De Paepe Ghent University, Belgium

10:02-10:04 22139

Modelling of convection heat transfer in ducts in 1D systems codes Charl G. du Toit*, Herman J. van Antwerpen North-West University, South Africa

10:04-10:06 22605

Experimental investigation on convective heat transfer of supercritical pressure hydrocarbon fuel in a rotating centrifugal channel Zelong Lu, Yuxuan Guo, Yinhai Zhu, Peixue Jiang* Tsinghua University, China

10:06-10:08

23888

Laminar free convection between two vertical parallel plates with different rib lengths and positions Viktor Terekhov, Ali Ekaid, Khalil Yassin* Novosibirsk State Technical University, Russia

10:08-10:10 23407

Acoustically and thermo-acoustically driven thermal transport in gases: New advances Bakhtier Farouk* Drexel University, USA

52

General Sessions

10:10-10:12 24154

Numerical optimisation of forced convection of wall thickness of heated plates cooled using alumina-water nanofluid Timothy Aduralere, Olabode Olakoyejo*, Olayinka Adewumi, Adekunle Adelaja, Sirajudeen Obayopo, Josua Meyer University of Lagos, Nigeria

10:12-10:14 21359

Prediction and correction of sidewall conductance for natural convection in horizontal enclosures Umesh Madanan*, Richard J. Goldstein University of Minnesota Twin Cities, USA

53

General Sessions

August 12, Sunday 8:30-12:20 Room 309B

Session subject: Condensation-1 (COD1) Co-Chairs: Giuseppe Zummo & Li Jia

Time ID Title, Author, Affiliation

9:20-9:22 23476 A computational model for condensation heat transfer analysis at biphilic interface Yuhe Shang, Youmin Hou, Shuhuai Yao* Hong Kong University of Science and Technology, HongKong, China

9:22-9:24 21787

Roughness-variation induced biphilic surfaces for condensation heat transfer enhancement Xiao Yan*, Feng Chen*, Hang Li, Soumyadip Sett, Longnan Li, Zhiyong Huang, Hanliang Bo, Nenad Miljkovic* Tsinghua University, China

9:24-9:26 22052

Single droplet growth model for dropwise condensation considering non-condensable gas Shaofei Zheng*, Ferdinand Eimann, Christian Philipp, Ulrich Gross Technology University Bergakademie Freiberg, Germany

9:26-9:28 23687

An experimental investigation of steam condensation on outer surface of horizontal tubes with diameters greater than capillary length Jinjing Li, Xiaojun Quan*, Shenxukai Chen Shanghai Jiaotong University, China

9:28-9:30 24208 Experiments of dropwise condensation on wettability controlled surfaces Riccardo Parin, Stefano Bortolin, Alessandro Martucci, Davide Del Col* University of Padova, Italy

9:30-9:32 23742 Enhanced dropwise condensation via droplet removal into opposing wicked evaporator Kevin Murphy*, Jonathan Boreyko Virginia Polytechnic Institute and State University, USA

9:32-9:34 22628

Experimental investigation on mass transfer characteristic of stable steam jet condensation in a rectangular mix chamber Zong Xiao, Ji-Ping Liu*, Cheng-Shi Yang, Jun-Jie Yan Xi’an Jiaotong University, China

9:34-9:36 23802 Surface design for dropwise condensation: A theoretical approach Marieke Ahlers, Hans-Jörg Bart* Technology University Kaiserslautern, Germany

9:36-9:38 23966

Modification of the diffusion layer model for condensation heat transfer under the presence of noncondensable gases Junyeob Lee*, Jee-Min Yoo, Byong-Jo Yun, Jae-Jun Jeong Pusan National University, Korea

9:38-9:40 24152

Numerical study on the detailed droplet size distributions in dropwise condensation with the consideration of droplet “overlapping” and multiple re-nucleation Wei Xu*, Zhong Lan, Qiancheng Liu, Bingang Du, Xuehu Ma Dalian University of Technology, China

9:40-9:42 23480 Two-dimensional simulation of steam-air jet condensed into subcooled water Haibo Li, Maocheng Tian*, Xiaohang Qu, Min Wei Shandong University, China

9:42-9:44 24068 Submicron particles formation by condensation at coals burning numerical simulation Leonid Petrov*, Naum Moiseevich Kortsenshteyn G.M. Krzhizhanovsky Power Engineerimg Institute, Russia

54

General Sessions

9:44-9:46 22328

A method for estimation of bundle condensation heat transfer from 3D enhanced surfaces Tailian Chen* Gonzaga University, USA

9:46-9:48 23787

Condensation heat transfer outside a vertical tube with temperature variation in the presence of noncondensable gas Kentaro Kanatani*, Hiroshige Kikura Tokyo Institute of Technology, Japan

9:48-9:50 23153

Experimental investigation of condensation heat transfer characteristics inside three-dimensional enhanced tubes Aifeng Zhang, Ruiheng Guo, Yan He, David Kukulka*, Wei Chen, Wei Li University at Buffalo, the State University of New York, USA

9:50-9:52 22566 Condensation heat transfer enhancement of R245fa in tube with conical mesh inserts Jian Xie, Qi Liu, Wei Shang, Xiang Li, Jinliang Xu* North China Electric Power University, China

9:52-9:54 23485 Experimental investigation on the condensation of R134a in multiport flat tubes Paul Knipper*, Dirk Bertsche, Thomas Wetzel Karlsruhe Institute of Technology, Germany

9:54-9:56 22824 Condensation and tube-side heat transfer of corrugated tubes for steam condensers Nae-Hyun Kim*, Min-Geon Go, Ho-Seung Han Incheon National University, Korea

9:56-9:58 22417

A visualized study of condensation heat transfer over a horizontal circular tube with a microporous hydrophobic surface Linwei Mou, Yuankai Huang, Wenye Li, Jiaqi Li, Liwu Fan* Zhejiang University, China

9:58-10:00 22228

New experimental results on dynamics of droplet clusters levitating over the locally heated water surface Alexander Fedorets, Leonid Dombrovsky*, Dmitry Shcherbakov Joint Institute for High Temperatures, Russia

10:00-10:02 23163

Heat transfer and flow characteristics of ultra-micro steam injector and its operating condition Akihiro Futsuta*, Akiko Kaneko, Yutaka Abe, Yutaka Suzuki University of Tsukuba, Japan

10:02-10:04 23382

Experimental study on CO2 flow condensation in a smooth horizontal tube at low temperatures Peihua Li*, John J.J. Chen, Stuart Norris The University of Auckland, New Zealand

10:04-10:06 23147

Condensation heat transfer coefficient and pressure drop of R134a in a microfinned tube: Modeling and optimization Mehdi Mehrabi*, Seyyed Mohammad Ali Noori Rahim Abadi, Josua Petrus Meyer University of Pretoria, South Africa

55

General Sessions

August 12, Sunday 8:30-12:20 Room 310

Session subject: Thermophysical Property Measurements-1 (TPM1) Co-Chairs: Koji Miyazaki & Huaqing Xie

Time ID Title, Author, Affiliation

9:20-9:22 23004

Development of metal substrate MEMS sensors for local multipoint heat flux measurement in engines Kazuhito Dejima*, Osamu Nakabeppu, Yuto Nakamura, Tomohiro Tsuchiya, Keisuke Nagasaka Meiji University, Japan

9:22-9:24 21979

Experimental study on thermal contact resistance of needle-punched C/C-SiC composites at different temperatures and pressures Xing-Jie Ren, Yan-Jun Dai, Jian-Jun Gou, Wen-Quan Tao* Xi’an Jiaotong University, China

9:24-9:26 22415

Transient determination on the water vapor diffusion coefficient of autoclave aerated concrete: Effects of sample and sensor sizes Shuaiqi Tian, Ke Wang, Liwu Fan*, Zitao Yu, Xu Xu, Jian Ge Zhejiang University, China

9:26-9:28 23438

Thermal effusivity of iron oxide scale formed on iron sheet measured by pulsed light heating thermoreflectance technique Yuanru Yang*, Takashi Yagi, Mitsutoshi Ueda, Miyuki Hayashi, Masahiro Susa, Rie Endo Tokyo Institute of Technology, Japan

9:28-9:30 23131

Measurement and analysis of effective thermal contact resistance at variable clamping pressures Ping Zhang*, Yaoqi Xian, Peng Yuan, Siping Zhai Guilin University of Electronic Technology, China

9:30-9:32 22432 Laser-assisted tip-substrate configuration for exploring ballistic thermal transport Yixin Chen, Yanru Xu, Yu Chen, Zehua Xie, Yanan Yue* Wuhan University, China

9:32-9:34 23691

Visualization of heat and mass transfer near the formation and dissociation interface of CO2 hydrate with high-speed phase-shifting interferometer Yuki Kanda*, Eita Shoji, Lin Chen, Junnosuke Okajima, Atsuki Komiya, Shigenao Maruyama Tohoku University, Japan

9:34-9:36 22617

Comprehensive T-type method for the thermal and electrical transport properties measurement of micro/nano wires and ribbons Weigang Ma, Shaoyi Shi, Xuguo Shi, Xing Zhang* Tsinghua University, China

9:36-9:38 23669 Four-probe thermal transport measurements of mesoscale structures Yuanyuan Zhou, Jaehyun Kim, Li Shi* The University of Texas at Austin, USA

9:38-9:40 21857 Thermal transport in graphene based nanomaterials Jie Chen* Tongji University, China

9:40-9:42 22438

A calibration technique of thermochromic liquid crystal sheets using artificial neural networks- A novel alternative Karthik Deo, C Balaji* Indian Institute of Technology Madras, India

56

General Sessions

9:42-9:44 23511 Review of CO2 multiphase flow in two-dimension porous micromodels Changzhong Zhao*, Yi Zhang, Lei Yuan, Xuefeng Zhang, Fengnan Wang, Ying Wang Dalian University of Technology, China

9:44-9:46 22993

Thermal conductivity measurements of Al2O3/water nanofluid using time-domain thermoreflectance method and hot wire method Xinwei Wang, Meiling Zhou*, Weidong Xu, Zhongyin Zhang, Fangyuan Sun China University of Petroleum (East China), China

9:46-9:48 22100

Experiment and analysis of effective thermal conductivity of copper foam/paraffin composite phase change material Xiao Yang, Xinghua Zheng, Shen Li, Haisheng Chen* Institute of Engineering Thermophysics, China

9:48-9:50 22135 Thermal resistance of nanoparticle layer deposited solid-liquid interface Yoshitaka Ueki*, Tomoya Oyabu, Masahiko Shibahara Osaka University, Japan

9:50-9:52 22026

Development of a new PVT measurement method for H2-CO2-H2O mixture at high temperatures and high pressures Siyuan Cheng, Weigang Ma, Xing Zhang* Tsinghua University, China

9:52-9:54 22721

Heat transfer enhancement with insertion of an interfacial layer in a copper/diamond system Azina Clio, Jean-François Silvain, Yong-Feng Lu, Jean-Luc Battaglia* University of Bordeaux, France

9:54-9:56 22127

Fully adaptable interfacial sensors and reconstruction modeling for in situ heat transfer analysis of energy-saving materials Lin Qiu*, Dawei Tang, Dongsheng Wen, Yanhui Feng*, Xinxin Zhang University of Science and Technology Beijing, China

9:56-9:58 22782

Probing anisotropic and nonhomogeneous thermal conduction in CVD diamond by time-domain thermoreflectance Zhe Cheng, Ramez Cheaito, Tingyu Bai, Luke Yates, Aditya Sood, Brian Foley, Thomas L. Bougher, Firooz Faili, Mehdi Asheghi, Kenneth E. Goodson, Baratunde A. Cola*, Mark Goorsky, Samuel Graham* Georgia Institute of Technology, USA

9:58-10:00 22873

Numerical and experimental investigation on a new type electrical heat storage unit based on flat micro heat pipe Zeyu Wang, Yanhua Diao*, Yaohua Zhao, Chuanqi Chen, Li Liang, Tengyue Wang Beijing University of Technology, China

10:00-10:02 22633

Heat flux measurements in the heat transfer study Sergey Z. Sapozhnikov. Vladimir Yu. Mityakov, Andrey V. Mityakov, Andrey A. Gusakov, Michail A. Grekov, Artem V. Vincarevich*, Vladimir V. Seroshtanov, Alexander Yu. Babich, Elza R. Zaynullina Peter the Great St.Petersburg Polytechnic University, Russia

10:02-10:04 22421

Temperature-dependent dynamic viscosity of two sugar alcohols and their binary eutectic mixture as heat storage materials Xue-Feng Shao, Chen-Lin Chen, Yong-Jian Yang, Biao Feng, Zi-Qin Zhu, Li-Wu Fan* Zhejiang University, China

10:04-10:06 23089

Advances in measuring thermophysical properties of liquids by the transient plane source technique Pitt Goetze*, Martin Hefele, Thomas Storch, Rhena Wulf, Alexandra Kaas, Ulrich Gross Technology University Bergakademie Freiberg, Germany

57

General Sessions

10:06-10:08 23986

Simultaneous measurements of the thermal and velocity boundary layer over a heated flat plate using thermographic laser Doppler velocimetry Anthony Ojo*, Benoit Fond, Christopher Abram, Berend Van-Wachem, Andrew Heyes, Frank Beyrau University of Strathclyde, UK

10:08-10:10 24144

Experimental analysis on a novel active thermal wall (ATW) integrated thermoelectric heat pump unit Wenpeng Quan, Jiani Mao*, Qi Fang, Jingwei Zhou China Jiliang University, China

10:10-10:12 21927

Effect of plasma formation on laser-induced incandescence measurements of molten metal nanoparticles Sina Talebi Moghaddam, Kyle Daun* University of Waterloo, Canada

10:12-10:14

22189 Effect of additive magnesium nitrate on the thermal property of sodium nitrate Peng Xu, Xiaoyu Guo, Yaxuan Xiong*, Yuting Wu Beijing University of Civil Engineering and Architecture, China

10:14-10:16 22494

Research on the cross-scale thermal characteristics prediction method of integrated thermal protection materials for hypersonic vehicle Lei Liu*, Youan Shi, Litong Zhang, Xiaofeng Yang, Dong Wei, Guangming Xiao China Aerodynamics Research and Development Center, China

58

General Sessions

August 12, Sunday 8:30-12:20 Room 311A

Session subject: Refrigeration and Cryogenics (RAC) Co-Chairs: Min Soo Kim & Jun Shen

Time ID Title, Author, Affiliation

9:20-9:22 21983

Comparison and analysis on the performance of R404A direct contact condensation refrigeration cycle for low temperature Ning Jinghong*, Dong Qiang, Liu Shengchun Tianjin University of Commerce, China

9:22-9:24 22346

Frost meltwater behavioral characteristics during defrosting on surfaces with various wettability Fuqiang Chu, Xiaomin Wu* Tsinghua University, China

9:24-9:26 22686

Heat and mass transfer analysis and dynamic modeling of desiccant-coupled thermoelectric dehumidification Bangjun Li, Lingji Hua, Ruzhu Wang* Shanghai Jiao Tong University, China

9:26-9:28 23853

A novel multilayer desiccant dehumidifier for hybrid air-conditioning: Adsorption and desorption in macro scale Jubair Ahmed Shamim*, Wei-Lun Hsu, Soumyadeep Paul, Kenji Kitaoka, Hirofumi Daiguji The University of Tokyo, Japan

9:28-9:30 22726 Exergy analysis of a pump-driven loop heat pipe for free cooling in data centers Wanpeng Zhu, Feng Zhou*, Cuicui li, Guoyuan Ma, Fuping Li, Xianghui Yan Beijing University of Technology, China

9:30-9:32 23935 Performance analysis of air conditioner with moisture seletive membrane Hyunjeong Lim, Yeonjoo Cho, Chanjoong Kim, Sangmi Choi, Minsung Kim* Chung-Ang University, Korea

9:32-9:34 23839

Numerical investigation on the influence of operating temperature range of active magnetic regenerator Hao-ning Shi, Ting Ma, Qiu-wang Wang* Xi'an Jiaotong University, China

9:34-9:36 22552

Numerical study on the oscillating flow and heat transfer characteristics in cryogenic regenerators Qian Huang, Liang Chen*, Shuangtao Chen, Yu Hou Xi'an Jiaotong University, China

9:36-9:38 23226 Lossless storage and transportation law of 250 m3 horizontal LNG storage tank Shouguang Yao*, Xiaogang Cai, Yindong Song Jiangsu University of Science and Technology, China

9:38-9:40 23955

Investigation of the performance of steam generation heat pump system with internal heat exchanger Dae Hoon Kang, Jae Ho Lee, Sun-Ik Na, Min Soo Kim* Seoul National University, Korea

9:40-9:42 23968

A study on crystallization characteristics and visualization of onion cells at different pre-cooling rates Kai Zhu*, Yanqi Xie, Yabo Wang, Jinshan Wang, Baomin Dai Tianjin University of Commerce, China

59

General Sessions

9:42-9:44 24350 The study on the mechanism of the pulse tube cooler by molecular dynamics method Yanjin Che, Yingxia Qi*, Yuhe Wang, Danping Ma, Shuai Pan University of Shanghai for Science and Technology, China

9:44-9:46 23047

An experimental study on frost deposition on a vertical cryogenic surface under natural convection Liyan Li*, Zhongliang Liu, Lingqian Zhao, Yanxia Li Beijing University of Technology, China

9:46-9:48 22308 Heat transfer characteristics of multi-pulsed cryogen spray cooling for laser lipolysis Hui Xin, Bin Chen*, Zhifu Zhou Xi'an Jiaotong University, China

9:48-9:50 23850 Regeneration performance analysis of a multilayer desiccant dehumidification system Soumyadeep Paul, Jubair Shamim, Kenji Kitaoka, Wei-Lun Hsu*, Hirofumi Daiguji The University of Tokyo, Japan

9:50-9:52 22141 Enhanced freezing process with finned aluminum plates inside a home refrigerator H. Zhao*, F. Zhang, D. Wang, J. Han Shandong University, China

9:52-9:54 23197 SiGe-based planar thermoelectric thin film micro refrigerators Baoling Huang*, Yu Su The Hong Kong University of Science and Technology, HongKong, China

9:54-9:56 24186

Numerical study on heat transfer of supercritical CO2/DME mixture flowing in cooled helically coiled tubes Xuefang Li*, Qingxin Ba, Teng Huang, Feng Luo, Lin Cheng Shandong University, China

60

General Sessions

August 12, Sunday 9:20-12:20 Room 311B

Session subject: Heat Transfer Enhancement-2 (HTE2) Co-Chairs: Igor V. Derevich & Qiang Li

Time ID Title, Author, Affiliation

9:20-9:22 24349

Convection heat transfer measurements of R-125 at supercritical pressures in a horizontal flow tested under organic rankine cycle conditions Marija Lazova*, Alihan Kaya, Michel De Paepe Ghent University, Belgium

9:22-9:24 23911

Numerical study of jet impingement heat transfer inside aero-engine inlet strut with film-heating anti-icing system Yi Lu, Peng Ke*, Xing Tang, Yun Zhang Beihang University, China

9:24-9:26 24222

Computational modeling of single-phase laminar flow heat transfer in complex plate-fin ducts Kuan-Ting Lin*, Milind A. Jog, Raj M. Manglik University of Cincinnati, USA

9:26-9:28 22492

Flow and heat transfer characteristics of supercritical hydrocarbon fuel in mini-channel with micro-ribs Xin Li*, Silong Zhang, Jiang Qin Harbin Institute of Technology, China

9:28-9:30 22702

A study on comparison of volume averaged and pore scale results of solid/liquid phase change assisted by porous media Chunyang Wang, Moghtada Mobedi*, Fujio Kuwahara, Akira Nakayama Shizuoka University, Japan

9:30-9:32 23282

Numerical study on the effect of ultrasonic wave on heat transfer enhancement of heat transfer tube Zhang Aiping*, Zhang Ying, Zhang Yue, Xu Zhiming Northeast Electric Power University, China

9:32-9:34 23015

Experimental study of the dissimilarity between heat transfer and drag at dimpled surfaces in the flow disturbed by the cylinder rod Nickolay Kiselev*, Andrey Zditovets, Yurii Vinogradov, Mark Strongin Lomonosov Moscow State University, Russia

9:34-9:36 23078

Numerical simulation and structure optimization research on heat transfer characteristics of calciner cooling water jacket Zitian Wu, Kunqing Song, Ming Gao* Shandong University, China

9:36-9:38 24037

Proving surface phonon polaritons contribution to thermal conductivity in sin submicron films Yunhui Wu*, Roman Anufriev, Sergei Gluchko, Ryoto Yanagisawa, Laurent Tranchant, Atsushi Noguchi, Koji Usami, Masahiro Nomura, Sebastian Volz The National Center for Scientific Research, France

9:38-9:40 22487

Experimental study of effect of non-uniform electric field on the heat transfer enhancement in vertical rectangular microgrooves Jinchen Tang, Yingying Yu, Xuegong Hu* Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

61

General Sessions

9:40-9:42 23030 Experimental investigation of impinging heat transfer of pulsed jet on concave plate Yuanwei Lv*, Jingzhou Zhang, Xicheng Liu Nanjing University of Aeronautics and Astronautics, China

9:42-9:44 24433 Heat transfer enhancement in a rectangular duct: Exploiting von-Karman effect Gaurav Chapperwal*, Ankur Srivastava, Ram Dayal Manipal University Jaipur, India

9:44-9:46 21397

A numerical investigation on internal heat transfer in jet impingement/effusion cooling in a narrow channel Guanjiang Chen, Yuyang Liu, Yu Rao* Shanghai Jiao Tong University, China

9:46-9:48 23376

Near-infrared measurement of water temperature around gel droplets containing micro-magnetic particles under induction heating Van Cuong Han, Yuki Arakawa, Keisuke Nishijima, Katsuya Kondo, Naoto Kakuta* Tokyo Metropolitan University, Japan

9:48-9:50 21821 Effect of various nanofluids on thermal performance of the thermosyphon Agnieszka Wlazlak*, Bartosz Zajaczkowski, Lisa M. Wilde, Matthias H. Buschmann Wroclaw University of Science and Technology, Poland

9:50-9:52 22757 Numerical study of flow and heat transfer for pulsating flow in a square duct with ribs Wang Wei*, Du Bowen, Jia Yuemei Taiyuan University of Technology, China

9:52-9:54 22874 Vortex heat transfer enhancement by oval-trench dimples in narrow channels Sergey Isaev*, Alexander I. Leontiev, Jaroslav Chudnovsky, Igor Popov Saint-Petersburg State University of Civil Aviation, Russia

9:54-9:56 22483

Physical properties change and heat transfer enhancement in compact-chamber spray cooling using high-alcohol surfactant Li-Jia Jiang, Wen-Long Cheng*, Hua Chen, Yu-Hang Peng University of Science and Technology of China, China

9:56-9:58 23927

Investigating into heat transfer enhancement of dilute Al2O3-MWCNT water based hybrid nanofluid in a square cavity Solomon Giwa*, Mohsen Sharifpur, Josua Meyer University of Pretoria, South Africa

9:58-10:00 23268

Convective heat transfer measurements in tubes with equally spaced baffles under steady and oscillatory flow José Muñoz*, Juan Pedro Solano, Alberto García, Jose Pérez-García Technical University of Cartagena, Spain

10:00-10:02 23704

Enhanced interfacial heat transfer of liquid metal alloy on copper plate by introducing Mo buffer layer Huilong Yan, Yulong Ji*, Zongyu Wang, Bohan Tian, Hongbin Ma Dalian Maritime University, China

10:02-10:04 21582

Heat transfer enhancement due to interaction of the thermocapillary structures with waves on the surface of the heated liquid film Evgeny Chinnov* Siberian Branch of Russian Academy of Sciences, Russia

10:04-10:06 22404

Heat transfer enhancement of the eutectic salt PCM in a shell-and-tube latent heat storage Chaxiu Guo*, Zhe Chen Zhengzhou university, China

10:06-10:08 23673

Investigation on hot-side heat sink for a portable thermoelectric unit Xing Lu, Dongliang Zhao, Ting Ma, Ronggui Yang, Qiuwang Wang* Xi'an Jiaotong University, China

62

General Sessions

10:08-10:10 22180

Hexagonal boron nitride: A promising substrate for graphene with high heat dissipation Zhongwei Zhang, Shiqian Hu, Jie Chen*, Baowen Li* Tongji University, China

10:10-10:12 22458

How Van Der Waals confinement enhances thermal conductivity in crosswise paved polyethylene laminate Xiaoxiang Yu*, Chengcheng Deng, Xiaoming Huang, Nuo Yang Huazhong University of Science and Technology, China

10:12-10:14 23865

Numerical investigation of natural convection through high porosity metal foam Banjara Kotresha, Gnanasekaran N* National Institute of Technology Karnataka, India

63

General Sessions

August 12, Sunday 14:00-18:00 Room 309A

Session subject: Boiling and Evaporation-2 (BAE2) Co-Chairs: Abdulmajeed Mohamad & Xiaodong Wang

Time ID Title, Author, Affiliation

15:00-15:02 23654

Experimental study of sessile droplet behavior during evaporation: Comparison of methanol and water Rafik Lankri, Salah Chikh*, Lounes Tadrist, Mebrouk Ait-Saada University of Science and Technology Houari Boumediene, France

15:02-15:04

21910

Characteristics of pool boiling heat transfer on heterogeneous wetting microchannel surfaces Wei Zhang*, Yuanzhi Sun, Zhiyu Wu, Junjie Yu, Jinliang Xu North China Electric Power University, China

15:04-15:06 23390

High heat flux and stable boiling heat transfer through nanoporous membranes Qingyang Wang, Young Jin Kim, Renkun Chen* University of California, San Diego, USA

15:06-15:08 21918

Distributions of temperature and heat flux around bubbles of flow boiling in narrow channel Osamu Kawanami*, Yu Matsuda, Yasuhiro Egami, Itsuro Honda, Hiroki Yamaguchi, Tomohide Niimi University of Hyogo, Japan

15:08-15:10 22371

Evaporative properties of water on the super-wetting carbon nanotube buckypapers Guang Zhang*, Yantong Xu China Academy of Space Technology, China

15:10-15:12 22740

Enhancement of cooling performance for a heat pipe-based battery thermal management system with flow boiling Jialin Liang, Yunhua Gan* South China University of Technology, China

15:12-15:14 24435

Interfacial thermal fluid phenomena in shear – driven thin liquid films Oleg Kabov*, Dmitry Zaitsev, Egor Tkachenko Russian Academy of Sciences, Russia

15:14-15:16 23120

Study on characteristics of formation and evaporation of microlayer using laser interferometry during nucleate pool boiling for water and ethanol Kang Hu, Zhihao Chen*, Yoshio Utaka Tianjin University, China

15:16-15:18 22945

A new correlation for predicting the heat transfer coefficients of R407C undergoing flow boiling within horizontal microfin tubes Sunil Mehendale* Michigan Technological University, USA

15:18-15:20 24122

Characterization of surface temperature of evaporating sessile water droplets Dinghua Hu*, Xuemei Chen, Qiang Li Nanjing University of Science and Technology, China

15:20-15:22 24136

Enhancement of dry-out heat flux in non-uniform variable permeability wicking structures Kyle Wilke*, Karina Kalinina, Yangying Zhu, Daniel Preston, Dion Antao, Solomon Adera, Evelyn N. Wang Massachusetts Institute of Technology, USA

64

General Sessions

15:22-15:24 22117

Comparative study on the pool boiling and falling film evaporation of refrigerant R134a outside the same tubes Wentao Ji*, Chuangyao Zhao, Ertao Zhao, Zengyao Li, Wenquan Tao Xi'an Jiaotong University, China

15:24-15:26 23121

Impact of surface characteristics on microlayer, bubble dimensions and departure in nucleate boiling Wei Ding*, Debasish Sarker, Uwe Hampel Helmholtz Zentrum Dresden Rossendorf, Germany

15:26-15:28 22409

Experimental investigation on pool boiling mechanism of gradient metal foams Zhiguo Xu, Ruilian Huang, Changying Zhao* Shanghai Jiao Tong University, China

15:28-15:30 23769

Comparison of bundle effect during flow boiling of distilled water over plain and plasma coated tube bundles Abhilas Swain*, Rajiva L. Mohanty, Mihir Kumar Das Kalinga Institute of Industrial Technology, Bhubaneswar, India

15:30-15:32 24100

Subcooled pool boiling with an patterned heating surface Noriyuki Unno*, Kazuhisa Yuki, Risako Kibushi, Shin-ichi Satake, Koichi Suzuki Tokyo University of Science, Yamaguchi, Japan

15:32-15:34

23319 A semi-analytical model of bubble growth and detachment during nucleate boiling Giovanni Giustini*, Keith Ardron, Simon Walker Imperial College London, UK

15:34-15:36 23474

Influence of non-condensable component in vapor-gas mixture on the intensity of liquid droplets evaporation Vladimir Levashov*, Alexei Kryukov, Irina Shishkova Moscow State University, Russia

15:36-15:38 22230

Evaporation and boiling in thin gap Dike Xu, Keita Ogawa, Mitsuhiro Matsumoto* Kyoto University, Japan

15:38-15:40 24146

CFD simulations of pool boiling with various heater wall conditions Yeong Shin Jeong, In Cheol Bang* Ulsan National Institute of Science and Technology, Korea

15:40-15:42 22096

Vapor absorption phenomenon into sessile liquid desiccant droplets Zhenying Wang*, Daniel Orejon, Khellil Sefiane, Yasuyuki Takata Kyushu University, Japan

15:42-15:44 23598

Characteristics of a single vapor bubble under subcooled water boiling Nikolay V. Vasiliev*, Yury A. Zeigarnik, Konstantin A. Khodakov Joint Institute for High Temperatures, Russian Academy of Sciences, Russia

15:44-15:46 23426

Spreading and splashing of a droplet train impinging onto a heated nanotube surface Wei Tong, Lu Qiu, Zhen Qin, Chenlong Wu, Fei Duan* Nanyang Technological University, Singapore

15:46-15:48 24263

Surface tension effect on thin film evaporation Bohan Tian, Benwei Fu, Hongbin Ma*, NanNan Zhao, Jiujun Xu University of Missouri, USA

15:48-15:50 23736

Enhanced water evaporation with floating synthetic leaves Weiwei Shi, Joshua Vieitez, Austin Berrier, Matthew Roseveare, Jonathan Boreyko* Virginia Tech, USA

15:50-15:52 24321

Experimental study of subcooled flow boiling heat transfer on micro-pin-finned surfaces in short-term microgravity Bin Liu, Yonghai Zhang*, Jinjia Wei*, Jianfu Zhao Xi'an Jiaotong University, China

65

General Sessions

15:52-15:54 22961

Numerical investigation of vapor bubble growth in rectangular microchannel Alexander Stroh*, Bettina Frohnapfel, Roland Dittmeyer Karlsruhe Institute of Technology, Germany

15:54-15:56 24287

Bubble dynamics and heat transfer in a wettability patterned flow boiling microchannel Hongzhao Wang, Huihe Qiu* The Hong Kong University of Science and Technology, Hongkong, China

15:56-15:58

24557

Local heat flux reconstruction at the impact of a droplet onto a heated surface William Chaze, Romain Collignon, Guillaume Castanet*, Ophélie Caballina, Jean-François Pierson, Fabrice Lemoine, Denis Maillet University of Lorraine, LEMTA, France

66

General Sessions

August 12, Sunday 14:00-18:00 Room 309B

Session subject: Nano and Microscale Transport-2 (NMT2) Co-Chairs: Mohsen Sharifpur & Shushen Lv

Time ID Title, Author, Affiliation

15:00-15:02 22315

Molecular dynamics simulation of bubble nucleation above surface with different cavities Yujie Chen, Bo Yu*, Yu Zou, Yi Wang, Dongxu Han China University of Petroleum-Beijing, China

15:02-15:04

23856 Effect of wettability on solid-liquid interfacial resistance in microchannel flow Kohei Fukushima*, Ryoya Mitoma, Takaharu Tsuruta, Gyoko Nagayama* Kyushu Institute of Technology, Japan

15:04-15:06

23890

Numerical simulation of miscible displacement in microchannel in slip regime by lattice Boltzmann method Shuchen Lv, Bo Dong*, Xun Zhou, Weizhong Li Dalian University of Technology, China

15:06-15:08

23469 Numerical simulation of the magnetic particle deposition on the walls of a microchannel Jordi Pallares* University of Rovira in Virgili, Spain

15:08-15:10

23901 Viscosity of nanofluids with nanoparticles of varying aspect ratios Songping Mo*, Ting Pan, Zhi Yang, Lisi Jia, Ying Chen Guangdong University of Technology, China

15:10-15:12

23920

Near-infrared imaging of reaction and diffusion phenomena of aqueous solutions in microfluidic channels Toshiya Ohata, Daisuke Kawashima, Naoto Kakuta* Tokyo Metropolitan University, Japan

15:12-15:14

21742

Photothermal properties of blended plasmonic nanofluid for direct solar thermal absorption Huiling Duan*, Rongjie Chen, Liangliang Tang, Yuan Zheng, Chang Xu Hohai University, China

15:14-15:16

23785

Interlayer thermal boundary resistance of WSe2 investigated by using time-domain thermoreflectance measurement Young Gwan Choi, Chan June Zhung, Chang Jae Roh, Hwi In Ju, Tae Yun Kim, Sang-Woo Kim, Jong Seok Lee* Gwangju Institute of Science and Technology, Korea

15:16-15:18

24042

Thermal resistance optimization of microchannel heat sinks using liquid gallium compared to water by adjusting channel width and fin width Xiong Xiang, Aiwu Fan*, Wei Liu Huazhong University of Science and Technology, China

15:18-15:20

23847

T-type Raman method for non-contact characterization of thermal transport properties of individual nanowires Jinhui Liu*, Yudong Hu, Xing Zhang Nanjing University of Science and Technology, China

15:20-15:22

22862 Numerical study of low-melting point alloy based micro ice valve Renchang Zhang, Zi Ye, Lin Gui* Institute of Physics and Chemistry Technology, Chinese Academy of Sciences, China

67

General Sessions

15:22-15:24

21498

Molecular dynamics study on evaporation/condensation coefficients in multi-components system Yusuke Yamamoto, Kyohei Fujioka, Takaharu Tsuruta, Gyoko Nagayama* Kyushu Institute of Technology, Japan

15:24-15:26

23096 A new approach investigating dynamics and hysteresis of triple phase contact line Qiao Liu, Abbasali Abouei Mehrizi, Hao Wang* Peking University, China

15:26-15:28

21973

Gold-in-water nanofluids in microchannels: Surfactant effect Eylul Simsek, Matthew Redmond, Aziz Koyuncuoglu, H. TUba Okutucu Ozyurt*, Haluk Kulah Middle East Technical Universtity, Turkey

15:28-15:30

21297

Characterization of thermal and electrical contact resistance between metallic nanowires and electrodes Jianli Wang*, Zhizheng Wu, Chenkun Mao, Yufeng Zhao, Yunfeng Gu, Juekuan Yang, Yunfei Chen Southeast University, China

15:30-15:32

21385

A multiscale study of film thickness dependent femtosecond laser spallation and ablation Pengfei Ji, Yuwen Zhang*, Yiming Rong, Yong Tang University of Missouri, USA

15:32-15:34

22420

Solid-liquid phase change and thermal conductivity of erythritol as a heat storage material: A molecular dynamics study Biao Feng, Ziqin Zhu, Yi Zeng, Liwu Fan* Zhejiang University, China

15:34-15:36

22699

Enhanced interfacial thermal conductance between carbon nanotube and gold by molecule junctions: A molecular dynamics study Yuan Dong*, Chenghao Diao, Yingru Song, Haojia Chi, Jian Lin University of Missouri at Columbia, USA

15:36-15:38

22672 Interfacial thermal resistance at praphene-water interface Ji-Hang Zou, Bing-Yang Cao* Tsinghua University, China

15:38-15:40

23869

Surface enhancement absorption by phonon-plasmon polaritons in graphene/HBN/grating structure Qinghui Pan, Ruming Pan, Guohua Zhang, Yong Shuai*, Heping Tan Harbin Institute of Technology, China

15:40-15:42

24177

Determination of the convective heat transfer coefficient of nanofluids Lande Liu*, Viacheslav Stetsyuk, Krzystof Kubiak, Yit Fatt Yap, Afshin Goharzadeh, John C. Chai University of Huddersfield, UK

15:42-15:44

22175 Thermal transport in single polymer chains–the effects of curvature and kink Xiaobo Li*, Xuhui Duan, Zehuan Li Huazhong University of Science and Technology, China

15:44-15:46

23928 Designing nanostructures for heat transport via materials informatics Shenghong Ju, Thaer M. Dieb, Koji Tsuda, Junichiro Shiomi* The University of Tokyo, Japan

15:46-15:48

21756

Heater assisted Raman method to measure interfacial thermal conductance in van der Waals heterostructures Qinyi Li*, Koji Takahashi, Xing Zhang Kyushu University, Japan

68

General Sessions

15:48-15:50

24121

Thermal transport study on ReAlO3 /SrTiO3 heterostructures (Re= rare earth element: La/Nd/Sm/Gd) Yu-Sheng Wang*, Jiu-Guo Chen*, Yuan-Feng Ding, Lei Li, Xue-Jun Yan, Chen Li, Di Wu, Ming-Hui Lu, Hong Lu Nanjing University, China

15:50-15:52

22565

The effects of sidewalls on pressure drop and heat transfer in a pin-finned microchannel Jingzhe Xie, Hongbin Yan, Gongnan Xie* Northwestern Polytechnical University, China

15:52-15:54

23132 Pressure fluctuations of liquid-liquid slug flow in cross-junction square microchannels Jin-Yuan Qian*, Min-Rui Chen, Zan Wu, Zhen Cao, Bengt Sunden Zhejiang University, China

15:54-15:56

23717 Optical absorption of graphene-coated nanoparticles and graphene nanoshells Zhaolong Wang, Zhuomin Zhang, Ping Cheng* Shanghai Jiao Tong University, China

15:56-15:58

23690

Molecular dynamics study on evolution of sodium vapor on dust particles surface in cooling process Yinsheng Yu*, Yubing Tao, Ya-Ling He Xi’an Jiaotong University, China

15:58-16:00

23069

Coupled study of heat and mass transfer in microfludic devices monitored by thermal-multispectral imaging S. Kirchner, A. Sommier, J. Leng, J.C. Batsale, J.L. Battaglia, C. Pradère* I2M, UMR CNRS 5295, Esplanade of Arts and Crafts, France

69

General Sessions

August 12, Sunday 14:00-18:00 Room 310

Session subject: New Energy and Efficiency-1 (NEE1) Co-Chairs: Pradip Dutta & Xiulan Huai

Time ID Title, Author, Affiliation

15:00-15:02 24111

Experimental study of PM emissions from wood pellet stoves with an innovative burning pot Luigi Polonini*, Domenico Petrocelli, Simone Parmigiani, Adriano Lezzi University of Brescia, Italy

15:02-15:04

23237

Temperature changes for methane hydrate dissociation in different class deposits by depressurization Mingjun Yang, Yi Gao, Hang Zhou, Bingbing Chen, Yongchen Song* Dalian University of Technology, China

15:04-15:06 23922

Study on dust particulate removal in exhaust gas using electrostatic spray Yeonjoo Cho, Soyeon Kim, Hyunjeong Lim, Minsung Kim* Chung-Ang University, Korea

15:06-15:08 23129

The physical mechanism research of thermalization influence on plasmonic solar cell Jiajia Zhang, Zhiguo Qu*, Ruipeng Fu Xi’an Jiaotong University, China

15:08-15:10 24049

Effect of rheological properties on convective heat transfer of microalgae slurries in laminar flow Hao Chen, Qian Fu, Qiang Liao*, Hong Zhang, Yun Huang, Ao Xia, Xun Zhu Chongqing University, China

15:10-15:12 23225

Characteristic of argon plasma jet on methane hydrate decomposition for hydrogen production Shinfuku Nomura, Ismail Rahim*, Shinobu Mukasa, Hozutaka Tanaka, Jumpei Tokuda Universitas Negeri Makassar, Indonesia

15:12-15:14 24262

Visualized experiment of bubble behaviors in a narrow rectangular channel under natural circulation condition Meiyue Yan*, Tingting Ren, Changqi Yan, Kuan Yang, Shengzhi Yu, Yongyong Yang Harbin Engineering University, China

15:14-15:16 21371

Validation of the module aerosol/LM on the basis of the experiments on the size evolution of sodium combustion aerosol with various RH Polina Kolobaeva*, Andrey Sorokin the Russian Academy of Sciences, Russia

15:16-15:18 23553

Research on the thermal performance of direct-contact heat transfer flow gas condensate residual heat recovery unit Qunli Zhang*, Mingshuang Wang, Donghan Sun, Mingkai Cao Beijing University of Civil Engineering and Architecture, China

15:18-15:20 23862

Heat transfer enhancement of a flat plate by a dual cooling jet airflow: Experimental and numerical approach Claudia Cadile*, Gerald Debenest, Jean-Pierre Fradin ICAM,Toulouse University, France

15:20-15:22 22956

Control-oriented modelling and evaluation for the temperature distribution in data-centers Qiu Fang, Qi Wang, MengXuan Song*, Jun Wang Tongji University, China

70

General Sessions

15:22-15:24 23307

Cavity absorber-emitters for high-temperature solar thermophotovoltaics Colin C. Kelsall, David M. Bierman, Arny Leroy, Bikram Bhatia, Evelyn N. Wang* Massachusetts Institute of Technology, USA

15:24-15:26 21992

Cost optimization for data center cooling system with thermal resistance-based method Ronghuan Fu, Xing Zhang* Tsinghua University, China

15:26-15:28 21877

Monte Carlo simulation of solar radiation through a water-filled prismatic louver Yaomin Cai, Zhixiong Guo*, Nicholas Madamopoulos The State University of New Jersey, USA

15:28-15:30 22095

Thermodynamic analysis of a flat plate solar air collector based on micro-heat pipe arrays (MHPA-FPSAC) Tingting Zhu*, Yaohua Zhao, Yanhua Diao Tianjin University of Commerce, China

15:30-15:32 21989

Effect of distributed photovoltaic power station on building cooling load in summer Sheng Liu, Yuying Yan*, Zhen Zhang, Jianbo Bai University of Nottingham, UK

15:32-15:34 21459

Thermal feature of a modified solar phase change material storage wall system Chenglong Luo*, Dan Sun, Lijie Xu, Jie Ji, Mengyin Liao Jiangxi Academy of Sciences, China

15:34-15:36 22948

Thermal modelling of a solar thermochemical reactor for metal oxide reduction Bo Wang, Vincent M. Wheeler, Johannes Pottas, Peter B. Kreider, Wojciech Lipinski* The Australian National University, Australia

15:36-15:38 21871

A quantitative study on loss processes in multiple energy gap solar cells Ao Wang, Yimin Xuan* Nanjing University of Science and Technology, China

15:38-15:40 22793

Predicting dimensions of a solar pond using inverse method Abhishek Kumar, Ranjan Das* The Indian Institute of Technology Ropar, India

15:40-15:42 22103

The performance enhancement of solar photovoltaic combined with thermoelectric generator under forced cooling conditions Yang Li, Huaqing Xie*, Zihua Wu, Jing Li Shanghai Polytechnic University, China

15:42-15:44 22207

Investigation of the heat transfer characteristics of the parallel plate volumetric absorption solar collector using micro-encapsulated phase change slurry Fei Ma, Peng Zhang* Shanghai Jiao Tong University, China

15:44-15:46 21542

A numerical comparison of solar evaporators: Thermal, photovoltaic and hybrid PV/T absorber plates Pierre-Luc Paradis*, Daniel R. Rousse, Louis Lamarache, Hakim Nesreddine University of Quebec, Canada

15:46-15:48 22448

Effects of solid optical parameters on heat and light transfer process of multi-layer glazed roof filled with PCM Changyu Liu, Ji Bian, Guojun Zhang, Dong Li* Northeast Petroleum University, China

15:48-15:50 23351

Thermal conductivity enhancement of material for calcium chloride/water thermochemical energy storage Takuma Ohtaki*, Maho Mitsuo, Takayuki Terauchi, Hiroshi Iguchi, Keiko Fujioka, Yukitaka Kato Tokyo Institute of Technology, Japan

71

General Sessions

15:50-15:52 23180

Neutronic and thermal-hydraulic coupled simulation of the supercritical water cooled solid blanket for the CFETR Jie Cheng, Wenxiao Chu, Guanghui Su, Yitung Chen* Univeristy of Nevada Las Vegas, USA

15:52-15:54 23339

Prediction and treatment of heatstroke in indoor environment by human thermoregulation modeling Jinping Zhao, Binkan Zhou, Yufeng Miao, Linjing Deng, Qingmei Wen, Qihong Deng* Central South University, China

72

General Sessions

August 12, Sunday 14:00-18:00 Room 311A

Session subject: Cooling and Thermal Management-1 (CTM1) Co-Chairs: Michel De Paepe & Shuangfeng Wang

Time ID Title, Author, Affiliation

15:00-15:02 22144

Nozzle array scaling analysis of the thermal performance of liquid jet impingement coolers for high performance electronic applications Tiwei Wei*, Herman Oprins, Vladimir Cherman, Ingrid De Wolf, Eric Beyne, Martine Baelmans University of Leuven, Belgium

15:02-15:04 22493

Analysis of the two-layered mini/micro-channel heat sink based on liquid metal and water Yujie Ding, Sicong Tan, Jing Liu* University of Chinese Academy of Sciences, China

15:04-15:06 22760

Thermal performance analysis of microchannel heat sink with non-uniform metal foam arrangement Yongtong Li, Liang Gong*, Minghai Xu China University of Petroleum (East China), China

15:06-15:08 23094

A numerical analysis of the applicability of self-similar heat sink for cooling electrical equipments with different sizes Wei Tang, Licheng Sun*, Jingjing Bao*, Guo Xie, Zhengyu Mo, Jiguo Tang Sichuan University, China

15:08-15:10 22853

Improving fast refill efficiency of compressed natural gas by pre-chilling Aiqing Lan, Guoyu Zhang, Ri Li*, Joshua Brinkerhoff University of British Columbia, Canada

15:10-15:12

23458

Parametric study and optimization of flow and heat transfer characteristics in microgap with longitudinal vortex generators array Long Jia, jingguo Qu, Jianfei Zhang* Xi’an Jiaotong University, China

15:12-15:14 24367

Multi-physics analysis of the thermal behavior of inductor by using open-source software Mengyi Zheng*, Hong Duc Doan, Kazuyoshi Fushinobu Tokyo Institute of Technology, Japan

15:14-15:16 22829

Numerical study of flow and heat transfer characterisitcs in swirl cooling tube with dimples Yuyang Liu, Tian Xia, Yu Rao* Shanghai Jiao Tong University, China

15:16-15:18 23397

Measurement of heat transfer on turbine blade endwall with upstream wakes at different relative positions Sehjin Park, Ho Seong Sohn, Hyung Hee Cho*, Yang Seok Han, Osamu Ueda Yonsei University, Korea

15:18-15:20

23058

Pressure loss and thermal optimization for laidback fan-shaped film cooling hole on the suction surface of a turbine vane Ying Huang* Nanjing University of Aeronautics and Astronautics, China

73

General Sessions

15:20-15:22 23977

Experimental investigation on high heat flux spray cooling using water on coated and structured surfaces Ranjith Kandasamy, Jinlong Xie, Teck Neng Wong*, Fei Duan, Edwin Hang Tong Teo, Tony Siu Hon Tsang Nanyang Technological University, Singapore

15:22-15:24 22966

Cell spacing optimization of battery pack in parallel air-cooled battery thermal management system with U-type flow Kai Chen, Shuangfeng Wang* South China University of Technology, China

15:24-15:26 22999

Experimental investigation of thermal performance of six cavity cylindrical heat sink with multiple PCMs Girish Kumar Marri, Srikanth Rangarajan, Chakravarthy Balaji* Indian Institute of Technology Madras, India

15:26-15:28 23577

Numerical investigation on the performance of transpiration cooling combined with film cooling Ding Rui, He Fei*, Wang Jianhua, Tang Longsheng, Dong Guangqi University of Science and Technology of China, China

15:28-15:30 23957

Basic research on heat transfer of impinging air jet by intermittent flow control for enhancing thermal management Taiki Furusawa*, Takashi Fukue, Hidemi Shirakawa, Koichi Hirose Iwate University, Japan

15:30-15:32 22704

Heat transfer enhancement of solid-liquid phase change using cubic boundary Yutao Huo, Xuan Zhang, Zhonghao Rao* China University of Mining and Technology, China

15:32-15:34 23466

Thermal performance of hollow hybrid fin heat sinks with impinging flow Nico Effendi, Byoung Guk Kim, Kyoung Joon Kim* Pukyong National University, Korea

15:34-15:36 23833

Compact liquid cooling system for high power IGBT modules in EV/HEV applications Seokkan Ki*, Jooyoung Lee, Seunggeol Ryu, Youngsuk Nam Kyunghee University, Korea

15:36-15:38 22690

Simulation and experimental study of a hybrid-power gas engine heat pump system Tao Chen, Liang Cai*, Xiaofan Ma Southeast University, China

15:38-15:40

23451

Numerical simulation of heat transfer enhancement for copper foam heat sink in electronic devices using water based BN nanofluids Gan Zhang, Hui Cao, Maria Elena Navarro, J.W. Pomeroy, Chao Yuan, Martin Kuball, Yulong Ding* Birmingham Centre for Energy Storage, UK

15:40-15:42 22335

The energy efficiency analysis of data center cooling based on separate heat pipe Tao Wang*, Yuhua Li, Huan Liu, Lei Zhang, Yuyan Jiang, Dawei Tang Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

15:42-15:44 22763

Hybrid wick vapor chamber thermal performance evaluation for high heat flux application by air cooling Feng Zhou*, Tianzhu Fan, Yanghe Liu, Ercan Dede Toyota Research Institute North of America Ann Arbor, USA

15:44-15:46 23103

Numerical modeling and optimization of an electromagnetic pump towards compact driving metal coolant Xu-Dong Zhang, Yi-Xin Zhou, Xiao-Hu Yang, Si-Cong Tan, Jing Liu* Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China

74

General Sessions

15:46-15:48 23939

The enthalpy-porosity method with a rectangular specific heat curve Wim Beyne*, Bernd Ameel, Alvaro De Gracia Cuesta, Gabriel Zsembinszki, Luisa F. Cabeza, Michel De Paepe Ghent University, Belgium

15:48-15:50 23248

Design procedure for energy efficient latent heat storage tanks with heat transfer fluid channels and finite inlet power Bart Peremans*, Maarten Blommaert, Jan Diriken, Martine Baelmans Katholieke Universiteit Leuven, The Netherlands

15:50-15:52 22279

Numerical simulation of pulsating heat pipe with surfactant solutions Durga Bastakoti, Hongna Zhang*, Weihua Cai, Fengchen Li Harbin Institute of Technology, China

15:52-15:54 23107

Effect of heat transfer enhancement with jet cooling between outer and slotted inner cylinders in an electrical rotating machine Tomohisa Yuasa*, Yuto Honma, Mitsuyoshi Ejiri, Akiko Kaneko, Yutaka Abe University of Tsukuba, Japan

15:54-15:56 24060

Investigation of thermal design of heat conduction panel by topology optimization Shintaro Kajiwara, Takashi Fukue*, Takayuki Yamada, Koichi Hirose, Shinji Nishiwaki, Koichi Ohtomi, Tomoyuki Hatakeyama, Masaru Ishizuka Iwate Universtiy, Japan

15:56-15:58 22978

Experimental and numerical study on the cooling characteristics of double-wall turbine blade components with conjugate heat transfer Yi Chen*, Yingqing Zu Fudan University, China

75

General Sessions

August 12, Sunday 15:00-18:00 Room 311B

Session subject: Convection-2 (COV2) Co-Chairs: Antonio Luis Moreira & Huiying Wu

Time ID Title, Author, Affiliation

15:00-15:02 22919

Influence of channel inclination on heat transfer of liquid metal flow I. A. Belyaev*, D.Yu. Chernysh, N.A. Luchinkin, N.G. Razuvanov Joint Institute for High Temperatures of the RAS, Russia

15:02-15:04 22717

A high-order numerical simulation of 2D Rayleigh-Bénard convection with compressible Navier-Stokes equations Yaojie Yu*, Ya Liu, Feng Liu Northwestern Polytechnical University, China

15:04-15:06 23424

The change of bifurcating natural convection in a horizontal annulus by self-induced circular magnetic field Jinho Oh*, Il Seouk Park Kyungpook National University, Korea

15:06-15:08 23203

Numerical analysis of curvature effect and buoyancy effect on heat transfer characteristics of supercritical water in cooled helically coiled tubes Xingang Qi, Liejin Guo*, Hui Jin, Jiuyun Zhao, Xujun Li Xi’an Jiaotong University, China

15:08-15:10 23383

Impact of external temperature distribution on the turbulent and thermal fields in a vertical uniformly heated channel Martin Thebault*, Stéphanie Giroux-Julien, Victoria Timchenko, Christophe Ménézo, John A. Reizes The University of New South Wale, Australia

15:10-15:12

22860

Influence of substrate temperature on Marangoni convection instability in an evaporating sessile droplet at constant contact line mode Tianshi Wang*, Wanyuan Shi Chongqing University, China

15:12-15:14 21244

Experimental research of supersonic aerodynamic cooling effect and its application for higher energy separation efficiency Alexander Leontiev, Sergey Popovich*, Urii Vinogradov, Mark Strongin Lomonosov Moscow State University, Russia

15:14-15:16 24104

Local convective heat transfer in a 3×3 rod bundle Chunping Tian*, Zhiqiang Zhu, Yiwen Liu, Kuan ang, Jianjun Wang, Changqi Yan* Harbin Engineering University, China

15:16-15:18 22634

Natural convective heat transfer from two-sided heated horizontal isothermal plates having a complex shape and a finite thickness Rafiq Manna, Patrick H. Oosthuizen* Queen's University, Canada

15:18-15:20 23354

Visualization study on flow characteristics of staggered cylinder arrays in transitional flow state Wenjun Zhang, Jie Zhou, Jiahui Xu, Guannan Xi* Nantong University, China

15:20-15:22 23575

Numerical investigation on the flow around circular multiple cylinders of liquid metal Sen Chen, Xiao-Hu Yang, Jing Liu* Technical Institute of Physics and Chemistry, China

76

General Sessions

15:22-15:24 24226

Heat transfer of liquid metal flow in a tube heated on the half of the circumference-concept of a test loop Benjamin Dietrich*, Tim Laube, Luca Marocco, Thomas Wetzel Institute of Thermal Process Engineering, Germany

15:24-15:26 21477

Buoyancy driven flow within uniformly heated eccentric annulus F. M. Mahfouz, R. M. Rizk-Allah, H. Imtiaz*, Bin Liu Tsinghua University, China

15:26-15:28

24328

Numerical study for a thermal convection in a rotating spherical shell with growth of magnetic field Toshio Tagawa*, Yoshihiko Otsuka, Hiroki Shibata Tokyo Metropolitan University, Japan

15:28-15:30 23097

The influence of different air supply modes on convection heat transfer in the human body Zeqin Liu*, Yi Zhang, Hangyu Zhao Tianjin University of Commerce, China

15:30-15:32 22511

Pressure drop and heat transfer measurements of the once through steam generator helical tube bundles of high temperature gas-cooled reactors Xiaowei Li*, Jiaqing Zhao, Xinxin Wu, Xiaowei Luo Tsinghua University, China

15:32-15:34 23743

Experimental study of density-driven-convection mixing between miscible fluids in Hele-Shaw geometry Yinting Fan*, Sijia Wang, Ying Teng, Yu Liu, Lanlan Jiang*, Yongchen Song Dalian University of Technology, China

15:34-15:36

23461

Experimental investigation of convective heat transfer in the transitional flow regime of an inclined smooth tube Abubakar Idris Bashir, Josua Petrus Meyer* University of Pretoria, South Africa

15:36-15:38 22836

Numerical and experimental study of supersonic film cooling with cracking hydrocarbon fuel as coolant Jingying Zuo, Silong Zhang*, Jiang Qin, Bao Wen, Naigang Cui Harbin Institute of Technology, China

15:38-15:40 22270

Effects of multiple trapezoidal vortex generators on flow and surface cooling Jeongmoon Park, Jorge Alvarado*, Leonardo Chamorro, Charles Marsh Texas A&M University, USA

15:40-15:42 23938

Natural convection from an array of isothermal horizontal cylinders: A combined experimental and numerical investigation Seamus O'Shaughnessy, Stephen Yates, Arun Mooney, Darina Murray* University of Dublin, Trinity College, Ireland

15:42-15:44 23653

Characterization and scaling of enhanced heat transfer in heat sink channels using integrated aeroelastically fluttering reed Sourabh Jha, Ari Glezer* Georgia Institute of Technology, USA

15:44-15:46 23235

Experimental examination of transitional flow of dilute alumina-water nanofluid Sohaib Osman*, Mohsen Sharifpur, Josua Meyer University of Pretoria, South Africa

15:46-15:48 23642

Numerical simulation of natural convection melting in a cavity with a heat-generating source Nadezhda Bondareva, Mikhail Sheremet* Tomsk State University, Russia

77

General Sessions

15:48-15:50 24055

Numerical simulation of fluid flow and heat transfer in a pillow plate channel Sourabh Kumar, B. Premachandran*, P.M.V. Subbarao Indian Institute of Technology Delhi, India

15:50-15:52 23020

Forced convection thermal entrance length for simultaneously hydrodynamically and thermally developing laminar flow at a constant heat flux Marilize Everts, Josua Petrus Meyer* University of Pretoria, South Africa

15:52-15:54 23950

Rayleigh-Bénard convection in thermos dependent shear-thinning fluids T. Vare´*, C. Nouar* National Centre for Scientific Research, France

15:54-15:56 22733

Effect of injection velocity ratio on thermal-fluid diffusion in free jet from annular channel Shuichi Torii* Kumamoto University, Japan

78

General Sessions

August 13, Monday 8:30-12:20 Room 309A

Session subject: Electrochemical Systems (ECL) Co-Chairs: Camilo Rindt & Jinjia Wei

Time ID Title, Author, Affiliation

9:20-9:22 22731

Electron and ion transport within the heat generation of graphene-based supercapacitors Jing Kong, Shenghao Wu, Huachao Yang, Zheng Bo* Zhejiang University, China

9:22-9:24 23640

Experimental study on direct reforming reaction of ammonia-methane mixed fuel on Ni-YSZ anode of SOFCs Katsuyuki Teramoto*, Hiroshi Iwai, Tomohisa Kawaguchi, Masashi Kishimoto, Motohiro Saito, Hideo Yoshida Kyoto University, Japan

9:24-9:26 23786

Performance modeling and optimization of a polymer electrolyte membrane fuel cell under dead-ended anode conditions Yu-Tong Mu*, Zhao-Lin Gu, Wen-Quan Tao Xi'an Jiaotong University, China

9:26-9:28 22385

Dynamic analysis of self-startup behavior of PEM fuel cell from subfreezing temperature with consideration of super-cooled water Sen Huo, Jae Wan Park, Kui Jiao* Tianjin University, China

9:28-9:30 23823

In-situ observation of gas products around the anode and improving the performance of direct carbon fuel cells using solid carbon fuels Hirotatsu Watanabe*, Minori Nakanouchi, Takashi Shimada, Katsunori Hanamura Tokyo Institute of Technology, Japan

9:30-9:32 23190 Effects of gradient porosity and gradient particle on performances of planar SOFCs Pei Fu, Jian Yang*, Qiuwang Wang Xi'an Jiaotong University, China

9:32-9:34 23910

Numerical investigation of clamping system effects on the cold start polymer electrolyte fuel cell performance Ahmed Mohmed Dafalla, Lin Wei, Zihao Liao, Fangming Jiang* Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, China

9:34-9:36 24274

A numerical study on optimization of fibrous carbon electrodes for vanadium redox flow batteries with interdigitated flow fields Shohji Tsushima*, Takahiro Suzuki Osaka University, Japan

9:36-9:38 24118

Temperature self-control of solid oxide fuel cell running on partially pre-reformed methane Wu Yiyang, Shi Yixiang*, Cai Ningsheng Tsinghua University, China

9:38-9:40 22283

A GPU-based lattice Boltzmann model for realistic droplet flow in gas channel of fuel cells Hao Deng, Yuze Hou, Kui Jiao* Tianjin University, China

9:40-9:42 23510 Trial of applying graphene nano platelet to catalyst layers of a PEMFC Abhay Kumar*, Takumi Iiri, K. Satake, Yutaka Tabe, Takemi Chikahisa Hokkaido University, Japan

79

General Sessions

9:42-9:44 24273

Development of thermal management system of battery module using conjugated PCM and liquid cooling techniques Yang Sui, Hengyun Zhang*, Qingyu Wu, Shen Xu Shanghai University of Engineering Science, China

9:44-9:46 24145

Improving electrolyte transport inside the Li-ion porous electrodes using microchannels Shahabeddin Mohammadian, Yuwen Zhang* University of Missouri, USA

9:46-9:48 23229 Multi-physics coupled-field analysis for zinc-nickel single flow battery cell stack Shouguang Yao*, Yunhui Zhao, Zhenhao Zhang, Min Xiao, Jie Cheng, Yaju Shen Jiangsu University of Science and Technology, China

9:48-9:50 24376 Electrospun carbon nanofibers as advanced electrode for vanadium flow battery Zhihui Zhang, Bofeng Bai* Xi'an Jiaotong University, China

9:50-9:52 22462

In-situ thermal integration between H2O/CO2 co-electrolysis and thermochemistry by heat-flow design for efficient direct power-to-methane Yu Luo, Yixiang Shi*, Wenying Li, Ningsheng Cai Tsinghua University, China

80

General Sessions

August 13, Monday 8:30-12:20 Room 309B

Session subject: Multiphase Flow-1 (MPF1) Co-Chairs: Gherhardt Ribatski & Bo Yu

Time ID Title, Author, Affiliation

9:20-9:22 22303 Heat transfer of drop train impacting flowing film Xuan Gao, Ri Li* University of British Columbia, Canada

9:22-9:24 22001 The numerical simulation of hydraulic cavitation in venturi tube Z. Wang, B. Bian*, C. Liu, Z. Miao, Z. Zhao, C. Liu Qingdao University of Science & Technology, China

9:24-9:26 23967 Frost density profile measured by using X-ray radiography Yoshiki Nagasawa*, Ryosuke Matsumoto, Takuma Uechi, Daisuke Ito, Yasushi Saito Kansai University, Japan

9:26-9:28 23952

Computational study on break-up mechanisms of isolated vapour slugs during saturated flow boiling conditions Manolia Andredaki, Anastasios Georgoulas*, Daniele Mangini, Lucio Araneo, Luca Pietrasanta, Nicolas Miché, Marco Marengo University of Brighton, UK

9:28-9:30 21851 Numerical simulation of ice crystal melting along straight line Feifei Jiang, Wei Dong*, Mei Zheng Shanghai Jiao Tong University, China

9:30-9:32 22331

Lattice Boltzmann mixture model for gas-liquid flow with phase change in porous media Shurong Lei, Yong Shi*, Yuying Yan University of Nottinghamy, UK

9:32-9:34 21899

The thermo-solutal capillary-buoyancy convection at positive capillary ratio in a shallow annular pool Li-Sheng Deng, Jie-Chao Chen*, Hong-Yu Huang, You-Rong Li, Jia-Jia Yu Dongguan University of Technology, China

9:34-9:36 23525

Heat flow and temperature changes in CO2 hydrate dissociation/reformation process using DSC technique Yongchen Song, Hang Zhou, Jianan Zheng, Mingjun Yang*, Yuanping Li Dalian University of Technology, China

9:36-9:38 22146

Two-phase flow and heat transport in 3-D printed pulsating heat pipes with different channel sizes Takahiro Arai, Masahiro Kawaji* City College of New York

9:38-9:40 25099

Thermal analysis and optimisation of a latent heat storage system with parallel pipes as heat exchangers Yuan Tian*, D. Zhou Aston University, UK

9:40-9:42 23184

Influence of droplet size and surface-tension temperature coefficient on the coalescence of two droplets with different temperatures Zhibin Wang, Rong Chen*, Xun Zhu, Qiang Liao, Xuefeng He, Long Jiao Chongqing University, China

81

General Sessions

9:42-9:44 23219

Microscopic mechanisms of the disturbance frequency effect on heat transfer enhancement in wavy condensate films Luopeng Yang*, Hongyou Li, Yan Yang, Shengqiang Shen Dalian University of Technology, China

9:44-9:46 23732 Leidenfrost ice levitating on a composite liquid/vapor film Daniel Cusumano, Saurabh Nath, Jonathan Boreyko* Virginia Polytechnic Institute and State University, USA

9:46-9:48 23531

Impact of a supercooled water droplet on different temperature and contact angle cold plates Xuan Zhang, Xiaomin Wu*, Jingchun Min*, Xin Liu Tsinghua University, China

9:48-9:50 23561 Calibration and simulation of a capacitive sensor for void fraction measurements Alihan Kaya*, Marija Lazova, Steven Lecompte, Michel De Paepe Ghent University, Belgium

9:50-9:52 23368 Numerical study of heat transfer in gravity-driven particle flow nearby the tube Zhigang Guo, Xing Tian, Yingxue Hu, Jian Yang, Qiuwang Wang* Xi'an Jiaotong University, China

9:52-9:54 23342

System design and experimental investigation on high-temperature and high-pressure spray flash evaporation Can Ji, Lin Cheng*, Naihua Wang, Zhigang Liu Energy Research Institute of Shandong Academy of Sciences, China

9:54-9:56 23252

An improved algorithm for low mach number variable-density flow and numerical study on mixing of cold-water jet with supercritical bulk flow in a pipe Zhisong Ou, Liejin Guo*, Hui Jin, Shixing Zhu, Changqing Cao, Changsheng Ren Xi'an Jiaotong University, China

9:56-9:58 23947 Numerical study for forecasting the flooding flow impact on different shape of dam Alibek Issakhov*, Gulderayim Musakulova Al-Farabi Kazakh National University, Kazakhstan

9:58-10:00 23208

Lattice Boltzmann simulation of a micro molten droplet’s dynamics and solidification on a cold surface Wei Xiong, Ping Cheng* Shanghai Jiao Tong University, China

10:00-10:02 24142

Heat transfer phenomena in falling liquid films - a synergistic experimental and computational study Alexandros Charogiannis, Fabian Denner, Berend G. M. van Wachem, Serafim Kalliadasis, Christos N. Markides* Imperial College London, UK

10:02-10:04 21762

Droplet freezing on micro-textured surfaces exposed to humid air Yuan Wang*, Zhen-Guo Wang National University of Defense Technology, China

10:04-10:06 22909

Local characteristics of two-phase gas-liquid flow in T-shaped microchannel German V. Bartkus*, Vladimir V. Kuznetsov Siberian Branch of the Russian Academy of Sciences, Russia

10:06-10:08 21240

Analysis of the growth of spherical air bubbles in water due to the interfacial mass transfer by a 3D front tracking method Syed Sharif*, Mark Ho, Victoria Timchenko, Guan Yeoh University of New South Wales, Australia

10:08-10:10 22753

Numerical analysis of the effects of hypergravity on flow boiling characteristics in microchannels Yu Xu*, Guohua Li, Yuliang Yuan, Xiande Fang Nanjing University of Aeronautics and Astronautics, China

82

General Sessions

10:10-10:12 23082

A study of estimation method of flow pattern of gas-liquid two-phase by using flow sound in vertical pipe Sachiyo Horiki*, Kousuke Kokubo, Hiroyuki Higashi, Tsugue Ito, Masahiro Osakabe Tokyo University, Japan

10:12-10:14 24021

Experiment and numerical simulation on two-phase flow distribution in flute header Liping Pang*, Xiaodong Li, Liqiang Duan, Yongping Yang North China Electric Power University, China

10:14-10:16 23583

Investigation of suspended drop evaporation of different composition of liquids Elena Bochkareva*, Vladimir Terekhov, Nikolay Miskiv Siberian Branch of the Russian Academy of Sciences, Russia

10:16-10:18 21949

CFD simulation of steam condensation inside smooth inclined tube at different saturation temperatures Seyyed Mohammad Ali Noori Rahim Abadi*, Josua Petrus Meyer University of Pretoria, South Africa

10:18-10:20 22466

Numerical modeling of thermal stresses using the finite-volume method Guoxi He, Y. F. Yap, K. Kubiak, L. Liu, V. Stetsyuk, Y. T. Liang, J. C. Chai* University of Huddersfield, UK

83

General Sessions

August 13, Monday 8:30-12:20 Room 310

Session subject: Computational Methods and Simulations-2 (CMS2) Co-Chairs: Janusz Szmyd & Zhiming Xu

Time ID Title, Author, Affiliation

9:20-9:22 23515 Flow pattern and instabilities in volatile sessile droplets under evaporation Sergey Semenov, Florian Carle, Marc Medale, David Brutin* Aix-Marseille University, France

9:22-9:24 23866

Coupling process analysis on the flow and heat transfer of hydrocarbon fuel with pyrolysis and pyrolytic coking under supercritical pressures Chaofan Zhao, Xizhuo Hu, Jianqin Zhu, Zhi Tao, Hongwei Wu Beihang University, China

9:24-9:26 23262

CFD simulation of solar receiver jet impingement heat transfer: RANS vs LES Ken Craig*, Marcel Slootweg, Josua Meyer, Shane Robbins, J.C. Kotzé, N.J.M. Groble, E. Oosthuizen, T.J. Winterbach, Wilhelm Moll University of Pretoria, South Africa

9:26-9:28 23079 A numerical simulation of steam direct contact condensation Lu Yuanshu, Lu Tao* Beijing University of Chemical Technology, China

9:28-9:30 23269

Numerical analysis of transient conjugate heat transfer in HDR drilling with high-pressure liquid nitrogen jet Shikun Zhang, Zhongwei Huang*, Gensheng Li, Xianwei Dai, Chengcheng Zhang, Chao Xiong China University of Petroleum - Beijing, China

9:30-9:32 23381

Parametric study of bypass flows through inlet/outlet walls on PM deposition in hexagonal channel diesel particulate filters Satoru Sakama*, Masamichi Nakagawa, Katsunori Hanamura Tokyo Institute of Technology, Japan

9:32-9:34 22226 Investigation of heat transfer coupled large deformation using SPH Zhongyi Liu, Haisheng Fang*, Qianli Ma Huazhong University of Science and Technology, China

9:34-9:36 24170

Numerical cooling performance evaluation of reversible fan system in a raised-floor data center Zhihang Song*, Qiang Yue, Ran Wang Northeastern University, China

9:36-9:38 23155 Analysis of additive alignment in a PDMS and carbon fiber mixture flow Jun-Yub Park, Dong-Wook Oh* Chosun University, Korea

9:38-9:40 24074 An adjoint approach to thermal network topology optimization Maarten Blommaert*, Robbe Salenbien, Martine Baelmans University of Leuven, Belgium

9:40-9:42 22971 Effects of electron-phonon interactions on lattice thermal conductivity of doped SnSe Shouhang Li, Zhen Tong, Hua Bao* Shanghai Jiao Tong University, China

9:42-9:44 23630

Comparison of approximated momentum equations in dynamic models of vapor compression systems Hongtao Qiao*, Christopher Laughman Mitsubishi Electric Research Labs, USA

84

General Sessions

9:44-9:46 23111

Simulation of heat transfer in the contact line region of pure fluid and binary fluid mixture in a closed micro-cavity Xinghui Wu, Zhen Yang*, Bengt Sunden, Yuanyuan Duan Tsinghua University, China

9:46-9:48 24148 Safety assessment of hybrid heat pipe-integrated spent fuel dry storage cask Kyung Mo Kim, Yeong Shin Jeong, In Cheol Bang* Ulsan National Institute of Science and Technology, Korea

9:48-9:50 23452

Numerical investigation on conjugated heat transfer of supercritical water flow past a spherical particle Zhenqun Wu, Jingli Sun, Huifang Feng, Hui Jin*, Liejin Guo Xi'an Jiaotong University, China

9:50-9:52 23958

Numerical study of the flow and heat transfer characteristics of the falling film in the absorber Fangfang zhang*, Feifei Zheng Zhengzhou University of Light Industry, China

9:52-9:54 23314 Numerical study of heat transfer in a distorted rod bundle Kenneth Chinembiri, Shuisheng He*, Jiankang Li, Cosimo Trinca University of Sheffield, UK

9:54-9:56 21898

Numerical simulation of the thermal load characteristics of friction pairs in hydro-viscous drive Qiliang Wang, Hongwei Cui*, Zisheng Lian, Long Li Taiyuan University of Technology, China

9:56-9:58 23142

Study on microstructure evolution characteristics of aircraft icing based on phase-field method Yanxia Du*, Lei Liu, Guangming Xiao, Yewei Gui, Dong Wei, Youan Shi, Xiaofeng Yang China Aerodynamics Research and Development Center, China

9:58-10:00 24115

Investigation of the local mass transfer in a reverse osmosis desalination process with high-performance computing solutions Jiu Luo, Qing-Qing Yang, Dong-Chuan Mo, Yuan-Xiang Fu, Shu-Shen Lyu, Yi Heng* Sun Yat-sen University, China

10:00-10:02 23784

Large-scale simulations of sub-seabed CO2 storage in the form of gas hydrate Tao Yu*, Toru Sato, Guoqing Guan, Abuliti Abudula Hirosaki University, Japan

10:02-10:04 22515

Reduction of an electronic card thermal problem by the modal sub structuring method Sébastien Grosjean*, Frédéric Joly, Karine Vera, Alain Neveu, Eric Monier-Vinard University Paris Saclay, France

10:04-10:06 23373

A multiple-relaxation-time lattice Boltzmann model for natural convection in a hydrodynamically and thermally anisotropic porous medium under local thermal non-equilibrium con Wei Wu, Weixiong Wu, Shuangfeng Wang* South China University of Technology, China

10:06-10:08 21763

Sedimentation behaviors of two thermal spheres Sheng Chen*, Bo Yang, Wei Gong, Yuying Yan University of Notttingham, UK

10:08-10:10 22244

A fractional-step lattice Boltzmann method for solid-liquid phase change Dong Li, Ming-Jia Li*, Ya-Ling He, Wen-Quan Tao Xi'an Jiaotong University, China

10:10-10:12 22881

Influence of gas injection on heat transfer in the vicinity of hemispherical model Ivan Vladimirovich Egorov, Natalia V. Palchekovskaya* Central Aerohydrodynamic Institute, Russia

85

General Sessions

10:12-10:14 23016

Interaction of collimated beam radiation with natural convection in 2D-geometry Chandrasekhara Pratap G. C, Pradeep Kumar* Indian Institute of Technology Mandi, India

86

General Sessions

August 13, Monday 8:30-12:20 Room 311A

Session subject: Bio and Medical Applications (BMA) Co-Chairs: Bengt Sundén & Xun Zhu

Time ID Title, Author, Affiliation

9:20-9:22 22947

Internal temperature field estimation in water-filtered infra-red-A (WIRA) hyperthermia of breast cancer from skin surface temperature measurements Bernard Lamien*, Helcio R. B. Orlande Federal University of Rio de Janeiro, Brazil

9:22-9:24 22959

Numerical simulation of fluid and heat transfer in biological tissue containing the exact structure of microvascular network based on immersed boundary method Tang Yuanliang, Ying He* Dalian University of Technology, China

9:24-9:26 23497 Motion-robust blood perfusion sensing by LDF with focus control Hashimoto. Masaaki*, Taguchi. Yoshihiro Keio University, Japan

9:26-9:28 22900 Measurement and computational experiments within newborn’s brain cooling process Dominika Bandoła, Andrzej Nowak*, Ziemowit Ostrowski, Marek Rojczyk, Wojciech Walas Silesian University of Technology, Poland

9:28-9:30 21406 Application of a short pulse laser to the human skin João Freire, Pedro Coelho* The University of Lisbon, Portugal

9:30-9:32 24161 Effect on autoregulation of the atertial blood flow during hyperthermia Yabo Wang*, Kai Zhu, Jinshan Wang, Yanqi Xie Tianjin University of Commerce, China

9:32-9:34 22276

Mathematical modeling of thermal processes during ophthalmic laser surgeries by a local non-thermal equilibrium two-temperature model Yibo Zhao, Dong Li, Bin Chen* Xi'an Jiaotong University, China

9:34-9:36 21923

The effect of the cluster’s size on hyperthermia heating ferrofluids of superparamagnetic nanoparticles clusters Rong Fu, Y.Y. Yan*, C. Roberts, Z.Y. Lu, Y.Y. Chen University of Nottingham, UK

9:36-9:38 22842

Thermal characteristics measurement of fibrin reaction and clot formation in venous thrombus using microchannel flow Kazuya Tatsumi*, Yusuke Yamamoto, Atsunori Yanamoto, Hideo Hirakata, Naoko Sugita, Kyo Inoue, Reiko Kuriyama, Kazuyoshi Nakabe Kyoto University, Japan

9:38-9:40 22742

Direct numerical simulation of long-range cell manipulation with AC electrokinetics by immersed-boundary lattice Boltzmann method Qinlong Ren, Fanlong Meng, Cho Lik Chan* The University of Arizona, USA

9:40-9:42 21811 Layout optimization of passive micro mixers with cylindrical obstacles Seetharaman S, madhumitha R, Muniyandi Venkatesan, Arcot Balakrishnan* SASTRA University, India

87

General Sessions

9:42-9:44 22419

Thermal conductivity of PAAM hydrogel and its crosslinking effect Ni Tang, Zhan Peng, Rulei Guo, Meng An*, Xiandong Chen, Xiaobo Li, Nuo Yang, Jianfeng Zang Huazhong University of Science and Technology, China

9:44-9:46 23394 Heat generation in irradiated solutions containing magnesium nanoparticle aggregates Xi Gu*, Victoria Timchenko, Zachary Clift, Michael Jackson, Jing Liu, Wei Rao The University of New South Wales, Australia

9:46-9:48 22069

Magnetic resonance thermometry during the localized heating of biological tissues César C. Pacheco*, Helcio R. B. Orlande, Marcelo J. Colaço, George S. Dulikravich, Leonardo A. B. Varonl Federal University of Rio de Janeiro, Brazil

9:48-9:50 22590 Study of enhanced radiofrequency heating with pre-freezing in tissue Kangwei Zhang, Jincheng Zou, Aili Zhang* Shanghai Jiao Tong Universitity, China

9:50-9:52 23277

Effects of partical size and density on inhaled aerosol deposition in human lungs: Fate, mechanism, and efficiency Qihong Deng*, Qingmei Wen, Linjing Deng, Cuiyun Ou, Xilong Guo Central South University, China

88

General Sessions

August 13, Monday 9:20-12:20 Room 311B

Session subject: Condensation-2 (COD2) Co-Chairs: Chengwang Lei & Xuehu Ma

Time ID Title, Author, Affiliation

9:20-9:22 23481

Scalable-manufacturing of biphilic condensation surfaces with randomized hydrophilic nano-bumps Yuhe Shang, Youmin Hou, Shuhuai Yao* Hong Kong University of Science and Technology, Hongkong, China

9:22-9:24 22451 Retarded frost spreading on superhydrophobic surfaces with patterned micropillars Yugang Zhao, Charles Yang* Nanyang Technological University, Singapore

9:24-9:26 23512 Drop mobility on superhydrophobic surfaces with wettability contrasts Yutaku Kita*, Coinneach Dover, Alexandros Askounis, Yasuyuki Takata, Khellil Sefiane Kyushu University, Japan

9:26-9:28 22157

Coalescence-induced droplet jumping on hydrophilic nanoengineered surfaces Xiao Yan*, Feng Chen, Soumyadip Sett, Lezhou Feng, Junho Oh, Hyeongyun Cha, Longnan Li, Zhiyong Huang, Nenad Miljkovic* Tsinghua University, China

9:28-9:30 21456 Convective dropwise condensation of humid air Ferdinand Eimann*, Shaofei Zheng, Christian Philipp, Ulrich Gross Freiberg University of Mining and Technology, Germany

9:30-9:32 23135

Evaluation of condensation heat transfer correlations for the annular flow regime in microfin tubes Zhichuan Sun, Li Wei*, Wei Chen, Yan He Zhejiang University, China

9:32-9:34 23874

Condensation heat transfer and pressure drop characteristics of R-134a in horizontal smooth tubes and enhanced tubes fabricated by SLM Xuwen Wang*, Jin Yao Ho, Kai Choong Leong, Teck Neng Wong Nanyang Technological University, Singapore

9:34-9:36 22500

R410A and its low-GWP substitute R32 condensation inside a 4 mm horizontal smooth tube Giovanni A. Longo*, Simone Mancin, Giulia Righetti, Claudio Zilio University of Padua, Italy

9:36-9:38 23745 Effects of surface orientation on jumping-droplet condensation Ranit Mukherjee, Austin Berrier, Joshua Vieitez, Kevin Murphy, Jonathan Boreyko* Virginia Polytechnic Institute and State University, USA

9:38-9:40 22878

Experimental investigation on heat transfer coefficents and frictional pressure drop during R134a condensation inside a plate fin heat exchanger with wavy fins RamanaMurthy Katabathuni*, Chennu Ranganayakulu, Ashok TP, Luo Xing Aeronautical Development Agency, India

9:40-9:42 22455

Heat transfer and pressure drop characteristics of high temperature condensation of R245fa and R1233zd in a plate heat exchanger Ji Zhang*, Brian Elmegaard, Fredrik Haglind Technical University of Denmark, Denmark

89

General Sessions

9:42-9:44 21557

Effects of inlet pressure on condensation characteristics of CH4-CO2 mixture in laval nozzle Jiang Bian, Xuewen Cao*, Wenming Jiang, Pengbo Yin, Danyang Hou China University of Petroleum, China

9:44-9:46 23614 Prescription for use of vapor explosion retardant into salt water Masahiro Furuya*, Takahiro Arai Central Research Institute of Electric Power Industry, Japan

9:46-9:48 24079

Condensation heat transfer of R-134a on single horizontal three-dimensional structured tubes Ruben Steinhoff*, Xing Luo, Stephan Kabelac Leibniz University Hanover, Germany

9:48-9:50 23656 Gravitationally-driven wicking condensation Daniel J. Preston*, Kyle Wilke, Zhengmao Lu, Yajing Zhao, Laura Becerra, Evelyn N. Wang Massachusetts Institute of Technology, USA

9:50-9:52 23150

Forced convection condensation of steam in the presence of a noncondensable gas-a numerical model Valerij Artemov, Konstantin Minko*, Georgij Yan’kov, Oleg Milman Moscow Power Engineering Institute, Russia

9:52-9:54 23176

Condensation pressure drop characteristic of R410A inside horozontal three-dimensional enhanced tubes Rui-Heng Guo, Zhi-Chuan Sun, Wei Li*, Yan He, Wei Chen Qingdao University of Science and Technology, China

9:54-9:56 22467 HFO 1234ze(E) condensation inside a mini microfin tube with 4.0 mm OD Andrea Diani, Luisa Rossetto* University of Padua, Italy

9:56-9:58 23496

Optimization of structure on condensation on superhydrophobic surfaces (SHSs) and slippery lubricant-infused porous surfaces (SLIPSs) Daniel Orejon*, Yota Maeda, Fengyong Lv, Peng Zhang, Yasuyuki Takata Kyushu University, Japan

9:58-10:00 22811 Flow condensation heat transfer characteristics of methane and ethane Qinglu Song, Gaofei Chen, Zhiqiang Yang, Hanwen Xue, Maoqiong Gong* Technical Institute of Physics and Chemistry, China

10:00-10:02 22136

Heat transfer analysis during jet impingement on metal plates Yuan Fang*, Eckehard Specht Otto Von Guericke University, Germany

10:02-10:04 22837

Adhesion energy per unit area of various liquid droplets on PMMA, Parylene C, and PPFC coated flat solid surfaces Shun Jin*, Ji Hwan Jeong Pusan National University, Korea

10:04-10:06

24085 Growth mechanism of single droplet on the nanocone structured surface Xuan Xiao, Xueliang Fan*, Yinnan Yuan Soochow University, China

90

General Sessions

August 14, Tuesday 8:30-12:20 Room 309A

Session subject: Boiling and Evaporation-3 (BAE3) Co-Chairs: Khellil Sefiane & Xinlin Xia

Time ID Title, Author, Affiliation

9:20-9:22 24595

Heat transfer investigation on a single artificial nucleate site: influence of the wall orientation on the bubble behavior Mohammed Zamoum*, Herve Combeau, Lounes Tadrist University M'Hamed Bougara of Boumerdes, Algeria

9:22-9:24 23136 Study on liquid-gas interface at nanoscale using transmission electron microscopy Yoko Tomo, Alexandros Askounis, Khellil Sefiane, Yasuyuki Takata, Koji Takahashi* Kyushu University, Japan

9:24-9:26 22274

Fractal heat transfer model for pool boiling on micro-pin-finned surfaces in microgravity Baojin Qi*, Ting Yu, Jinjia Wei, Yonghai Zhang, Xueli Wang Xi’an Jiaotong University, China

9:26-9:28 23421 Experimental investigation of two-phase flow boiling inside porous media Sonja Weise*, Thomas Wetzel, Benjamin Dietrich Karlsruhe Institute of Technology, Germany

9:28-9:30 22863

Effect of surface temperature and ambient pressure on water droplets behaviors on heated surface Xingjian Yu, Xiaoyu Zhang, Bin Xie, Bofeng Shang, Ruikang Wu, Run Hu, Xiaobing Luo* Huazhong University of Science and Technology, China

9:30-9:32 25156

Perturbation analysis of a strongly vaporizing rotating particle in a linear temperature field Dejuan Kong, Satwindar Sadhal* University of Southern California, USA

9:32-9:34 23286

Study on heat and mass transfer characteristics of proton exchange membrane (PEM) fuel cell based on water evaporation effect in membrane Chaoling Han, Zhenqian Chen* Southeast University, China

9:34-9:36 22898

Experimental study of the non-stationary heat flux effect on the onset of nucleate boiling and maximum bubble diameters in the subcooled boiling flow A. A. Levin*, P.V. Khan Melentiev Energy Systems Institute, Russia

9:36-9:38 23974

The two-layers composite structure of biomimetic copper forest and honeycomb-like porous structure to enhance pool boiling performance-submit Yaqiao Wang, Jiali Luo, Yi Heng, Xizhe Huang, Dongchuan Mo*, Shushen Lyu Sun Yat-sen University, China

9:38-9:40 23634 Capillary evaporation and boiling heat transfer on hybrid wicking structures Rongfu Wen, Shanshan Xu, Yung-Cheng Lee, Ronggui Yang* University of Colorado, USA

9:40-9:42 22743

Numerical simulation of bubble dynamics and heat transfer during nucleate boiling of FC-72 by using the 3D-VOSET method Zhizhu Cao, Dongliang Sun*, Jinjia Wei, Bo Yu* Beijing Institute of Petrochemical Technology, China

91

General Sessions

9:42-9:44 23632 Numerical study of bubble dynamics on surface with switchable wettability Lei Zhang, Tao Wang*, SeolHa Kim, Yuyan Jiang* Institute of Engineering Thermophysics, China

9:44-9:46 22906 High heat flux flow boiling of water and dielectric coolant in parallel microchannels Vladimir Kuznetsov*, Alisher S. Shamirzaev Siberian Branch of Russian Academy of Sciences, Russia

9:46-9:48 22314

The effect of surface roughness on evaporation of condensate droplets at structured surfaces Xuemei Chen*, Qiang Li, Shuhuai Yao, Zuankai Wang Nanjing University of Science and Technology, China

9:48-9:50 23586 Nucleate pool boiling heat transfer on a titania nanotube-coated surface Simiao Fan, Wei Tong, Jun Luo, Fei Duan* Nanyang Technological University, Singapore

9:50-9:52 22954

Estimation of local concentrations and visualization of boiling behaviors at high heat fluxes in saturated pool boiling of 2-propanol/water mixtures Hiroto Sakashita* Hokkaido University, Japan

9:52-9:54 22820

Nanoparticulate deposition on roughened copper surfaces via nanofluid pool boiling Simone Mancin*, Luca Doretti, Taylor Allred, Justin A. Weibel, Giulia Righetti, C. Zilio, Giovanni Longo University of Padova, Italy

9:54-9:56 22238 Experimental study on evaporation characteristics of meniscus Shu Soma, Tomoaki Kunugi*, Takehiko Yokomine, Zensaku Kawara Kyoto University, Japan

9:56-9:58 23549

Saturated flow boiling of R410A in various multiport-tubes with rectangular microchannels Nguyen Ba Chien, Pham Quang Vu, Choi-Kwang Il, Jong-Taek Oh*, Honggi Cho Chonnam National University, Korea

9:58-10:00 22705

Analysis of temperature uniformity and measurement of boiling curve in transition boiling on a large surface consists of five parts Yoshihiko Haramura*, Yutaro Ishikawa Kanagawa University, Japan

10:00-10:02 22247

Study of the factors affecting the temperature field distribution during droplet evaporation Liu Bin*, Chai Lin, Chen Aiqiang, Rachid Bennacer, K. Sefiane Tianjin University of Commerce, China

10:02-10:04 23315

Investigating the relationship between surface wickability and critical heat flux during pool boiling Youngsup Song*, Yangying Zhu, Daniel J. Preston, H. Jeremy Cho, Zhengmao Lu, Evelyn N. Wang Massachusetts Institute of Technology, USA

10:04-10:06 23399

Bubble dynamics and pool boiling performance on biphilic patterned surfaces Dong Il Shim, Geehong Choi, Donghwi Lee, Namkyu Lee, Hyung Hee Cho* Yonsei University, Korea

10:06-10:08 23509

Revisiting the scriven theory of bubble growth in superheated water Jyoti Bhati, Hari Desai, Swapan Paruya* NIT Durgapur, India

10:08-10:10 22327

Nonsteady film boiling of subcooled water-ethanol mixtures Arslan Zabirov, Pavel Kanin*, Victor Yagov NRU MPEI, Russia

92

General Sessions

93

General Sessions

August 14, Tuesday 8:30-12:20 Room 309B

Session subject: Heat Transfer Enhancement-3 (HTE3) Co-Chairs: Terrence Simon & Zhiguo Qu

Time ID Title, Author, Affiliation

9:20-9:22 23349

Numerical analysis of electro-hydro-dynamic (EHD) natural convection heat transfer in horizontal cylindrical annuli Tian-Fu Li, Jian Wu, Kang Luo, Hong-Liang Yi* Harbin Institute of Technology, China

9:22-9:24 22297

Metal foams: Novel materials for air cooling and heating application-performance under dry, wet and frosting conditions Kashif Nawaz*, Anthony Jacobi Oak Ridge National Laboratory, USA

9:24-9:26 22275

Effect of ZnO shape on the thermal conductivity and viscosity of ethylene glycol based nanofluids Wei Yu*, Junshan Yin, Yu Qi, Huaqing Xie Shanghai Polytechnic University, China

9:26-9:28 23884

Effect of inclined angle of pin arrays on flow and heat transfer characteristics in flow channel P. Narato, P. Vessakosol, M. Wae-hayee, M. Z. Abdullah, Chayut Nuntadusit* Prince of Songkla University, Thailand

9:28-9:30 23542

Supercritical-pressure conjugate heat transfer of aviation kerosene with fuel pyrolysis in ribbed tube Keke Xu, Xing Sun, Hua Meng* Zhejiang University, China

9:30-9:32 24138

Study of temperature stratification regimes for graduated suction of a gas from a supersonic flow Alexander Leontiev, Valery Lushchik, Mariia Makarova* Lomonosov Moscow State University, Russia

9:32-9:34 22214 Numerical analysis and optimization of supersonic mixing with instability excitation Ying Huai*, Joseph Liu Dalian Institute of Chemical Physics, China

9:34-9:36 22002

Enhancement of forced convection heat transfer in mini and micro channels by liquid-liquid phase separation of lower critical solution temperature systems Idan Shem Tov, Wei Xing, Vered Segal, Irina Vishnevetsky, Yingying Wang, Yoav Peles, Neima Brauner, Amos Ullmann* Tel-Aviv University, Israel

9:36-9:38 23607

Multi-objective optimization of air side structure of shuttle shaped fin gas cooler based on response surface analysis Zunchao Liu, Ke Wang*, Yongqing Wang, Guofeng Tan, Shupei Zhao, Minshan Liu Zhengzhou University, China

9:38-9:40 24075

Large-scale experimental investigation of heat transfer augmentation technique in gas-heated channels Dmitri Neshumayev*, Tõnu Pihu, Alar Konist, Andres Siirde Tallinn University of Technology, Estonia

9:40-9:42 23713

Modeling and numerical analysis of an S pattern small diameter tube bundle ammonia water falling film absorber Shuai Du*, Ruzhu Wang Shanghai Jiao Tong University, China

94

General Sessions

9:42-9:44 22631 The mechanism of convective heat transfer produced by transverse vortices Yongheng Zhang*, Liang-Bi Wang Lanzhou Jiaotong University, China

9:44-9:46 23228

Effects of rotation angle of teardrop-shaped dimples on heat transfer enhancement of airfoil internal cooling investigated by transient technique A.K.M. Nazrul Islam*, Akira Murata, Katsumi Oho, Shohei Yamamoto, Kaoru Iwamoto Tokyo University of Agriculture and Technology, Japan

9:46-9:48 23670 Optimal control of heat and fluid flow in a channel flow at low Reynolds numbers Arjun J*, Yukinori Kametani, Kimio Kohara, Tatsuya Yoshida, Yosuke Hasegawa The University of Tokyo, Japan

9:48-9:50 22916

Numerical study of 3D turbulent flow and local heat transfer near a cylinder introduced into the free-convection boundary layer on a vertical plate Alexander Levchenya, Evgueni M. Smirnov, Varvara Zhukovskaya* Peter the Great St.Petersburg Polytechnic University, Russia

9:50-9:52 23207

Three dimensional flow around a square cylinder confined in a plane channel with transverse magnetic field Long Chen, Mingjiu Ni* University of Chinese Academy of Sciences, China

9:52-9:54 23615

Multi-objective optimization of a heat exchanger using the discrete adjoint method Mahening Citra Vidya*, M. J. M. Hannink, N.A. Beishuizen, David de Kleine, Theo H. Van der Meer University of Twente, The Netherlands

9:54-9:56 23165

The enhanced thermal properties of ternary carbonates nanofluids with optimal concentration of SiO2 nanoparticles Lixia Sang*, Wenming Ai Beijing University of Technology, China

9:56-9:58 23329 Phase separation enhanced heat transfer via the ouzo drop Todd Otanicar*, Gary Rosengarten, Xuehua Zhang The University of Tulsa, USA

9:58-10:00 23149

Local and global heat transfer characteristics inside a rectangular channel of 1:10 aspect-ratio with ribbed surfaces Alfonso Niro*, Pasqualino Gramazio, Luigi Vitali, Damiano Fustinoni Polytechnic University of Milan, Italy

10:00-10:02 22479

A comparison study on heat transfer enhancement of phase change materials by adding carbon materials with different microstructures Nan Zhang, Yanxia Du*, Guangming Xiao, Yewei Gui, Yanping Yuan China Aerodynamics Research and Development Center, China

10:02-10:04 22833

Heat transfer enhancement using ferrofluidic plug flow in microchannels Nicolette Gan Jia Gui*, Cameron Stanley, Gary Rosengarten RMIT University, Australia

10:04-10:06 23057

Heat transfer of impinging jet at low Reynolds number Vadim V. Lemanov*, Victor I. Terekhov, Vladimir V. Terekhov Kutateladze Institute of Thermophysics SB RAS, Russia

10:06-10:08 22891

Influence of pulsating flow on thermal characteristics in a triangular sharp edged wavy channel Dipak Sen*, Rakesh Kumar, Kapil Dev NIT Arunachal Pradesh, India

10:08-10:10 23904

Investigation of the heat transfer enhancement from jet film heating on aero-engine nose cone Xing Tang, Peng Ke*, Yi Lu, Huiyun Yang Beihang University, China

95

General Sessions

August 14, Tuesday 8:30-12:20 Room 310

Session subject: New Energy and Efficiency-2 (NEE2) Co-Chairs: Chun Yang & Jing Ding

Time ID Title, Author, Affiliation

9:20-9:22 23870 Performance analysis of a lunar based solar thermal power system with static converters Xiaochen Lu*, Chao Wang, Rong Ma, Qinggong Wang, Wei Yao China Academy of Space Technology, China

9:22-9:24 23148 Temporal variation of the thermal stratification in the cold leg during emergency core cooling injection Ulrich Bieder*, Maria Giovanna Rodio Commissariat a l'Energie Atomique, France

9:24-9:26 22112 Experimental study of heat transfer and pressure drop in a multistring based direct contact heat exchanger Zezhi Zeng*, Abolfazl Sadeghpour, Sungtaek Ju University of California, USA

9:26-9:28 23415 Study on underground heat exchanger for ground source heat pump that use direct expansion method Shuhei Ishiguro*, Tetsuaki Takeda University of Yamanashi, Japan

9:28-9:30 22357 A new procedure of hydrothermal liquefaction of microalgae after different thermochemical pre-treatments Mikhail Vlaskin, Nadezhda Chernova, Sophia Kiseleva, Leonid Dombrovsky* Joint Institute for High Temperatures, Russia

9:30-9:32 22293 High surface temperature gas-solid (Fe3O4 and H2O/CO2) interfacial reaction characteristics Bachirou Guene Lougou, Yong Shuai*, Dongmei Han, Xing Huang, Heping Tan Harbin Institute of Technology, China

9:32-9:34 22353 Theoretical and experimental evaluation of radiative heat transfer of nuclear packed pebble beds Hao Wu*, Nan Gui, Xingtuan Yang, Jiyuan Tu, Shengyao Jiang Tsinghua University, China

9:34-9:36 22480 Experimental and simulation thermal analysis for staged co-incineration of solid and liquid waste in rotary kiln Bin Zhang*, Weitong Liu, Shang Li Qingdao University of Science and Technology, China

9:36-9:38 22158 Experimental and simulation investigation of propane as a refrigerant for heat pump water heaters Ann Lee*, Ngai Ming Kwok Macquarie University, Australia

9:38-9:40 23177 Numerical investigation on the heat extraction performance of coaxial borehole heat exchanger geothermal system Xianzhi Song*, Gaosheng Wang, Yu Shi, Rui Zheng, Jiacheng Li China University of Petroleum-Beijing, China

96

General Sessions

9:40-9:42 22236

Intermediate temperature solar thermal collector enabled by non-evacuated transparent aerogel and non-tracking compound parabolic concentrator Lin Zhao, Bikram Bhatia, Thomas Cooper, Elise Strobach, Sungwoo Yang, Lee A. Weinstein, Gang Chen, Evelyn N. Wang* Massachusetts Institute of Technology, USA

9:42-9:44 22549 Thermodynamic analysis of a heat pump-integrated PEMFC-based micro-CHP system Fei Yang, Nianzhi Huang, Qie Sun*, Lin Cheng, Ronald Wennersten Shandong University, China

9:44-9:46 23330 Hybrid solar energy/desalination using spectrally selective membrane distillation Todd Otanicar*, Bryan Kinzer, Kirk Smith The University of Tulsa, USA

9:46-9:48 23338 Optimal gas-liquid ratio for maximum heat transfer through heat-source-tower Hao Li*, Jun Zhao, Minxia Li, Shuai Deng, Yingling Li Tianjin University, China

9:48-9:50 23877 Fabrication of surface microstructures based on spinodal decomposition for high-temperature solar selective absorbers Makoto Shimizu*, Toshiro Abe, Fumitada Iguchi, Hiroo Yugami Tohoku University, Japan

9:50-9:52 22828 Experimental and numerical study of the oxide/water-nanofluids as optical filter and coolant in a PV/T panel Huafeng Li, Jianbo Bai*, Xu Xia, Ziqiang Huang Hohai University, China

9:52-9:54 24016 Thermal and fluid dynamic analysis of a solar chimney integrated in a building façade Bernardo Buonomo, Furio Cascetta, Luca Cirillo, Oronzio Manca*, Sergio Nardini University Studies of Campania "Luigi Vanvitelli", Italy

9:54-9:56 23192 High-performance plasmonic selective absorbers for high-efficient and large-scale solar-thermal conversion Yang Li, Dezhao Li, Cheng Chi, Baoling Huang* The Hong Kong University of Science and Technology, HongKong, China

9:56-9:58 23677 Optical property of nanoparticles with a dielectric core and a metallic shell Caiyan Qin, Bong Jae Lee* KAIST, Korea

9:58-10:00 24137 Heat and mass transfer performance research on multi-effect vertical tubular solar stills with gravity feed for single family use Zehui Chang*, Yang Liu, Jianye Li, Wenlong Li, Hongfei Zheng Inner Mongolia University of Technology, China

10:00-10:02 24311

Numerical research on the LNG bubble growth under flash boiling Min Xiao*, Yu Fu, Shouguang Yao, Xingxing Zhou Jiangsu University of Science and Technology, China

10:02-10:04 24168

Numerical simulation on flow and heat transfer characteristics of methane carbon mixture flow under concentrated solar radiation Qunzhi Zhu*, Bowei Yao, Quan Sun Shanghai University of Electric Power, China

10:04-10:06 23674

Effect of temperature in water treatment pohotoreactors with TiO2-coated fluoropolymer beads Arata Myoga, Kazuki Daigo, Noriyuki Unno, Shin-Ichi Satake*, Kazuhisa Yuki, Yohji Seki, Jun Taniguchi Tokyo Univeristy of Science, Japan

97

General Sessions

10:06-10:08 22952

Numerical analysis of packed bed reaction of calcium hydroxide pellets for thermochemical energy storage Shigehiko Funayama*, Massimiliano Zamengo, Jun Kariya, Keiko Fujioka, Yukitaka Kato Tokyo Institute of Technology, Japan

10:08-10:10 24190

Can buildings be more intelligent than users? - The role of intelligent supervision concept integrated into green building predictive control Yahya Sheikhnejad*, Diogo Goncalves, Monica Oliveira, Nelson Martins University of Aveiro, Portugal

10:10-10:12 24442

Solar evaporation via nanofluids and porous media: A comparative study Aimen Zeiny*, Dongsheng Wen* University of Leeds, UK

10:12-10:14 24010

Heat loss analysis for a cavity solar receiver Tamryn Wolff*, Willem Gabriel le Roux, Josua Petrus Meyer University of Pretoria, South Africa

98

General Sessions

August 14, Tuesday 8:30-12:20 Room 311A

Session subject: Manufacturing/MHD and Plasma (MMP) Co-Chairs: S. A. Sherif & Mo Yang

Time ID Title, Author, Affiliation

9:20-9:22 22647 Thermal analysis and optimization of graphene deposition in a roll-to-roll plasma CVD process Majed Alrefae, Timothy Fisher* Purdue University, USA

9:22-9:24 23238 Comparison of two magnetic field approaches on the heat transfer and fluid flow in plasma arc welding Yan Li, Yanhui Feng*, Xinxin Zhang, Chuansong Wu China University of Petroleum-Beijing, China

9:24-9:26 22738 Laser beam welding of maraging steel 250 joints experimental and analytical thermal research Anton Zak*, Amiram Leitner, Amnon Shirizly, Reuven Katz Rafael, POB, Israel

9:26-9:28 22737 Tridimensional numerical simulations of helicoidal MHD pumps Gabriel L. Verissimo*, César C. Pacheco, Marcelo Jose Colaco, Albino J. K. Leiroz, Manuel Ernani C. Cruz, Hugo F. L. Santos, Marcelo Defilippo Federal University of Rio de Janeiro, Brazil

9:28-9:30 23119 Kinetic simulation of thermo-field emission at atmospheric micro discharges Li Sun, Wen Zhou, Wei Jiang, He-Ping Li, Zeng-Yao Li* Xi’an Jiaotong University, China

9:30-9:32 21987 Numerical study and process optimization of glass fiber draw furnace in optical fiber manufacturing system Gia Carandang, Ho Sang Kwak, Kyoungjin Kim* Kumoh National Institute of Technology, Korea

9:32-9:34 23116 Simulation of heat transfer characteristics between airflow and electrodes in hypersonic magnetohydrodynamic generator Zhi-Hong Wang, Di Li, Zeng-Yao Li* Xi’an Jiaotong University, China

9:34-9:36 20918 Study of interaction of pulsed jets generated by atmospheric discharge Victor V. Kuzenov, Liya R. Khabirova, Eugeni S. Studennikov* Bauman Moscow State Technical University, Russia

9:36-9:38 22871 Effect of external magnetic field on natural convection in a cubical cavity filled with nano particle suspension. Desh Deepak Dixit, Arvind Pattamatta* Indian Institute of Technology, Madras, India

9:38-9:40 22416

Measurement of ice adhesion force on nano scale by scanning probe microscope (Influences of surface temperature and surfactant on ice adhesion force to copper) Junnki Sakamoto, Koji Matsumoto*, Kohei Ehara, Jun Ueda Chuo University, Japan

9:40-9:42 22319

Microfluidic fabrication of heptadecane microcapsules via a O\O\W three-phase emulsion route Jun Li*, Ying Chen, Longjian Li, Lisi Jia, Yiang Li, Wei Cui, Jiacheng Wang Chongqing University, China

99

General Sessions

9:42-9:44 23697

Numerical simulation of thermo-mechanical coupled behavior of clad tube under simulated intermediate break LOCA Ashwini Kumar Yadav*, Chan Lee, Sung-Uk Lee, Chang-Hwan Shin, Hyo-Chan Kim Korea Atomic Energy Research Institute, Korea

9:44-9:46 23963

Increase in concentration ratio of a rooftop parabolic trough using a secondary flat reflector David Rodriguez-Sanchez*, Gary Rosengarten Royal Melbourne Institute of Technology, Australia

9:46-9:48 22977 Modulating the thermal conductivity of graphene aerogels by including bulk MoS2 Feng Gong*, Wenbin Yang, Dawei Xia, Hai Duong, Dimitrios Papavassiliou University of Electronic Science and Techonology of China, China

100

General Sessions

August 14, Tuesday 9:20-12:20 Room 311B

Session subject: Thermophysical Property Measurements-2 (TPM2) Co-Chairs: Ri Li & Dawei Tang

Time ID Title, Author, Affiliation

9:20-9:22 23906 A novel experimental method for temperature measurement of high power diode laser Zeng Deng, Jun Shen*, Wei Dai, Ke Li, Wenchi Gong, Zhiqiang Yang, Maoqiong Gong University of Chinese Academy of Sciences, China

9:22-9:24 22081 3ω independent detector based on sapphire substrate Zheng Xinghua, Yue Peng, Li Shen, Yang Xiao, Chen Haisheng* Insitute of Engineering Thermophysics, Chinese Academy of Sciences, China

9:24-9:26 23814 Molecular dynamics simulation of nanoscale friction for natural rubber and probe Yuanzheng Tang, Guoqing Liu, Lianxiang Ma, Yan He*, Li Liu Qingdao University of Science and Technology, China

9:26-9:28 22104

The convective heat transfer coefficient in flighted rotary drums Jakob Seidenbecher*, Claudia Meitzner, Fabian Herz, Siegmar Wirtz, Alexander Berndt, Viktor Scherer Otto von Guericke University Magdeburg, Germany

9:28-9:30 25307 A non-contact method for sensing internal temperature distributions in heat materials Wei Dong, You-An Shi, Bin Hu*, Bi-Nan Shou, Ye-Wei Gui, Yan-Xia Du China Aerodynamics Research and Development Center, China

9:30-9:32 24286

A device for measuring thermal conductivity with a drop of liquid Takanobu Fukunaga, Yousuke Okuno, Keisuke Kitamura, Haidong Wang, Kosaku Kurata, Hiroshi Takamatsu* Kyushu University, Japan

9:32-9:34 23571

Experimental investigation on measurement of thermal radiation of hydrocarbon diffusion flames in air and oxy-combustion atmosphere Chun Lou*, Zhongnong Zhang, Dengmei Yu, Yanni Shi Huazhong University of Science and Technology, China

9:34-9:36 23416

Magnetic resonance imaging for observation of methane hydrate reformation near wellbore using depressurization Zheyuan Liu, Mingjun Yang*, Yongchen Song Dalian University of Technology, China

9:36-9:38 24087

Temperature distribution measurement using ratio of scattered light intensities from thermo-chromic liquid crystal: Uncertainty evaluation Daisuke Kokui*, Koji Toriyama, Shigeru Tada, Koichi Ichimiya, Shumpei Funatani University of Yamansashi, Japan

9:38-9:40 22645

Experimental investigation of boundary layer flow in a smooth rotating channel with walls heated Shengjun Zhou, Haiwang Li, Ruquan You*, Zhi Tao, Hongwei Wu Beihang University, China

9:40-9:42 24061 Vortex induced transport phenomena in flows past micropins Shigang Zhang, Neil Cagney, Stavroula Balabani, Manish Tiwari* University College London, UK

9:42-9:44 23797

A computing method to estimate pore size in porous materials based on capillary penetration observation Hongru Li, Xu Cheng, Yan Chen, Wenjing Du, Baokui Yi, Gongming Xin* Shandong University, China

101

General Sessions

9:44-9:46 23567

Drop-solid retention forces Semih Gulec, Sakshi B. Yadav, Sirui Tang, Aisha Leh, Lan Dang, Hartmann E. N'guessan, Priyanka Wasnik, Ratul Das, Preeti Yadav, Prashant Bahadur, Yagna Bhimavarapu, Appu Vinod, Akash Jena, Rafael Tadmor* Ben-Gurion University of the Negev, Israel

9:46-9:48 23584

The influence of related parameters to thermal conductivity determination via time-domain thermoreflectance method under high pressure Xinwei Wang, Zhongyin Zhang, Fangyuan Sun*, Xue Xiong, Zhe Chen, Hang Zhang, Yongfu Liang, Yuyan Jiang, Dawei Tang* Institute of Engineering Thermophysics, China

9:48-9:50 23430

Thermal conductivity enhancement of phase change nanocomposite in solid and liquid state with nano carbon inclusions Sivasankaran Harish, Daniel Orejon, Yasuyuki Takata, Masamichi Kohno* Kyushu University, Japan

9:50-9:52 22345 Size-dependent thermal conductivity of suspended monolayer graphene Ruixia Su, Weigang Ma, Xing Zhang* Tsinghua University, China

9:52-9:54 24018

Size effect on the thermal conductivity of octadecanoic acid: A molecular dynamics study Hanying Zou, Lin Qiu*, Yanhui Feng*, Xinxin Zhang University of Science and Technology Beijing, China

9:54-9:56 23763

A new fin model on in-plane thermal diffusivity measurement of thin films by the flash method Jozef Gembarovic, Heng Wang*, Piero Scotto TA Instruments-Waters LLC, USA

9:56-9:58 22798

Thermal conductance measurement of Al-SiC interface at 4-300K using time-domain thermoreflectance technique Zhongyin Zhang, Xinwei Wang, Kunpeng Yuan, Fangyuan Sun, Dawei Tang* Dalian University of Technology, China

9:58-10:00 24202

Accuracy analysis of direct infrared temperature measurements of two-phase confined flows Andrea Catarsi*, Davide Fioriti, Mauro Mameli, Sauro Filippeschi, Paolo Di Marco University of Pisa, Italy

10:00-10:02 22840

Investigation on the supercooling of microencapsulated n-alkanes with controlled particle size using a microfluidic device Wei Cui, Lisi Jia*, Ying Chen, Yi'ang Li, SongPing Mo Guangdong University of Technology, China

10:02-10:04 22812

Simultaneous identification of thermal conductivity and optical thickness of a homogeneous medium Yang Liu*, Yann Billaud, Didier Saury, Denis Lemonnier PPRIME/CSC (Beijing), China

10:04-10:06 23077

Turbulent properties in IC engine derived from wall heat flux measured with a three point thin film sensor Osamu Nakabeppu*, Kazuhito Dejima Meiji University, Japan

10:06-10:08 22613

Thermophysical properties of shape-stabilized MgCl2·6H2O/C3N4 composite phase change material Ziye Ling*, Wenbo Zhang, Lei Shi, Zhengguo Zhang, Xiaoming Fang, Xuenong Gao South China University of Technology, China

102

General Sessions

August 14, Tuesday 14:00-18:00 Room 309A

Session subject: Convection-3 (COV3) Co-Chairs: Zhixiong Guo & Li Wang

Time ID Title, Author, Affiliation

15:00-15:02 23921

DNS study for characteristics and structures of combined-convection turbulent boundary layer along vertical flat plate Hirofumi Hattori*, Kazuki Oura, Tomoya Houra, Masato Tagawa Nagoya Institute of Technology, Japan

15:02-15:04

22901

Discussion about peak frequency levels of spectra for Nusselt number in the 2D Rayleigh- Bénard cell with air Junlong Zhao, Weihua Cai*, Yiqiang Jiang* Harbin Institute of Technology, China

15:04-15:06 23541

Influence of wall radiation in 2D cavities heated from below Eric Albin, Ronnie Knikker, Shihe Xin* National Institute Of Applied Sciences of Lyon, France

15:06-15:08 22920

Experimental investigation of a liquid metal mixed convection affected by transverse magnetic field Ivan Melnikov, Natalia Pyatnickaya, Ivan Belyaev*, Evgeniy Sviridov, Valentin Sviridov Joint Institute for High Temperatures of the Russian Academy of Sciences, Russia

15:08-15:10

23534 Cross flow and heat transfer characteristics over helical tube bundles Weikai Gao, Xiaowei Li*, Xinxin Wu Tsinghua University, China

15:10-15:12 23021

Transitional flow regime nomenclature for smooth horizontal tubes heated at a constant heat flux Marilize Everts, Josua Petrus Meyer* University of Pretoria, South Africa

15:12-15:14 22674

Study on heat transfer characteristics of low-temperature supercritical nitrogen in mini-tubes Weibin Wang, Rong Xue, Liang Chen*, Yu Hou Xi'an Jiaotong Univerisity, China

15:14-15:16 23413

Direct numerical simulation of a temporally developing natural convection boundary layer on a doubly-infinite isothermal wall Junhao Ke*, Nicholas Williamson, Steven Armfield, Stuart Norris, Michael Kirkpatrick The University of Sydney, Australia

15:16-15:18 24183

Numerical simulation of heat transfer characteristic of double-layer Y-shaped microchannel heat sink Zhijian Duan*, Gongnan Xie, Guohua Zhang, Xin Jin Northwestern Polytechnical University, China

15:18-15:20 23930

Experimental study on enhancement and recovery of turbulent heat transfer relating to the functionality of surfactant solution induced by inserted mesh Yosuke kawabata*, Shumpei Hara, Takahiro Tsukahara, Yasuo Kawaguchi Tokyo University of Science, Japan

15:20-15:22 22654

Acoustic heating and buoyancy-driven instability induced by mass transport in a near-critical binary fluid mixture Zhan-Chao Hu, Xin-Rong Zhang* Peking University, China

103

General Sessions

15:22-15:24 23859

Early-stage natural convection in a vertical channel Yiqin Li, Hervé Pabiou*, Christophe Menezo National Institute of Applied Sciences of Lyon, France

15:24-15:26 21277

On the modeling of heat transfer to sodium in a pipe under mixed-convection and developing-flow condition with empirical models Wadim Jaeger*, Wolfgang Hering Karlsruhe Institute of Technology, Germany

15:26-15:28

23234

Two-dimensional flow instability induced by natural convection in a square enclosure with vertical array of one circular cylinder and one elliptic cylinder Hyun Woo Cho, Yong Gap Park, Man Yeong Ha* Pusan National University, Korea

15:28-15:30 23899

A study on numerical simulation of rollover phenomenon in density stratified fluid Katsunori Inaba*, Ryoji Imai Muroran Instite of Technology, Japan

15:30-15:32 20761

Scaling investigation of free convection flow of hot fluid over a cooler vertical isothermal wall Olayinka Omowunmi Adewumi*, Andrew Adebusoye, Adetunji Adeniyan, Nkem Ogbonna, Ayowole Oyediran University of Lagos, South Africa

15:32-15:34 22949

Time-response of turbulent heat transfer in a pipe flow at sudden acceleration and deceleration Hajime Nakamura*, Shunsuke Yamada National Defense Academy, Japan

15:34-15:36

22153

Investigation of heat transfer and fluid flow in fractal truncated ribbed channels for the internal cooling of turbine blades Jian Liu, Safeer Hussain, Lei Wang, Gongnan Xie, Bengt Sunden* Lund University, Sweden

15:36-15:38 22401

Second moment modelling of conjugate turbulent heat transfer in porous media Yusuke Kuwata*, Kazuhiko Suga Osaka Prefecture University, Japan

15:38-15:40 23299

Elastic stress acts on elastic turbulence of viscoelastic fluid flow in curvy microchannel Dong-Yang Li*, Hong-Na Zhang, Feng-Chen Li, Si-Chao Tan Harbin Engineering University, China

15:40-15:42 23942

Experimental investigation of thermal mixing of liquid-metal coolant flow in T-junction Kashinsky Oleg, Kurdyumov Aleksandr, Lobanov Pavel*, Pribaturin Nikolay Siberian Branch of Russian Academy of Sciences, Russia

15:42-15:44 23328

A study of the effects of the pore size on turbulence intensity and turbulence length scale in forced convection flow in porous media Ching-Wei Huang, Timothy S. Su, Vishal Srikanth, Andrey V. Kuznetsov* North Carolina State University, USA

15:44-15:46 21429

Reynolds analogy in turbulent flows over rough walls – a DNS investigation Pourya Forooghi*, Franco Magagnato, Bettina Frohnapfel Karlsruhe Institute of Technology, Germany

15:46-15:48 22234

Pore-scale numerical study on the heat transfer process in porous media under different thermal conditions Shen Du, Ming-Jia Li, Zhan-Bin Liu, Ya-Ling He*, Wen-Quan Tao Xi'an Jiaotong University, China

15:48-15:50 21817

Turbulent transport over anisotropic porous media Yuki Okazaki, Yusuke Kuwata, Masayuki Kaneda, Kazuhiko Suga* Osaka Prefecture University, Japan

104

General Sessions

15:50-15:52 21819

Multiplicity of nanofluid forced convection heat transfer in curved ducts Fang Liu*, Dongxiang Zhang, Yang Cai, Qunzhi Zhu, Jun Zhao, Liqiu Wang Shanghai University of Electric Power, China

15:52-15:54 22411

3D tracing of particle transport in natural convection using a stereoscopic shadowgraph system Yu Wu, Qian Wang*, Changying Zhao, C.W. Lei Shanghai Jiaotong University, China

105

General Sessions

August 14, Tuesday 14:00-18:00 Room 309B

Session subject: Multiphase Flow-2 (MPF2) Co-Chairs: Taku Ohara & Zhongliang Liu

Time ID Title, Author, Affiliation

15:00-15:02 24081

Falling liquid film flow over the wavy surface of vertical pillow plates – A numerical investigation Alexander Zibart*, Eugeny Kenig Paderborn University, Germany

15:02-15:04 23790

Study on characteristics of melt jet breakup in a water with numerical and experimental method Hui Cheng, Jiyun Zhao* City University of Hong Kong, Hongkong, China

15:04-15:06 23271

Thermal-electrical coupling modeling and irreversible transfer process analysis of a multi-element thermoelectric generation system Heng Xiao, Xiaobing Liu, Peng Hu Xihua University, China

15:06-15:08 22131

Numerical study of droplet-laden mist film cooling effectiveness of cylindrical holes embedded in a transverse trench Maksim Pakhomov*, Viktor Terekhov Siberian Branch of Russian Academy of Sciences, Russia

15:08-15:10 22648

Study on temperature-dependent desorption characteristics of metallic tin on corundum filter ball surface Lige Tong*, Pei Zhang, Shaowu Yin, Chuanping Liu, Li Wang University of Science and Technology Beijing, China

15:10-15:12 22471

Numerical analysis of heat transfer for jet impingement on a hot steel plate during secondary cooling Haibo Ma, Justina Lee, Rui Liu, Michael Lowry, Armin Silaen, Chenn Zhou* Purdue University Northwest, USA

15:12-15:14 23528

Investigation on the effect of the magnetic force on the melt pool evolution and surface shrink using a developed model Qingfei Bian, Xiaoli Tang, Renkun Dai, Dong Yang, Min Zeng*, Qiuwang Wang Xi'an Jiaotong Uniersity, China

15:14-15:16

23460

Numerical study of the effect of over/underburden permeability on methane hydrate dissociation by depressurization Yongchang Feng*, Lin Chen, Hikaru Yamada, Junnosuke Okajima, Atsuki Komiya, Shigenao Maruyama Institute of Fluid Science, Tohoku University, Japan

15:16-15:18 23729

Thermodynamic of the elliptic orbit motion Liangsuo Shu, Xiaokang Liu, Zhichun Liu, Wei Liu* Huazhong University of Science & Technology, China

15:18-15:20 23937

Surface wettability instigated transition from film boiling to nucleate boiling regime Vinod Pandey, Gautam Biswas*, Amaresh Dalal Indian Institute of Technology, India

15:20-15:22

23468

Theoretical optimization study on coupling characteristics of thermoelectric refrigeration membrane distillation Xiaohong Yang*, Da Li, Junhu Hu, Rui Tian Inner Mongolia University of Technology, China

106

General Sessions

15:22-15:24 23971

Interfacial area transport system for bubbly flow in vertical rod bundles Hang Liu, Liang-Ming Pan, Wen-Xiong Zhou, Quan-Yao Ren, Haojie Huang, Bin Yu Chongqing University, China

15:24-15:26 24033

Critical heat flux enhancement through increased rewetting on nanopillar array surfaces Tuan Tran, Dongdong Liu*, Binh Thien Nguyen Nanyang Technological University, Singapore

15:26-15:28

23707

Study on effect of counter-current air flow on flow behavior of liquid falling film outside horizontal tubes Qinggang Qiu*, Xiaocui Zhang, Xiaojing Zhu, Shengqiang Shen Dalian University of Technology, China

15:28-15:30 24466

Non-equilibrium phenomena on the liquid-vapor interface Alexey Polikarpov*, Irina Graur, Tadrist Lounes, Elizaveta Gatapova, Oleg Kabov Aix Marseille University, France

15:30-15:32 22222

Experimental study of natural convection and phase transition coupling heat sink with temperature uniformity Hao Chen, Qiang Li* Nanjing University of Science and Technology, China

15:32-15:34 24247

Experimental investigation of flow boiling in a 4.0 mm tube at different gravity conditions: 0g, 1g, and 2g Daiane Mieko Iceri, Gherhardt Ribatski, Gianfranco Caruso, Fabio Massimo Forino, Luca Saraceno, Giuseppe Zummo* Brescia University, Italy

15:34-15:36 23594

Influence of initial state of droplet group on self-propelled jumping Zhiping Yuan, Fuqiang Chu, Xiaomin Wu* Tsinghua University, China

15:36-15:38 24352

Critical heat flux of R134a boiling flow in the circumferentially non-uniformly heated helically coiled tubes Xiaojuan Niu, Huaijie Yuan, Chen Quan, Liang Zhao* Xi'an Jiaotong University, China

15:38-15:40 23665

Gas-solid flow and heat transfer characteristics of a fluidized bed reactor for solar thermal applications Selvan Bellan, Koji Matsubara*, Hyun Seok Cho, Nobuyuki Gokon, Tatsuya Kodama Niigata University, Japan

15:40-15:42 23486

Experimental investigation of heat transfer characteristics of liquid nitrogen flow boiling in a mini-channel Tong An, Yuan Wang, Weiqiang Liu National University of Defense Technology, China

15:42-15:44 21985

Numerical and experimental study on melting thermal performance of paraffin Liang Xia, Luying Wang, Yuying Yan* University of Nottingham, UK

15:44-15:46 24113

Numerical study on the effect of inclination on heat and mass transfer of zeotropic mixture Yawei Shao, Shuai Deng, Li Zhao*, Pei Lu, Dongpeng Zhao Tianjin University, China

15:46-15:48 24631

Investigation on the noise characteristics of direct contact steam condensation in low sub-cooled water Yong Li, Shaodan Li, Mo Tao, Qi Xiao*, Zhiguo Wei Wuhan Second Ship Des. & Res. Ins., China

107

General Sessions

15:48-15:50 23596

Enhanced VOF-based direct numerical simulations of slug flow boiling within micro-channels with smooth and finned heated walls Emanuele Teodori*, Manolia Andredaki, Anastasios Georgoulas, Ana Moita, Antonio Moreira, Marco Marengo Instituto Superior Tecnico, Portugal

15:50-15:52 23803

Numerical simulation of spray characteristics in a pressure-swirl nozzle Rui Jiang, Bo Dong, Tao Zhang, Weizhong Li* Dalian University of Technology, China

15:52-15:54 24707

Heat flux density measurments in the contact line of the heated sessile droplet/falling down liquid rivulet Cheverda Vyacheslav*, Ponomarenko Tatyana, Karchevsky Andrey, Kabov Oleg Institute of Thermophysics Siberian Branch of the Russian Academy of Sciences, Russia

15:54-15:56 23622

Subcooled flow boiling in narrow microchannel under different orientations and surface wettability characteristics Zengchao Chen, Junye Li, Zhaozan Feng, Kan Zhou, Jie Zhu, Wei Li*, Yunting Ge* Zhejiang University, China, Brunel University London, UK

15:56-15:58 23838

CFD modeling of slug flow heat transfer in non-planar microchannels Thilaksiri Bandara*, Gary Rosengarten Royal Melbourne Institute of Technology University, Australia

108

General Sessions

August 14, Tuesday 14:00-18:00 Room 310

Session subject: Heat Exchangers-1 (HER1) Co-Chairs: Yitung Chen & Lizhi Zhang

Time ID Title, Author, Affiliation

15:00-15:02 23638

Effect of the number of vertical rows on heat transfer from a staggered tube bank of subsea cooler Nikolay Ivanov*, Vladimir Ris, Nikolay Tschur, Marina Zasimova Peter the Great St. Petersburg Polytechnic University, Russia

15:02-15:04 22968

Thermal analysis of heat exchanger with supercritical pressure CO2 Jiangfeng Guo*, Xiulan Huai, Keyong Cheng, Xinying Cui, Haiyan Zhang Institute of Engineering Thermophysics, China

15:04-15:06 24353

Oscillating behavior of loop heat pipe when operating under overcharged condition Phuoc Hien Huynh*, Htoo Kyaw Zin, Keishi Kariya, Akio Miyara Saga University, Japan

15:06-15:08 22503

Critical impact factors on the optimal design of natural draft dry cooling tower under constant load Wenjing Ge, Wendong Li, Guanan Chen, Yuanbin Zhao* Shandong University, China

15:08-15:10 23213

Heat transfer in the transitional flow regime in a circular tube with twisted tape insert and re-entrant inlet Sogo Mayokun Abolarin, Josua Petrus Meyer* University of Pretoria, South Africa

15:10-15:12 22600

Heat and mass transfer of desiccant coated heat exchanger with microchannel and fin-and-tube types Xiangyu Sun, Yanjun Dai*, Tianshu Ge, Yao Zhao, Ruzhu Wang Shanghai Jiao Tong University, China

15:12-15:14 22766

Development and validation of a process model for a superheater heat exchanger in a coal-fired power plant boiler Excellent Gwebu*, Pieter Rousseau University of Cape Town, South Africa

15:14-15:16 21255

Optimization design of waste heat power generation systems in cement production Qian Yin, Wenjing Du, Lin Cheng* Shandong Universiy, China

15:16-15:18 22037

A solution of aluminum flat heat pipe for dry cooling the ladar array Su Hyeon Hong, Seok-Hwan Moon*, Kwang Seong Choi, Jin Ho Lee, Hyun Tak Kim Electronics and Telecommunications Research Institute, Korea

15:18-15:20 23388

A general thermal resistance with correction factor for heat exchanger design and analysis based on energy flow method Junhong Hao, Qun Chen* Tsinghua University, China

15:20-15:22 23300

Transport processes and separation in zero-gravity distillation Niklas Preußer*, Sebastian Rieks, Eugeny Y. Kenig, Peter Stephan, Tatiana Gambaryan-Roisman Technical University Darmstadt, Germany

109

General Sessions

15:22-15:24 23845

Gravity effect on natural convection melting investigated with 2D and 3D lattice Boltzmann methods X. Y. Li, H. Zhang, J. Liu, Q. W. Wang, T. Ma Xi'an Jiaotong University, China

15:24-15:26 21381

Transient characterization of a heat exchanger through identification of its transfer functions Waseem Al Hadad*, Yves Jannot, Vincent Schick, Benjamin Remy, Denis Maillet University of Lorraine, France

15:26-15:28 23616

Study on performances of shellside of blade baffle heat exchanger with different arrangement of baffle Ke Wang, Guofeng Tan*, Shupei Zhao, Yongqing Wang, Zunchao Liu Zhengzhou University, China

15:28-15:30 23110

Characteristics of particulate fouling of rectangular-wing vortex generators with a hole Zhiming Xu, Zhimin Han*, Xiaoya Geng, Jingtao Wang Northeast Electric Power University, China

15:30-15:32 23088

Numerical simulation of heat pipe with verification of X-ray CT Suguru Uemura*, Shozo Yoshimura, Takashi Imai, Shuichiro Hirai Tokyo Institute of Technology, Japan

15:32-15:34 23552

The effect of zigzag angle on the thermal-hydraulic performances of printed circuit heat exchangers Shenghui Liu, Yanping Huang*, Junfeng Wang, Jinguang Zang, Guangxu Liu, Yuanfeng Zan Nuclear Power Institute of China, China

15:34-15:36 21165

An experimental study of plastic heat exchangers applicable for dehumidification Mohammed Amer, Miao-Ru Chen, Ming-Chang Lu, Chi-Chuan Wang* Chiao Tung University, Chinese Taipei

15:36-15:38 24116

Heat and flow characteristics of water with air-injection on polyethylene tube for various tube widths placed over metal rods set Fuminori Amemiya*, Koji Toriyama, Takuya Kobayashi University of Yamanashi, Japan

15:38-15:40 23852

Effects of sea-water fouling on a plate-flame heat exchanger for utilization of waste heat from power plant Wonkeun Baik, Jaehyok Heo, Rin Yun* Hanbat National University, Korea

15:40-15:42 23393

Experiments of active polymer thermosyphons for water harvesting applications Wei Zhong, Tao He, Sean Hardick, Rebecca Trojanowski, Tom Butcher, Timothy Wagner, Yaroslav Chudnovsky, William Worek, Jon P. Longtin* Stony Brook Universtiy, USA

15:42-15:44 23199

Effect of the non-condensable gas contents on heat transfer characteristics of two-phase closed thermosyphon Yeong Hwan Kim, Dong Hwan Shin, Jin Sub Kim, Jungho Lee* Inje University, Korea

15:44-15:46 23685

An additive manufacturing-enabled air-to-air heat exchanger for high temperature applications Xiang Zhang*, Farah Singer, Amir Shooshtari, Michael M. Ohadi University of Maryland, USA

15:46-15:48 22116

Visualization experiment and numerical simulation of a flat-plate closed loop two-phase thermosyphon of small dimensions Weinan Hu, Chunpeng Zhou, Guanzheng Huang, Fangjun Hong* Shanghai Jiao Tong University, China

110

General Sessions

15:48-15:50 23835

Numerical investigation on flow and thermal characteristics of pulsating heat pipes Hyung Yun Noh*, Sung Jin Kim Korea Advanced Institute of Science and Technology, Korea

15:50-15:52 22167

Flow and heat transfer characteristics of a thermosyphon loop with high filling ratio Yun Liu, Zhigang Li*, Yuhua Li, Tie Li, Yuyan Jiang, Dawei Tang Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

15:52-15:54 23529

Experimental and numerical analysis of a closed-loop flat-plate pulsating heat pipe: Effects of orientation with respect to gravity on the thermohydraulic behavior Filippo Pagnoni*, Vincent Ayel, Edoardo Scoletta, Yves Bertin Institut Pprime, CNRS-ENSMA-University of Poitiers, France

15:54-15:56 23885

An investigation on maximum hydraulic diameter of an oscillating heat pipe Yulong Ji*, Lilin Chu, Chunrong Yu, Hailang Kuang, Hongbin Ma Dalian Maritime University, China

111

General Sessions

August 14, Tuesday 14:00-18:00 Room 311A

Session subject: Energy Conversion and Storage (ECS) Co-Chairs: Yuying Yan & Ying Chen

Time ID Title, Author, Affiliation

15:00-15:02 23118

Hybrid analytical and finite element formulation of a latent heat storage exchanger simulation: Comparison of heat transfer models for enhanced thermal conductivity change material Mariam Jadal*, Didier Delaunay, Lingai Luo, Jerome Soto, Nicolas Boyard Thermal and Energy Laboratory of Nantes, France

15:02-15:04 21771

The entransy based analysis of the operation principle of the absorption heat pump Tian Zhao, Yu-Chao Hua, Zeng-Yuan Guo* Tsinghua University, China

15:04-15:06 23991

Parallel triangular channel system for latent heat thermal energy storages Assunta Andreozzi, Bernardo Buonomo, Davide Ercole, Oronzio Manca* University of Campania "Luigi Vanvitelli", Italy

15:06-15:08 22340

A new PCM composite with microencapsulated phase change material slurry saturated in metal foam for passive thermal management Wenqiang Li*, Duo Zhang, Shangsheng Feng, Biao Yuan, Hao Wan, Fei Qin, Guoqiang He Northwestern Polytechnical University, China

15:08-15:10

24007 Control of heat release energy during heating from solid-solid phase change material Ryohei Gotoh*, Tsuyoshi Totani, Masashi Wakita, Harunori Nagata Hokkaido University, Japan

15:10-15:12 22260

Thermal energy storage with tunable melting point phase change materials Fangyu Cao*, Ying Zheng, Chien-Hua Chen, Richard Bonner Advanced Cooling Technologies, Inc., USA

15:12-15:14 22545

Phase change behavior of ammonia alum hydrate slurries passing through a heat exchanger Kohei Nakamura*, Takashi Ina, Ruri Hidema, Hiroshi Suzuki, Yoshiyuki Komoda Toho Gas Limited Liability Company, Japan

15:14-15:16

23771

Surface modification driven phase change properties of organics confined in nanopores matrix for shape stabled phase change materials Daili Feng, Yanhui Feng*, Mengya Xiong, Chen Wang, Ge Wang, Xinxin Zhang University of Science and Technology Beijing, China

15:16-15:18 21964

Comprehensive performance analysis of concentric cylindrical thermoelectric generator for light-duty vehicles Kuo Huang, Yuying Yan*, Bo Li, University of Nottingham, UK

15:18-15:20 23597

Non-invasive measurement of internal temperature in Li-ion cells for nominal and thermal runaway conditions Ankur Jain* The University of Texas at Arlington, USA

15:20-15:22 23724

Experimental investigation of phase change wallboards: Comparative study of test cells Yuhao Qiao, Yan Liu, Liu Yang*, Liqiang Hou, Xiangrong Zhang, Jiaping Liu Xi’an University of Architecture and Technology, China

15:22-15:24 22485

Investigation on the application of phase change composite with CNTs in water heater Jifen Wang*, Huaqing Xie, Zhixiong Guo Shanghai Polytechnic University, China

112

General Sessions

15:24-15:26 24438

Cascaded latent heat thermal energy storage with molten salt-nanoparticles composite Xin Xiao*, Dongsheng Wen University of Leeds, UK

15:26-15:28 23580

Experimental study of close-contact melting in a cylindrical enclosure Tomer Shockner, Amit Nir, Dmitry Portnikov, Yoram Kozak, Gennady Ziskind* Ben-Gurion University, Israel

15:28-15:30 22442

Experimental study on the cooling charging performance of microencapsulated phase change material slurry Hongtao Xu, Yubo Miao, Zhuqing Luo, Jianlei Niu* The Hong Kong Polytechnic University, Hongkong,China

15:30-15:32 22477

Unsteady characteristics of water thermocline storage tank with encapsulated paraffin wax packed bed Xiaoze Du*, Zhaoyu He, Xiaohui Wang, Chao Xu, Lijun Yang North China Electric Power University, China

15:32-15:34 23335

Numerical simulation of heat transfer in a magnesium hydroxide packed bed reactor Keisuke Nishida, Massimiliano Zamengo, Yukitaka Kato, Yasunori Okano* Osaka University, Japan

15:34-15:36 22413

Axisymmetric lattice Boltzmann method for gas-solid thermochemical reaction in particle scale Zhihao Pan, Jun Yan, Changying Zhao* Shanghai Jiao Tong University, China

15:36-15:38 22861

Numerical study on thermal conductivity optimization of composite phase change material Bofeng Shang, Ruikang Wu, Bin Xie, Xingjian Yu, Xiaobing Luo* Huazhong University of Science and Technology, China

15:38-15:40 22579

A novel technique for latent heat transport using super-hydrophobic flexible gel Takumu Otsubo, Tomohiro Senda, Ruri Hidema, Hiroshi Suzuki*, Yoshiyuki Komoda, Kosuke Suzuki, Masao Iwaya, Masaru Endo, Naotaka Nishio Kobe University, Japan

15:40-15:42 23602

Morphological evolution of mushy zone and effect of mushy zone constant during melting process Bei Yang*, Zhifeng Wang, Tiejun Zhang, Fengwu Bai, Yan Wang Institute of Electrical Engineering, Chinese Academy of Sciences, China

15:42-15:44 23186

Solidification heat transfer characteristics of phase change emulsion in turbulent flow region Takashi Morimoto*, Kai Suzaki, Hiroyuki Kumano Aoyama Gakuin University, Japan

15:44-15:46 23992

Feasibility of using thermal inertia to shift the peak energy demand of buildings Xiaoqing Chen, Hailong Li*, Xueqiang Li, Yabo Wang, Kai Zhu Tianjin University of Commerce, China

15:46-15:48 22594

Effects of fabrication conditions on silica hard-shell microcapsules containing phase change materials Ippei Watanabe*, Nami Furukawa, Naoki Kuroda, Ruri Hidema, Hiroshi Suzuki, Yoshiyuki Komoda, Takashi Horie, Hitoshi Asano, Naoto Ohmura Kobe University, Japan

15:48-15:50 24178

Numerical method and its application to investigate the thermal performance of an earth to fluid pipe system Zaiguo Fu*, Lingtong Li, Li Zhang, Bo Yu Shanghai University of Electric Power, China

113

General Sessions

15:50-15:52 23502

Modeling of melting process of phase change material filled capsule for thermal energy storage Yukiko Saito, Selvan Bellan, Nobuyuki Gokon, Koji Matsubara*, Cho Hyun Cheok, Tatsuya Kodama Niigata University, Japan

15:52-15:54 24495

Heat transfer study of nitrate salt and nano-salt as energy storage media Afrah Turki Awad*, Dongsheng Wen University of Leeds, UK

15:54-15:56 22091

Numerical investigation on the thermal performance of lightweight building with integrated PCM layer Yang Yang*, Li Zhu Tianjin University, China

15:56-15:58 22400

Numerical simulation on BTES system performances of single and multiple borehole under different factors Li Zhu, Sarula Chen* Tianjin University, China

114

General Sessions

August 14, Tuesday 15:00-18:00 Room 311B

Session subject: Porous Media (PMA) Co-Chairs: Peter Christian Stephan & Yuyan Jiang

Time ID Title, Author, Affiliation

15:00-15:02 22800

Numerical investigation of heat and mass transfer in a structured packed bed with porous spherical particles Morteza Hangi, Vincent M. Wheeler, Wojciech Lipinski* The Australian National University, Australia

15:02-15:04

22163

Free evaporation cooling characteristics of horizontal wet porous media plate installed on car roof Li Ouyang* Wuhan University of Technology, China

15:04-15:06 23662

Combined conductive-convective-radiative heat transfer in complex geometry using the Monte Carlo method: Application to solar receivers Loris Ibarrart*, Cyril Caliot, Mouna El Hafi, Richard Fournier, Stephane Blanco, Sébastien Dutour, Jérémi Dauchet, Jean-Marc Tregan, Vincent Eymet, Vincent Forest Mines Albi, Paul Sabatier University, France

15:06-15:08 22414

Evaporation from thin porous media with mixed wettability Rui Wu, Changying Zhao* Shanghai Jiao Tong University, China

15:08-15:10 22694

Effect of fiber orientation on the effective mass diffusivity of fibrous porous media Ao Xu, T.S. Zhao* Hong Kong University of Science and Technology, Hongkong, China

15:10-15:12 22925

Heat and mass transfer on porous medium surface with vapor-liquid phase change Shixue Wang*, Minghui Ge, Yulong Zhao, Fei Wang Tianjin University, China

15:12-15:14 21758

Three-dimensional numerical simulation of ionic mechanical dispersion in an electrodialyzer with net-like spacers Xiaohui Bai, Yoshihiko Sano, Fujio Kuwahara, Akira Nakayama* Shizuoka University, Japan

15:14-15:16 23174

Pore scale simulation for thermo-hydro-mechanical processes in geophysical system Zhiqiang Chen, Moran Wang* Tsinghua University, China

15:16-15:18 24216

Combining micro- meso- and macro-scopic numerical methods for multiscale radiative transfer modeling of SiC-based foams up to very high temperatures Mohd afeef Badri, Arnaud Biallais, Gilberto Domingues, Yann Favennec, Giorgia Fugallo, Aubin Mekeze-Monthe, Benoit Rousseau* University of Nantes, France

15:18-15:20 23916

Numerical investigation on the cooling performance and configuration optimization of transpiration cooling with phase change Hao Su, Fei He*, Jianhua Wang, Liang Chen, Bangcheng Ai University of Science and Technology of China, China

15:20-15:22 23683

Two-phase flow boiling and evaporative heat transfer promoted with uni-directional porous copper Kio Takai*, Kazuhisa Yuki, Shuai Yang, Risako Kibushi, Noriyuki Unno Tokyo University of Science, Yamaguchi, Japan

115

General Sessions

15:22-15:24 24102

Analytical study on the performance of a multi-layer porous volumetric solar receiver Kun Yang*, Kai Wang, Yueming Huang, Jiabing Wang* Huazhong University of Science and Technology, China

15:24-15:26 23001

Two-phase thermal conductivity of ceramic sponges with and without flow up to high temperatures Thomas Fischedick, Konrad Dubil, Benjamin Dietrich* Institute of Thermal Process Engineering, Germany

15:26-15:28

24135

Thermal radiation effect on the effective thermal conductivity of porous material by pore level numerical simulation M. G. Luo, J. M. Zhao*, L. H. Liu** Harbin Institute of Technology, China

15:28-15:30 24163

Numerical and experimental investigations of heat and mass transfer properties of open-cell ceramic foams P. Lea*, J. F. Henry, C. Lorreyte, D. Caron, H. Pron, J. Randrianalisoa* University of Reims, France

15:30-15:32 23592

Numerical investigation of gas diffusion properties in nanoporous organic matter Ying Yin, Zhiguo Qu*, Jianfei Zhang Xi’an Jiaotong University, China

15:32-15:34

22819 Aluminum foams for water pool boiling enhancement Luca Doretti, Hosein Sadfi, G. Righetti, Kamel Hooman, Giovanni Longo, Simone Mancin* University of Padova, Italy

15:34-15:36 23538

Effects of micro-morphology on BRDF of metal foam’s skeleton Bo Liu, Xin-Lin Xia*, Chuang Sun, Nanshi Chen Harbin Institute of Technology, China

15:36-15:38 22309

Experimental study on capillary performance of micro/nano scale sintered wicks Xianbing Ji, Chao Dai, Jinliang Xu* North China Electric Power University, China

15:38-15:40 24267

Design of evaporating surfaces using highly-ordered microstructures Kimia Montazeri, Quang Pham, Yoonjin Won* University of California, USA

15:40-15:42 22563

Microstructural effects on the permeability of nitrocellulose membranes for paper diagnostics Shanyouming Sun, Shangsheng Feng*, Feng Xu, Changchun Ji, Meng Shi, Tianjian Lu* Xi'an Jiaotong University, China

15:42-15:44 22558

Lattice Boltzmann simulation of heat and mass transfer during soil freezing with the considering of pre-melted film Fei Xu, Bingxi Li*, Yaning Zhang, Zhonglin Du Harbin Institute of Technology, China

15:44-15:46 24153

Heat transfer characteristics of a gas flow in uni-directional porous copper pipes Yoshiaki Sato, Kazuhisa Yuki*, Yuki Abe, Risako Kibushi, Noriyuki Unno, Kazuyuki Hokamoto, Shigeru Tanaka, Toshio Tomimura Tokyo University of Science, Yamaguchi, Japan

15:46-15:48 22312

Heat transfer and interface evolution of the PCM melting in a rectangular enclosure with or without porous media Huijin Xu*, Changying Zhao, Yan Wang China University of Petroleum (East China), China

15:48-15:50 23409

Pore-scale numerical analysis of hydrodynamics and conjugate heat transfer in solid sponges Sebastian Meinicke, Benjamin Dietrich*, Thomas Wetzel Karlsruhe Institute of Technology, Germany

116

General Sessions

15:50-15:52 24160

Impact of geometrical characteristics on the condensate retention and frost formation on metal foams Kashif Nawaz*, Anthony Jacobi Oak Ridge National Laboratory, USA

15:52-15:54 23894

The study of hydrodynamics and heat transfer in pebble beds with volumetric heating in case of axial and radial flow Yuliya V. Smorchkova*, Alexander N. Varava, Aleksey V. Dedov, Alexander V. Zakharenkov, Alexander T. Komov, Sergey V. Mirnov, Alexander V. Borozdin National Research University, Russia

15:54-15:56 21435

Periodic freezing of water and melting of ice in asphalt as a porous medium subject to diurnal temperature oscillations Cristina Martin Linares, Chun-Hsing (Jun) Ho, Peter Vadasz* Northern Arizona University, USA

117

General Sessions

August 15, Wednesday 8:30-12:20 Room 309A

Session subject: Boiling and Evaporation-4 (BAE4) Co-Chairs: Xiulin Ruan & Bingyang Cao

Time ID Title, Author, Affiliation

9:20-9:22 22657 Phase change simulation of two-phase R134a flow in a horizontal T-junction Pei Lu, Li Zhao*, Shuai Deng, Yawei Shao Tianjin University, China

9:22-9:24 23482

Enhanced boiling heat transfer on surfaces patterned with mixed wettability Biao Shen*, Masayuki Yamada, Tomosuke Mine, Sumitomo Hidaka, Junichiro, Shiomi, Gustav Amberg, Masamichi Kohno, Koji Takahashi, Yasuyuki Takata Kyushu University, Japan

9:24-9:26 24169 Vaporization of binary and ternary non-azeotropic mixtures inside channels Marco Azzolin, Arianna Berto, Stefano Bortolin, Davide Del Col* University of Padova, Italy

9:26-9:28 22748 Thermal waves at the interface of an evaporating liquid pool Lu Qiu, Fei Duan* Nanyang Technological University, Singapore

9:28-9:30 22844 R245fa flow boiling heat transfer on an electrically heated carbon/carbon surface Giulia Righetti*, Luca Doretti, Simone Mancin, Claudio Zilio, Giovanni Antonio Longo University of Padova, Italy

9:30-9:32 22678 Experimental study on thermal performance of a new novel loop heat pipe Yueping Deng, Jinjia Wei*, Xueli Wang Xi'an Jiaotong University, China

9:32-9:34 23816

Two-phase flow analysis of a double layer counter flow mini-channel heatsink with 1D countercurrent flow model Kihoon Lim, Junbeom Lee, Jaeseon Lee* Ulasn National Institute of Science and Technology (UNIST), Korea

9:34-9:36 22936

Heat transfer enhancement and crisis phenomena at pool boiling on the surfaces with structured capillary-porous coatings Aleksandr Pavlenko*, Anton Surtaev, Denis Kuznetsov, Vladimir Serdyukov, Vasily Kalita, Dmitry Komlev Siberian Branch of Russian Academy of Sciences, Russia

9:36-9:38 21916 Advances in modelling of boiling heat transfer using mesoscale method Wei Gong, Yuying Yan* University of Nottingham, UK

9:38-9:40 24310

Temperature discontinuity and resistance at the liquid–gas interface of thin liquid film and droplet under heating Elizaveta Gatapova*, Oleg A. Kabov Institute of Thermophysics, Siberian Branch of the Russian Academy of Sciences, Russia

9:40-9:42 22294

Heat transfer and bubble dynamical behavior during single bubble pool boiling in microgravity Ke Wu, Peng Liu, Wang-Fang Du, Jian-Fu Zhao*, Hui-Xiong Li, Kai Li Institute of Mechanics, Chinese Academy of Sciences, China

118

General Sessions

9:42-9:44 23071

Enhancement of HFE-7200 pool boiling heat transfer on a copper surface with nanostructure coatings Zhen Cao, Zan Wu, Anh Duc Pham, Calle Preger, Tautgirdas Ruzgas, Cathrine Albèr, Sahar A. Abbood, Bengt Sunden* Lund University, Sweden

9:44-9:46 22264 Droplet evaporation on functional surfaces A. Alperen Gunay, Marisa Gnadt, Soumyadip Sett, Junho Oh, Nenad Miljkovic* University of Illinois, USA

9:46-9:48 23676 Investigation on bubble dynamic behaviors under pulse heating Suchen Wu, Chengbin Zhang, Xiangdong Liu, Yongping Chen* Southeast University, China

9:48-9:50 23658

Film boiling collapse temperature and boiling heat transfer correlations through two-dimensional temperature field measurement and observation of liquid-solid contact Hiroyasu Ohtake* Kogakuin University, Japan

9:50-9:52 23396

Numerical study of flow characteristics and temperature distribution of falling films over horizontal tubes for superhydrophilic surface Yi Zheng, Zhong Lan, Yun Li, Rui Jiang, Kai Wang, Xuehu Ma* Dalian University of Technology, China

9:52-9:54 24209

Steady-state and transient heat transfer phenomena of water: An experimental and theoretical investigation at near-critical pressures Tobias Gschnaidtner*, Andreas Kohlhepp, Gerrit A. Schatte, Christoph Wieland, Hartmut Spliethoff Technical University of Munich, Germany

9:54-9:56 23998

Enhancement of desalination process involving two phase heat transfer: An experimental study Rajiva lochan Mohanty*, Abhilas Swain, Mihir Kumar Dasindian Institute of Technology Bhubaneswar, India

9:56-9:58 23156

Effect of surface structure on void fraction of subcooled forced boiling in rectangular narrow channel Hitoshi Asano*, Tomohiko Nakamura Kobe University, Japan

9:58-10:00 23750 Study on superheated liquid layer in pool boiling Mao Takeyama*, Tomoaki Kunugi, Takehiko Yokomine, Zensaku Kawara, Kyoto University, Japan

10:00-10:02 24123

Two-phase pressure drop characteristics of HFE-7100 in mini-channels Jin Young Park, Eun Jung Choi, Min Soo Kim* Seoul National University, Korea

10:02-10:04 24306

Levitation of ordered arrays of liquid microdroplets over solid-gas and liquid-gas interfaces Dmitry Zaitsev*, Dmitry Kirichenko, Vladimir Ajaev, Oleg Kabov Russian Academy of Sciences, Russia

10:04-10:06 23917

Bubble formation and heat transfer process during saturated film boiling in the electric field Yanning Wang, Yinshi Li*, Dongliang Sun* Xi'an Jiaotong University, China

10:06-10:08 23305

Evaporation from ultra-thin nanoporous membranes into liquid-moist air systems Zhengmao Lu, Kyle Wilke, Daniel J. Preston, Ikuya Kinefuchi, Evelyn N. Wang* Massachusetts Institute of Technology, USA

119

General Sessions

10:08-10:10 22191

Numerical simulation of the dryout characteristics in a helical once-through steam generator Xiang Yu, Baozhi Sun*, Jianxin Shi, Wanze Wu, Zhirui Zhao Harbin Engineering University, China

10:10-10:12 23840

Micro-PIV analysis of gas-liquid flow and boiling heat transfer characteristics in micro pin-fin heat sinks Lingjian Kong, Zhigang Liu, Mingming Lv, Can Ji Energy Research Institute of Shandong Academy Sciences, China

10:12-10:14 20898

In-situ TEM study of nanoscale liquid wetting Guanglei Chen, Haim H. Bau, Calvin Li* Villanova University, USA

120

General Sessions

August 15, Wednesday 8:30-12:20 Room 309B

Session subject: New Energy and Efficiency-3 (NEE3) Co-Chairs: Viktor Terekhov & Zhenqian Chen

Time ID Title, Author, Affiliation

9:20-9:22 23649 Wet, dry and hybrid cooling systems John Maulbetsch*, Michael DiFilippo Maulbetsch Consulting, USA

9:22-9:24 22290 Gasification mechanism of woody biomass-derived char with supported Fe catalysts Yukihiko Okumura* Maizuru National College of Technology, Japan

9:24-9:26 23433

Heat storage analysis of energy piles with spiral-tube heat exchanger based on a practical axisymmetric model Qiang Zhao, Baoming Chen* Shandong University, China

9:26-9:28 23590

Thermal performance of ground source heat pumps that use direct expansion method using foundation pile Tetsuaki Takeda*, Shuhei Ishiguro, Osamu Yoda, Hiroji Okubo University of Yamanashi, Japan

9:28-9:30 23410 Process intensification by heat pipe of methane reforming for hydrogen production Bohong Chen, Long Wang, Feng Wang*, Bo Qi Chongqing University, China

9:30-9:32 20916 Computer simulation of thermophysical processes in particle generators Victor V. Kuzenov, Sergei V. Ryzhkov* Bauman Moscow State Technical University, Russia

9:32-9:34 22377 Numerical study of the mixing of steam and air in a fuel assembly in cross-flow Tobias Hanisch*, Erik Frense, Frank Rüdiger, Jochen Fröhlich Dresden University of Technology, Germany

9:34-9:36 22452

The use of virtual heaters in assessing the effect of window glazing, window-to-wall ratio and air exchange rate on optimal indoor heat distribution Jérémie Léger*, Daniel. R Rousse School of high Technology, Canada

9:36-9:38 23171

Numerical analysis of the thermal characteristics of a downhole heat exchanger geothermal system Yu Shi, Xianzhi Song*, Gensheng Li, Gaosheng Wang, Rui Zheng, Jiacheng Li China University of Petroleum-Beijing, China

9:38-9:40 23650 Multiscale thermal transport in solar thermochemical energy storage systems Like Li*, Kelvin Randhir, James Klausner, Renwei Mei, Nick AuYeung Mississippi State University, USA

9:40-9:42 23700

Integrated analysis and control of the dynamic characteristics of heat transfer systems based on the entransy-based power flow mode Kelun He, Qun Chen*, Yifei Wang, Junhong Hao Tsinghua University, China

9:42-9:44 24052 Improved modeling approach for heat sink topology optimization Yang Zhou*, Wouter Dekeyser, Martine Baelmans KU Leuven, Department of Mechanical Engineering, The Netherlands

121

General Sessions

9:44-9:46 22387

Analysis of thermal storage of polyolefin resin solar collector in Chinese solar greenhouse in winter Xinni Zhang, Xiaoyan Yuan*, Hongsheng Cheng China Agricultural University, China

9:46-9:48 24296 Two-dimensional transient heat transfer and optical analysis of a solar receiver Mostafa Abuseada, Nesrin Ozalp*, Cédric Ophoff University of Minnesota Duluth, USA

9:48-9:50 22440

A simplified panel for both diurnal photovoltaic conversion and nocturnal radiative cooling Bin Zhao, Mingke Hu, Xianze Ao, Gang Pei* University of Science and Technology of China, China

9:50-9:52 24171 Effective solar distillation with thermal concentration and anti-fouling wick Safa Alzaim, Aikifa Raza, Jin-You Lu, TieJun Zhang* Khalifa University, UK

9:52-9:54 21865 Design for the turbine of solar chimney power plant system with vertical collector Yan Zhou, Chen Yang*, Kai Hao*, Liang-Heng Zhang Qingdao University of Science & Technology, China

9:54-9:56 24185

Feasibility study of a hybrid small-scale dish-mounted solar thermal Brayton cycle with cogeneration Willem Le Roux* University of Pretoria, South Africa

9:56-9:58 24318

Optimization of solar cavity receiver for cross linear concentrated solar power system: A numerical study Rendy Silva Renata*, Kentaro Kanatani, Hideharu Takahashi, Yutaka Tamaura, Hiroshige Kikura Tokyo Institute of Technology, Japan

9:58-10:00 22336 Experimental study on thermodynamic performance of solar air compressor Lu Wang, Zhong-Xian Yuan* Beijing University of Technology, China

10:00-10:02 24279

Design and optimization of baffled fluid distributor for realizing target flow distribution in a tubular solar receiver Lingai Luo*, Min Wei, Yilin Fan University of Nantes, France

10:02-10:04 23302

Investigation on supercritical fluids heat transfer deterioration and its mitigations Eze Chika, Hui Cheng, Jiyun Zhao* City University of Hong Kong, Hongkong, China

10:04-10:06 22475

Spectral characterisation and evaluation of liquid based beam splitters for CPV/T solar systems Xinyue Han*, Dengshuai Xue, Xiaobin Chen Jiangsu University, China

10:06-10:08 23436

Conjugated radiation-convection-conduction heat transfer analysis of volumetric receiver with highly concentrated radiation Mitsuho Nakakura*, Selvan Bellan, Hyun-Seok Cho, Koji Matsubara, Nobuyuki Gokon, Tatsuya Kodama Niigata University, Japan

10:08-10:10 23961

Coupled-neutronic-thermalhydraulic stability appraisal of supercritical forced flow channels following lumped parameter approach Daya Shankar, Manmohan Pandey, Dipankar N. Basu* Indian Institute of Technology Guwahati, India

122

General Sessions

10:10-10:12 21869

Carbon nanotube based electrodes for perovskite solar cells Shigeo Maruyama* The University of Tokyo, Japan

10:12-10:14 21209

A multi-layered coating with embedded small particles to improve shielding of space vehicles from intense solar irradiation Leonid Dombrovsky*, Dmitry Reviznikov Joint Institute for High Temperatures, Russia

123

General Sessions

August 15, Wednesday 8:30-12:20 Room 310

Session subject: Cooling and Thermal Management-2 (CTM2) Co-Chairs: Baoling Huang & Rong Chen

Time ID Title, Author, Affiliation

9:20-9:22 23749

Thermal management of lithium ion battery module: Air cooling strategies for the hotspots Zhao Lu, Xiaoling Yu*, Lichuan Wei, Liyu Zhang, S. Gao, Liwen Jin, Xiangzhao Meng* Xi'an Jiaotong University, China

9:22-9:24 23439

Thermohydrodynamics of ferrofluidic flow with periodic pulsation under the effect of static and alternating magnetic field-: A numerical study Sudip Shyam, Balkrishna Mehta*, Pranab Kumar Mondal Indian Institute of Technology, Guwahati, India

9:24-9:26 23446

An experimental investigation of cooling characteristics at a vane end-wall constructed by laminated structure Wei Wang, Jian Pu*, Jian-hua Wang, Yong-xian Luan, Bin-peng Kang University of Science and Technology of China, China

9:26-9:28 23633

Optimal liquid cooling performance of 2.5D-SICs with pin-fin enhanced micro-gaps using design of experiment Yuanchen Hu, Yogendra Joshi* Georgia Institute of Technology, USA

9:28-9:30 24132

1D simulations of thermally buffered prismatic batteries through the application of PCMs Ilya T'Jollyn*, Jasper Nonneman, Wim Beyne, Michel De Paepe Ghent University, The Netherlands

9:30-9:32 21954 Experimental investigation of gas throttling in microchannels for electronic cooling Jianhua Weng*, Hang Zhang, Geng Hui, Xiaoyu Cui, Tongyun Zhang, Tenghui Liu Shanghai University of Electric Power, China

9:32-9:34 24140

Voltage dependence of hot spot temperature on SiC power mosfet with electro-thermal analysis Risako Kibushi*, Tomoyuki Hatakeyama, Kazuhisa Yuki, Noriyuki Unno, Masaru Ishizuka Tokyo University Science, Yamaguchi, Japan

9:34-9:36 22097 Low melting point metal enabled PCM heat sink against high heat flux thermal shock Xiao-Hu Yang, Sen Chen, Xin-Lin Xu, Jing Liu* University of Chinese Academy of Sciences, China

9:36-9:38 23498 Understanding the location of hot spots in transformer windings Tor Laneryd*, Andreas Gustafsson, Sead Travancic ABB Corporate Research, Sweden

9:38-9:40 22381

Vortex propagation in air flows generated by piezoelectric fans and their correlation with fan cooling power efficiency Navid Dehdari Ebrahimi, Zezhi Zeng, Sungtaek Ju* University of California, Los Angeles, USA

9:40-9:42 24314

Analysis of the thermal characteristics and life time of IGBTs by varying the thermal interface material thickness Young Joon Cho*, Andras Vass-Varnai, Attila Szel, Hyuk Il Kwon Mentor Graphics, Korea

124

General Sessions

9:42-9:44 22859

Suspension and working performance of the hydro-dynamically levitated micro-pump for liquid cooling system Ruikang Wu, Wei Lan, Bin Xie, Xingjian Yu, Bofeng Shang, Jie Sun, Run Hu, Xiaobing Luo* Huazhong University of Science and Technology, China

9:44-9:46 21962

Modeling and experimental analysis of heat transfer for power electronic module integrated with phase change thermal management system Yiyi Chen, Bo Li, Yuying Yan*, Yangang Wang University of Nottingham, UK

9:46-9:48 23173 Pressure drop for three-dimensional rectangular microchannels Liangbin Su, Xiaoru Ning*, Peng Liang, Niya Ma, Hao Ma, Zhipeng Duan, Xin Zhang Beijing Jiaotong University, China

9:48-9:50 23780

Effects of hole geometry and curved surface on film cooling effectiveness and heat transfer coefficient measured with compensation of three-dimensional heat conduction Shohei Yamamoto*, Akira Murata, Jingzu Yee, Yushi Maruyama, Kaoru Iwamoto, Yoji Okita Tokyo University of Agriculture and Technology, Japan

9:50-9:52 22502 Investigation of combined hole on film cooling with and without droplets Chao Liu, Ke Tian, Jin Wang*, Zhanxiu Chen, Jiansheng Wang, Bengt Sundén, Hebei University of Technology, China

9:52-9:54 24196

A mixture theory based enthalpy porosity model for performance study of nano enhanced PCM heat sink Santosh Sahoo*, Prasenjit Rath, Mihir Das Indian Institute of Technology, Bhubaneswar, India

9:54-9:56 23343

Environmental temperature effect and thermal management of lithium-ion battery with phase change material/heat pipe coupled system Shuangfeng Wang*, Weixiong Wu, Sihui Hong, Wei Wu, Kai Chen South China University of Technology, China

9:56-9:58 23264

Experimental investigation on the effect of fin length allocation for the PCM melting enhancement Chenzhen Ji, Zhen Qin, Zhenghua Low, Swapnil Dubey, Fook Hoong Choo, Fei Duan* Nanyang Technological University, Singapore

9:58-10:00 23422

An approximation method for heat transfer prediction in a magnetic suspension machine Xinlong Li, Hailin Gu, Peng Qian, Feiyang Sun, Minghou Liu* University of Science and Technology of China, China

10:00-10:02 23708

Bibliometric analysis of research on electronic hotspots thermal management Yuanchen Hu, Lu Wang* Beijing Institute of Technology, China

10:02-10:04 23965

Identification of thermal conductivity mixing models for heterogeneous fouling deposits Emilio Diaz-Bejarano, Elaheh E. Behranvand, Francesco Coletti, Mohammad Reza Mozdianfard, Sandro Macchietto* Brunel University London, UK

10:04-10:06 22857

Reduced working temperature of quantum dots-light-emitting diodes optimized by QDs@silica-on-chip structure Bin Xie, Yanhua Cheng, Xingjian Yu, Bofeng Shang, Kai Wang, Xiaobing Luo* Huazhong University of Science and Technology, China

125

General Sessions

10:06-10:08 23666

Metallized three-dimensional centrosymmetric microstructures to enhance dry contact thermal conductance across nonflat interfaces Jin Cui, Liang Pan, Justin Weibel* Purdue University, USA

10:08-10:10 22832

Heat transfer modelling of a supercapacitor stack Ran Zhao, Dezheng Darson Li, Ann Lee*, Ngai Ming Kwok, Guan Heng Yeoh Macquarie University, Australia

10:10-10:12

23907

The effect of thermal and physical parameters of a lithium ion battery electrode on the internal cell resistance Bereket Tsegai Habte, Fangming Jiang* University of Chinese Academy of Sciences, China

10:12-10:14 22762

Numeric study of surface roughness in flat microchannel heat sink Hui Lu, Liang Gong*, Minghai Xu China University of Petroleum (East China), China

10:14-10:16 23115

Numerical study on multi-scale heat transfer in annulus heated by non-uniform heat flux Di Li, Zhi-Hong Wang, Zeng-Yao Li* Xi’an Jiaotong University, China

10:16-10:18 24051

Numerical modeling and experimental validation of a PCM (phase change material)-based active cooling system for enhanced thermal management Su-Ho Kim, Seok-Won Kang* Korea Railroad Research Institute, Korea

126

General Sessions

August 15, Wednesday 8:30-12:20 Room 311A

Session subject: Heat Exchangers-2 (HER2) Co-Chairs: Bong Jae Lee & Liwu Fan

Time ID Title, Author, Affiliation

9:20-9:22 23714

Numerical investigation on convective heat transfer of supercritical pressure CO2 in serpentine channel Xinying Cui, Jiangfeng Guo*, Xiulan Huai, Keyong Cheng, Haiyan Zhang, Mengru Xiang Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

9:22-9:24 23891

A Single loop pulsating heat pipe in varying gravity conditions: Experimental results and numerical simulations Luca Pietrasanta*, Daniele Mangini*, Davide Fioriti, Nicolas Miche, M. Andredaki, A. Georgoulas, L. Araneo, M. Marengo University of Brighton, UK

9:24-9:26 22520

Parametric study on the permeability of micro-pillar wick with dual-height configuration Hyejin Jang, Sora Jeon, Chan Byon* Ulsan National Institute of Science and Technology, Korea

9:26-9:28 22025

Numerical simulation study on shell-and-tube heat exchangers with overlapped helical baffles Tingting Du, Wenjing Du, Xuefang Li, Qi Chen, Lin Cheng* Shandong University, China

9:28-9:30 21878

Experimental study of the temperature separation of the air flow in a cylindrical channel with permeable walls Alexander Leontiev, Andrey Zditovets*, N. A. Kiselev, Yurii Vinogradov, Mark Strongin Lomonosov Moscow State University, Russia

9:30-9:32 22363 Numerical analysis on flow and heat transfer characteristics of a crescent dune fin Tao Wu, Zhiqiang Guo, Mei Zheng, Shengbao Zhang, Wei Dong* Shanghai Jiao Tong University, China

9:32-9:34 23694

Simultaneous optimization of heat transfer processes and heat exchanger networks based on the entransy-based power flow method Di Liu, Qun Chen*, Kelun He, Xi Chen Tsinghua University, China

9:34-9:36 23587 Experimental testing of a small-scale solar thermal brayton cycle recuperator Kyle Dellar*, Willem Le Roux, Josua Petrus Meyer University of Pretoria, South Africa

9:36-9:38 23386

Thermal-hydraulic performance of printed circuit heat exchanger between supercritical CO2 and molten salt Jiewei Lao, Jing Ding, Jianfeng Lu* Sun Yat-Sen University, China

9:38-9:40 24013

Effect of channel layout on the thermal performance of pulsating heat pipe under local heating condition Jonghyun Lim*, Sung Jin Kim Korea Advanced Institute of Science and Technology, Korea

9:40-9:42 22562

Investigation of flow and heat transfer characteristics for a shell-and-tube heat exchanger with new baffles Yonggang Lei*, Yazi Li, Yongkang Lyu Taiyuan University of Technology, China

127

General Sessions

9:42-9:44 23818

Numerical analysis and experimental verification of microchannel heat exchanger characteristics using porous media approach Junbeom Lee, Jaeseon Lee* Ulsan National Institute of Science and Technology (UNIST), Korea

9:44-9:46 24630

Numemerical investigation on thermal-hydraulic characteristics of PCHE under rolling condition Qi Xiao*, Hanbing Ke, Zhenxing Zhao, Qifan Zou, Shaodan Li Wuhan Second Ship Des. & Res. Ins. China

9:46-9:48 24078 Thermal resistance network model for a recuperator modelling in S-CO2 power cycle Vivek Pandey, Pramod Kumar* Indian Institute of Science, India

9:48-9:50 23990

Numerical investigation on thermal and fluid dynamic behaviors of a heat exchanger in aluminum foam Bernardo Buonomo, Anna Di Pasqua, Davide Ercole, Oronzio Manca, Sergio Nardini* University of Campania "Luigi Vanvitelli", Italy

9:50-9:52 21890

Investigation on average Nusselt and Sherwood numbers in indirect evaporative cooling with counter-flow configurations Yangda Wan, Chengqin Ren*, Lei Yu, Yang Yang, Zhao Wang Hunan University, China

9:52-9:54 22935

Experimental study on refrigerant gas-liquid flow distributions in multi-pass channels with distributing inner pipe Akira Ekawa, Yuki Nakao, Masafumi Hirota* Mie University, Japan

9:54-9:56 24002

Characterization of a triple tube heat exchanger with different inner diameter using Artificial Neural Networks (ANN) José D. Moya*, Antonio E. Molina, José A. Almendros-Ibáñez, Juan F. Belmonte, Juan I. Córcoles-Tendero, Minerva Díaz-Heras, David Rodríguez-Sánchez Renewable Energy Research Institute, Spain

9:56-9:58 22988

Experiments on the effects of surface wettability and inclination angle on the condenser performance of loop thermosyphons Ji-Yu Du, Shwin-Chung Wong* Tsing Hua University, Chinese Taipei

9:58-10:00 23628

The experimental investigation of a double pipe heat exchanger installed inside a split-type air-conditioning system Anchasa Pramuanjaroenkij*, Siriluk Phankhoksoong, Amarin Tongkratoke, Sadic Kakac Kasetsart University, Thailand

10:00-10:02 22573

Effect of different coatings on thermolysis property of gallium-based liquid metals radiator in wide temperature range Yuntao Cui*, Yushu Wang, Yujie Ding, Shuo Xu, Jing Liu* Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China

10:02-10:04 24072

Theoretical and experimental investigations on flow and thermal characteristics of micro pulsating heat pipes Aejung Yoon*, Sung Jin Kim Korea Advanced Institute of Science and Technology, Korea

10:04-10:06 22182

Study on solid sorption heat pipe using halide-ammonia working pairs Guoliang An, Liwei Wang*, Yang Yu Shanghai Jiao Tong University, China

10:06-10:08 24446

Visualized study of the gravity effect in a loop heat pipe with two evaporators and one condenser Xinyu Chang*, Hosei Nagano, Noriyuki Watanabe Nagoya University, Japan

128

General Sessions

10:08-10:10 23215

Review: The development of loop heat pipes with a disk-shaped evaporator He Song, Liu Zhichun*, Liu Wei Huazhong University of Science and Technology, China

10:10-10:12 23100

Performance characteristics of pulsating heat pipe with various non-uniform heating conditions Wonhee Cho, Dong Soo Jang, Junyub Lim, Kyeongsoo Song, Yongchan Kim* Korea University, Korea

10:12-10:14

23807

Orientation effect of discrepancy measure on quantification of bubble swarm patterns in a direct-contact boiling heat transfer process Qingtai Xiao, Qin Gao, Jing Zhang, Xiule Zhu, Jianxin Xu*, Junwei Huang*, Hua Wang* Kunming University of Science and Technology, China

10:14-10:16 23693

Development of numerical simulation method for two-phase flow in shell and tube heat exchangers Yoshiteru Komuro*, Atsushi Kodama, Ling Cheng, Yoshiyuki Kondo, Azuma Seinosuke, Hideyuki Morita, Ryoichi Kawakami, Toshifumi Nariai Mitsubishi Heavy Industries Co. Ltd., Japan

10:16-10:18 22884

Modeling of active-controlled thermosyphons for water recovery applications Tao He, Wei Zhong, Sean Hardick, Rebecca Trojanowski, Tom Butcher, Timothy Wagner, Yaroslav Chudnovsky, William Worek, Jon P. Longtin* Stony Brook University, USA

10:18-10:20 22639

Experimental and numerical investigation of heat transfer and erosion characteristics of a new waffle primary surface heat exchanger Wenxiao Chu, Katrine Bennett, Ting Ma, Yi-Tung Chen*, Qiuwang Wang University of Nevada, Las Vegas, USA

129

General Sessions

August 15, Wednesday 9:20-12:20 Room 311B

Session subject: Radiation and Thermal Insulation (RTI) Co-Chairs: Zhuomin Zhang & Linhua Liu

Time ID Title, Author, Affiliation

9:20-9:22 23455 Modeling heat transfer through protective clothing exposed to radiant heat Udayraj*, Faming Wang* The Hong Kong Polytechnic University, HongKong, China

9:22-9:24 21534

Mathematical model of light radiation pressure upon a thin film space structure with wrinkles Nikolay Nerovny*, Irina Lapina, Anton Grigorjev Bauman Moscow State Technical University, Russia

9:24-9:26 23162

Calculations of directional radiative intensity in one-dimensional gaseous media using LBL and SNB models Hongxu Li, Kui Peng, Zhifeng Huang* Wuhan University, China

9:26-9:28 20528

Synchronous scattering and diffraction from gold nanotextured surfaces with slight periodicity Yu-Bin Chen* Tsing Hua University, Chinese Taipei

9:28-9:30 22518 Measurement on infrared properties of alumina foam at high temperatures Shun-De Zhang, Chuan Sun, Feng-Xian Sun*, Xin-Lin Xia*, Li-Ming Ruan Harbin Institute of Technology, China

9:30-9:32 23551

The split bregman algorithm for temperature reconstruction based on the light-field imaging technique Xing Huang, Hong Qi*, Wenwen Zhang, Li-Ming Ruan Harbin Institute of Technology, China

9:32-9:34 23600

Adaptive net radiative heat transfer and thermal management with origami-structured surfaces Brian Iverson*, Rydge B. Mulford, Ernest Lee Brigham Young University, USA

9:34-9:36 23295 Thermal rectifier based on near-field thermal radiation of nanostructures Jiadong Shen, Xianglei Liu* Nanjing University of Aeronautisc and Astronautics, China

9:36-9:38 23655 Wavelength selective cover for sub-ambient passive radiative cooling Hannah Kim*, Andrej Lenert University of Michigan, USA

9:38-9:40 23491

Experimental studies to determine the time characteristics of radiation of shock-heated gases in different spectral ranges Natalia G. Bykova, Igor E. Zabelinsky, Pavel V. Kozlov, Vladimir Yu. Levashov∗, Oleg P. Shatalov Moscow State University, Russia

9:40-9:42 23868

A modified approach to the lattice Boltzmann model (LBM) based analysis of radiative heat transport Shir Hadida, Oleg Weinstein, Simon Brandon* Technion-Israel Institute of Technology, Israel

130

General Sessions

9:42-9:44 23143 Near-field radiative thermal conductivity of nanoparticle chains Eric Tervo, Baratunde A. Cola, Zhuomin M. Zhang* Georgia Institute of Technology, USA

9:44-9:46 24195

Radiative heat transfer in densely packed spherical particle system by Monte Carlo method B.K. Liu, J. M. Zhao*, L. H. Liu** Harbin Institute of Technology, China

9:46-9:48 23267

Three dimensional analysis of non-boussinesq natural convection with radiative heat transfer in a vertical seven rod bundle Mukul Parmananda, Amaresh Dalal*, Ganesh Natarajan Indian Institute of Technology Guwahati, India

9:48-9:50 24249

Comparison of two global modes: The relationship and difference between SLW model and FSK model based on the new databases Huaqiang Chu*, Fei Ren, Mingyan Gu, Fengshan Liu Anhui University of Technology, China

9:50-9:52 22943 Radiative transfer during a pulsed lightning arc on a metallic plate R. Sousa Martins, Ph. Rivi`ere, L. Chemartin, C. Zaepffel, A. Soufiani* Universit´e Paris Saclay, France

9:52-9:54 22501

Determination of representative elementary volumes for extinction coefficients of metal foams Yang Li, Xiao-Lei Li, Xin-Lin Xia*, Chuang Sun, Qing Ai, He-Ping Tan Harbin Institute of Technology, China

9:54-9:56 23507

Tuning absorption in the solar spectrum through a metallic slit array on a flexible substrate Mingeon Kim, Jongin Choi, Bong Jae Lee* Korea Advanced Institute of Science and Technology, Korea

9:56-9:58 22525 Radiative cooling by using a slab of hexagonal boron nitride Xiaohu Wu, Ceji Fu* Peking University, China

9:58-10:00 23770 Radiative cooling of water to sub-ambient temperature under direct sunlight Dongliang Zhao, Yao Zhai, Gang Tan, Xiaobo Yin, Ronggui Yang* University of Colorado, USA

10:00-10:02 22658

Wideband absorption enhancement analysis of doped silicon nanocone arrays based on anisotropic effective medium approximation Han Wang*, Dong Qi Nanjing Tech University, China

10:02-10:04 23513

Grazing-angle scattering peak phenomenon in the scattering of rough surface Jia Lu, Huaichun Zhou* Tsinghua University, China

10:04-10:06 23420

Influence of metal nanoparticle (MNP) morphology on its radiant absorption and thermal response Jiayu Li*, Yang Tao Nanjing University of Science & Technology, China

10:06-10:08 23041

Ecient model for evaluation of spectral and vertical distributions of clear sky atmospheric longwave radiation Mengying Li, Zhouyi Liao, Carlos Coimbra* University of California, San Diego, USA

10:08-10:10 22393

Near-field thermal radiation in many-body systems composed of core-shell nanoparticles Jie Chen, Tiancheng Huang, Changying Zhao* Shanghai Jiao Tong University, China

131

General Sessions

10:10-10:12 23117

Daytime radiative cooling with polymer-composite coating Tawadud AlKatheeri, Aikifa Raza, Jin-You Lu, TieJun Zhang* Khalifa University, The United Arab Emirates

10:12-10:14 23557

Application of KF-RLSE method for real-time reconstructing the time-varying heat flux in Rosseland approximation model Shuang Wen, Hong Qi*, Xiangyang An, Li-Ming Ruan Harbin Institute of Technology, China

10:14-10:16

23070

Calculation of non-gray radiation absorptivity and absorption coefficient of mixture of gases from HITEMP-2010 database at high temperature. Naman Bartwal, Pradeep Kumar* Indian Institute of Technology Mandi, India

132

General Sessions

August 15, Wednesday 14:00-17:00 Room 309A

Session subject: Convection-4 (COV4) Co-Chairs: Stefano Bortolin & Liangbi Wang

Time ID Title, Author, Affiliation

14:00-14:02 23867

A study on the local flow structure and turbulence quantities inside a heated rectangular riser duct in turbulent natural and mixed convection heat transfer Sin-Yeob Kim, Dong-Ho Shin, Chan-Soo Kim, Goon-Cherl Park, Hyoung Kyu Cho* Seoul National University, Korea

14:02-14:04 23002

Cooling flow behaviour in a wire-woven bulk diamond (WBD) ventilated brake disc Michael Atkins*, Frank Kienhofer, Tongbeum Kim University of The Witwatersrand, South Africa

14:04-14:06 22376

Description of a new wind tunnel to study heat transfer phenomena in a gas mixture at low Prandtl number Philippe Planquart*, Mathieu Delsipee, Lilla Koloszar, Sophia Buckingham Von Karman Institute, Belgium

14:06-14:08 23774

Direct numerical simulation of turbulent heat transfer in pulsating plane channel flows with different frequency Tatsuro Yamazaki*, Yutaka Oda, Ryosuke Matsumoto, Masashi Katsuki Kansai University, Japan

14:08-14:10 23024

Effect of inlet tube spacing on friction factors in multiple circular tubes in the transitional flow regime Josua Petrus Meyer*, Marilize Everts University of Pretoria, South Africa

14:10-14:12 22555

Heat transfer and flow characteristics of cryogenic fluids in a miniature channel of double helical finned tube Jie Cai, Liang Chen*, Shuangtao Chen, Yu Hou Xi'an Jiaotong University, China

14:12-14:14 23003

Field test on the cooling performance for high level water collecting wet cooling tower under crosswind conditions Jian Zou, Yang Zhou, Zhigang Dang, Ming Gao* Shandong University, China

14:14-14:16 22825

Experimental study of natural convection in a cavity: Precise visualization method of temperature field Menghua Duan*, Lin Chen, Yongchang Feng, Junnosuke Okajima, Atsuki Komiya Tohoku University, Japan

14:16-14:18 24392

Intensification of turbulent transport of a boundary layer of a surface by a streamlined high-speed dispersed flow Vladislav Kovalnogov, Ruslan Fedorov* Ulyanovsk State Technical University, Russia

14:18-14:20 24165

Heat transfer and pressure drop characteristics of isopropanol/Al2O3 nanofluid during flow in a cylindrical minichannel Artem Nikulin*, Antonio Moreira University of Lisbon, Portugal

133

General Sessions

14:20-14:22 22710

Heat transfer in a flat channel with high aspect ratio at a heat carrier flow with low-Prandtl number Viktor Naumkin*, Oleg Vitovsky, Maksim Makarov, V. E. Nakoryakov Kutateladze Institute of Thermophysics, Siberian Branch of The Russian Academy of Sciences, Russia

14:22-14:24 21905

Development of steady-state “hot wire” method for micro/nanoscale rare gas heat convection characterization Jianshu Gao, Shasha Zhang, Yanan Yue*, Danmei Xie, Yangheng Xiong Wuhan University, China

14:24-14:26 20599

Lattice Boltzmann modelling of natural convection of power-law fluids under wall vibrations Jianfei Xie, Bingyang Cao* Tsinghua University, China

14:26-14:28 23050

Magnetothermal convection of paramagnetic fluid inside open-cell porous media under gravity field Masayuki Kaneda*, Kazuhiko Suga Osaka Prefecture University, Japan

14:28-14:30 22476

MHD effects and heat transfer performance for no-wetting insulator walls in DCLL blanket Hulin Huang*, Shimou Yin, Guiping Zhu Nanjing University of Aeronautics And Astronautics, China

14:30-14:32 24230

Numerical analysis of impingement jet cooling on the leading edge of a turbine blade Meet Patel, Syed Abbas Haider, Terry Yan* Southern Illinois University, USA

14:32-14:34 23273

Numerical simulation of convection-radiation coupling on thermal plumes in cavities Ying Wang*, Anne Sergent, Denis Lemonnier, Didier Saury, Patrice Joubert University of La Rochelle, France

14:34-14:36 23265

Direct numerical simulation study for fluid-to-fluid scaling for fluids at supercritical pressure Jundi He, Junjie Yan, Wei Wang, Shuisheng He* The University of Sheffield, UK

14:36-14:38 21496

Study on formation mechanism of the flow drag and heat transfer reduction effect of the organic brine with surfactant Naoto Haruki*, Akihiko Horibe, Yutaka Yamada, Touru Kawaguchi Okayama Prefectural University, Japan

14:38-14:40 22512

Transient coupled heat transfer inside cylindrical foam porous block with supersonic flow around Zhen-Huan Li, Xiao-Lei Li, Xin-Lin Xia*, Hai-Feng Sun, Chuang Sun Harbin Institute of Technology, China

14:40-14:42 24371

Effects of partition wall on trasient natural convection in a square porous cavity Chordia Jayesh Subhash, Ram Vinoy Sharma* National Institute of Technology Jamshedpur, India

14:42-14:44 24101

Characteristic analysis of pressure drop in a microchannel heat sink Haojie Huang*, Liang-Ming Pan, Rungang Yan Chongqing University, China

14:44-14:46 23932

Dynamics of large scale flow and its effect on heat transfer in turbulent convection Arnab Kumar De*, Pankaj Kumar Mishra Indian Institution Of Technology Guwahati, India

134

General Sessions

14:46-14:48 23000

Convective heat transfer measurements by means of large towing tank facilities Christian Helcig, Christian Teigler, Robert Wagner, Marek Kapitz, Stefan Aus Der Wiesche*, Uwe Gietz, Moustafa Abdel Maksoud, Samir Kadic, Steffen Strehle Muenster University of Applied Sciences, Germany

14:48-14:50 22612

Flow and heat transfer of double droplets successively impinging on heated surface Feng Wang, Yali Guo*, Qinggang Qiu, Shengqiang Shen Dalian University of Technology, China

135

General Sessions

August 15, Wednesday 14:00-17:00 Room 309B

Session subject: Multiphase Flow-3 (MPF3) Co-Chairs: Chaobin Dang & Xingang Liang

Time ID Title, Author, Affiliation

14:00-14:02 20772

The impact of fuel blends and ambient conditions on the heating and evaporation of diesel and biodiesel fuel droplets Mansour Qubeissi, Nawar Al-Esawi*, Sergei Sazhin Coventry University, UK

14:02-14:04 22048

Effect of ice shedding on heat transfer characteristics of electrothermal deicing process Chunhua Xiao*, Yewei Gui China Aerodynamics and Research Development Center, China

14:04-14:06 22818

Numerical analysis of dual two-phase discharge from a header Meghan Guyot, Scott Ormiston, Hassan Soliman* University of Manitoba, Canada

14:06-14:08 24562

Effect of wettability on characteristics of slug flow inside microchannels Chaobin Dang*, Hanru Yu, Yuki Yoshinaga, Jingren Xu, Eiji Hihara The University of Tokyo, Japan

14:08-14:10 23570

Numerical investigation of minichannel liquid thermal management for high power lithium ion battery using different coolants including nanofluids Huaqiang Liu, Jiyun Zhao* City University of Hong Kong, Hongkong,China

14:10-14:12 23933

High-temperature nonequilibrium thermodynamic properties of N2 with an improved calculation of energy levels Zhi Qin, Junming Zhao, Linhua Liu* Harbin Institute of Technology, China

14:12-14:14 22601

Eulerian-lagrangian approach to modeling heat transfer in gas-particle mixtures: Volume-averaged equations, multiscale modeling and comparison with DNS Mohamed Belerrajoul*, Yohan Davit, Fabien Duval, Michel Quintard, Olivier Simonin Institute for Radiological Protection and Nuclear Safety-Institute of Fluid Mechanics of Toulouse, France

14:14-14:16 23053

Comparison of heat transfer performance on homogeneous surface and heterogeneous surface Lei Zou, Baohai Yang, Hong Wang*, Xun Zhu, Yudong Ding, Rong Chen, Qiang Liao Chongqing University, China

14:16-14:18 20879

Flow boiling in microchannels with HFE-7100: Experimental results and comparision with correlations Ali Al-Zaidi, Mohamed Mahmoud, Tassos Karayiannis* Brunel University London, UK

14:18-14:20 23672

CFD analysis of flow pattern and heat transfer of water jet into supercritical water environment Changsheng Ren, Liejin Guo*, Hui Jin, Guobiao Ou, Zhisong Ou, Zhenhua Ren Xi'an Jiaotong University, China

14:20-14:22 22561

Two phase flow performance of labyrinth seal in cold/hot state for aero-engine Guoqing Li*, Qian Zhang Institute of Engineering Thermophysics, Chinese Academy of Sciences, China

136

General Sessions

14:22-14:24 22713

Numerical simulation of the heat transfer for fully developed stratified wavy oil-water Non-Newtonian two-phase flow in pipeline Yansong Li, Dingqian Ding, Guoxi He*, M.H. Lin, Jianfei Sun, Baoying Wang, Shengchao Xin, Dong Han, Yongtu Liang* China University of Petroleum-Beijing, China

14:24-14:26 24032

Nanotextured surfaces for thermally aware anti-icing Michael Grizen, Tanmoy Maitra, Manish Tiwari* University College London, UK

14:26-14:28 23108

Numerical simulation for gas hydrate in different spatial distribution on gas production by depressurization Yangmin Kuang, Yongchen Song*, Jiafei Zhao*, Lei Yang, Yuechao Zhao Dalian University of Technology, China

14:28-14:30 23716

Measurement of local parameters of two-phase flow in tube bundle Atsushi Kodama, Yoshiteru Komuro*, Yoshiyuki Kondo, Azuma Seinosuke, Hideyuki Morita, Ryoichi Kawakami, Toshifumi Nariai, Yoshito Nishikawa Mitsubishi Heavy Industries Co. Ltd., Japan

14:30-14:32 23692

Apparatus design for measuring forced convection heat transfer coefficients of supercritical H2O/CO2 mixtures Dong Liu, Hanlin Zhang, Sha Li, Qiang Li* Nanjing University of Science and Technology, China

14:32-14:34 22200

Lattice Boltzmann method for understanding the mass transfer mechanisms of two-phase organic indoor air pollutants Yi Mao, Z. Li, Y. L. He, W. Q. Tao* Xi'an Jiaotong University, China

14:34-14:36 23830

Modification of shock layer structure under the impact of a high inertia particle in a supersonic flow around blunt body Dmitry Reviznikov*, Andrey Sposobin, Igor Ivanov Moscow Aviation Institute, Russia

14:36-14:38 24048

Experimental investigation of flow boiling heat transfer boundary of nitrogen in 1.2 mm vertical mini-channel Beichen Zhang, Qinglian Li*, Yuan Wang, Jianqiang Zhang, Peng Zhang, Hongmei Jia National University of Defense Technology, China

14:38-14:40 24401

Vertical annular gas/liquid flows with a 1D two-fluid model: Evaluation of interfacial friction models E. M. G. Fontalvo, Joao N. E. Carneiro, Angela Nieckele* Pontifical Catholic University of Rio De Janeiro, Brazil

14:40-14:42 23701

Study on mass transfer on gas-liquid interface using lattice Boltzmann method Zhikai Tan, Hongjie Yan*, Jingwei Qi, Pei Fu, Ping Zhou, Qing Li Central South University, China

14:42-14:44

22179

Identification of heat transfers for a vapor-droplets flow inside a representative fuel assembly sub-channel Juan David Peña Carrillo*, Alexandre Labergue, Michel Gradeck, Tony Glantz University of Lorraine, France

14:44-14:46 23064

Subcooled flow boiling of FC-72 in vertical small diameter tubes Yantao Li*, Katsuya Fukuda, Qiusheng Liu Dalian Maritime University, China

14:46-14:48 22242

Modelling crystallization and heat transfer in an evaporating urea water drop Achim Bender*, Philipp Hänichen, Peter Stephan, Tatiana Gambaryan-Roisman Technical University of Darmstadt, Germany

137

General Sessions

14:48-14:50 23903

Hydrodynamics and heat and mass transfer during impact irrigation by a system of jets of a vertical surface of a heat exchanger Pavel Karpov*, Alexandr Nazarov, Anatoly Serov, Viktor I. Terekhov Siberian Branch of Russian Academy of Sciences, Russia

14:50-14:52 23113

Experimental investigation of condensation heat transfer coefficients in an inclined smooth tube at low mass fluxes Daniel Ewim*, Josua Petrus Meyer* University of Pretoria, South Africa

14:52-14:54 22268

Methods for modeling heat transfer and solidification in continuous casting Matt Moore, Bangju Chen, Rui Liu, Ken Morales, Armin Silaen, Chenn Zhou* Purdue University Northwest, USA

14:54-14:56 22592

Analysis of system parameters effects on entropy generation of supercritical water flow in a hexagon rod bundle Xin Du, Qinggang Qiu, Qiang Li, Xiaojing Zhu* Dalian University of Technology, China

138

General Sessions

August 15, Wednesday 14:00-17:00 Room 310

Session subject: Combustion and Thermochemistry (CAT) Co-Chairs: Thirumalachari Sundararajan & Huaichun Zhou

Time ID Title, Author, Affiliation

14:00-14:02 23660

CFD study of combustion behavior of multiple huge oil tanks each with a diameter of 20m and 40m and fire mitigation method Koyu Satoh*, Domingos Viegas, Naian Liu, Ji Cong University of Coimbra, Portugal

14:02-14:04 23191

Simulation of wettability effects on gas-water flow in porous media Meiheriayi Mutailipu*, Yu Liu, Bohao Wu, Yongchen Song, Dayong Wang Dalian University of Technology, China

14:04-14:06 22457

Influence of processing conditions on compressive strength and CO2 adsorption of UIO-66 pellets Jiajia Yang, Yudong Ding*, Qiang Liao, Xun Zhu, Qiwei Liu Chongqing University, China

14:06-14:08 22437

Application of quenching to polycrystalline metallurgical slags to reduce comminution energy and increase mineral liberation Corey Myers*, Takao Nakagaki Waseda University, Japan

14:08-14:10 24155

DNS of methane/hydrogen-air turbulent swirling premixed flame in a cuboid combustor Joonhwi Park*, Kozo Aoki, Yuki Minamoto, Masayasu Shimura, Mamoru Tanahashi Tokyo Institute of Technology, Japan

14:10-14:12

23167

Numerical studies of coal particle heat transfer and ignition mode of two interacting coal particles Xue Chen, Mingyan Gu*, Xianhui He, Yuyu Lin, Huaqiang Chu Anhui University of Technology, China

14:12-14:14 23975

Investigation on flame developments in a Si engine with tumble flow using OH PLIF Masayasu Shimura*, Kumar Siddhartha, Tatsuya Moronuki, Yuki Minamoto, Takeshi Yokomori, Mamoru Tanahashi Tokyo Institute of Technology, Japan

14:14-14:16 22105

Nonlinear dynamics of a sustained thermocapillary flow of a thin liquid film in a confined two-layer system under a hydrophobic surface Valeri Frumkin, Alexander Oron* Technion - Israel Institute of Technology, Israel

14:16-14:18 22496

DNS and LES of soot formation in oxy-fuel spray flame: Application of a non-adiabatic flamelet/progress-variable approach Reo Kai, Akihiro Kishimoto, Kenichiro Takenaka, Masaya Muto*, Ryoichi Kurose Kyoto University, Japan

14:18-14:20

23539

The performance investigation of hydrophilic materials modified LiOH•H2O based composite thermochemical materials for low temperature thermal energy storage Shijie Li, Hongyu Huang*, Taoli Huhe, Zhaohong He, Yu Bai, Jun Li, Noriyuki Kobayashi Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, China

139

General Sessions

14:20-14:22 22368

Heat explosion in Fischer–Tropsch catalytic granule with localized cobalt microparticles Igor Derevich*, Vadim Ermolaev, Vladimir Mordkovich, Igor Solomonik, Alexandra Fokina Moscow State Technical University By N.E. Bauman, Russia

14:22-14:24 23453

DSC studies of methane hydrate formation and dissociation in water-in-mineral oil emulsions Zaixing Liu, Weiguo Liu, Chen Lang, Yanghui Li*, Mingjun Yang, Jiafei Zhao, Yongchen Song Dalian University of Technology, China

14:24-14:26 22529

Regulating heat flux bending in metamaterial wedge cells Guoqiang Xu, Haochun Zhang*, Liang Jin, Yan Jin, Haifeng Xing Harbin Institute of Technology, China

14:26-14:28 23499

Simulation of hydrodynamics and mass transfer in membrane bioreactor for photo-biohydrogen production with lattice Boltzmann method Yanxia Yang*, Jing Li Taiyuan University of Technology, China

14:28-14:30 23931

Modeling of steam reforming of ethanol in meso- and micro- channel systems Somasree Roychowdhury*, Sundararajan T., Sarit Kumar Das Indian Institute of Technology Madras, India

14:30-14:32 23352

The effect of initial temperature distribution on the determination of the laminar burning velocity by using constant-volume bomb Zunhua Zhang, Peng Cheng, Jian Tan, Junjie Liang, Gesheng Li* Wuhan University of Technology, China

14:32-14:34

22454

Thermochemical behavior and heat transfer in hypersonic thermal boundary layer with high-enthalpy dissociated carbon-oxygen gas mixture Xiaofeng Yang*, Yewei Gui, Wei Tang, Yanxia Du, Guangming Xiao, Lei Liu, Dong Wei China Aerodynamics Research and Development Center, China

14:34-14:36 23232

Combined radiation and gasification reaction of coal upercritical water fluidized bed reactor: Aumerical study Zhenhua Ren, Liejin Guo*, Hui Jin, Kui Luo Xi'an Jiaotong University, China

14:36-14:38 23303

Two-step iterative method for radiative transfer calculations in axisymmetric flames containing absorbing and scattering particles Leonid Dombrovsky*, Siaka Dembele, Jennifer Wen, Ivan Sikic Joint Institute for High Temperatures, Russia

14:38-14:40 23405

Methanol steam reforming for hydrogen production with waste heat recovery Long Wang, Feng Wang*, Penglai Li, Bohong Chen Chongqing University, China

14:40-14:42 24322

The experimental generation of non-stationary free fire whirls Pavel Dermer* Bauman Moscow State Technical University, Russia

14:42-14:44 24447

Effects of polymer sensitivities on flow intensification by elastic turbulence Guice Yao, Maje Haruna, Ehsan Nourafkan, Haie Yang, Dongsheng Wen* University of Leeds, UK

14:44-14:46

20732

Mitigating combustion instability in a bifurcating thermoacoustic combustor using an electrical heater Dan Zhao*, Arne Reinecke, He Zhao University of Canterbury, New Zealand

140

General Sessions

August 15, Wednesday 14:00-17:00 Room 311A

Session subject: Mass Transfer (MTR) Co-Chairs: Gian Luca Morini & Yinping Zhang

Time ID Title, Author, Affiliation

14:00-14:02 22701

Simulation study of desiccant coated heat exchanger based on the dynamic adsorption performance of isothermal desiccant coating Lingji Hua, Tianshu Ge, Ruzhu Wang* Shanghai Jiao Tong University, China

14:02-14:04

23227

Entransy of water vapor and its balance equation for heat and mass transfer process in the absorber Xiaoyue Zhang, Zhen Li* Tsinghua University, China

14:04-14:06 23289

Effect of preheat on high-temperature steam generation in an adsorption heat transformer by using composite zeolite-water pair B. Xue*, S. Ye, L. S. Zhang, X. L. Wei Zhengzhou University, China

14:06-14:08 23403

Study on bioinspired moisture permeable panel and its mass transfer character Biye Cao*, Ruzhu Wang Shanghai Jiao Tong University, China

14:08-14:10 23441

Wetting and evaporation of octagonal saline droplets on a micropyramid patterned surface Xin Zhong, Junheng Ren, Karen Siew Ling Chong, Kian Soo Ong, Fei Duan* Nanyang Technological University, Singapore

14:10-14:12 23748

Phase change in an adsorbed vapor leading to the wetting transitions Chunmei Wu*, Xiang Wei, Lin Ding, Yourong Li Chongqing University, China

14:12-14:14 22423

Molecular simulation of water adsorption in shale kerogen spherical nano-pores Kecheng Zeng, Ruina Xu, Peixue Jiang* Tsinghua University, China

14:14-14:16 22893

Diffusion coefficient of CO2 in brine with consideration of swelling effect Xingbo Li, Bohao Wu, Yongchen Song, Yu Liu, Lanlan Jiang* Dalian University of Technology, China

14:16-14:18 24043

Experimental study of mass transfer caused by actuated millimetric-pillar Dongdong Liu*, Binh Thien Nguyen, Tuan Tran Nanyang Technological University, Singapore

14:18-14:20 23188

A study on diffusion of carbon dioxide in n-hexadecane using MRI Min Hao*, Yingchun Tang, Yuechao Zhao, Yongchen Song Dalian University of Technology, China

14:20-14:22 24076

Particle transfer and structure formation in catalyst ink during drying process Takahiro Suzuki*, Shohji Tsushima Osaka University, Japan

14:22-14:24 23202

Assessment of indoor PM2.5 concentration: Infiltration factors and relative error Zhiwei Sun, Jianping Cao, Yinping Zhang* Tsinghua University, China

14:24-14:26 24239

Effects of suction and spillage on supercritical carbon dioxide-based drying of aerogels Georgios Karamanis, Hy Dinh, Nicolas Waisbord, Marc Hodes* Tufts University, USA

141

General Sessions

14:26-14:28 23283

Characteristic investigation of static liquid desiccant dehumidification process by molecular dynamics Tingting Chen, Yonggao Yin, Yuwen Zhang, Xiaosong Zhang Southeast University, China

14:28-14:30 23846

Effect of ultrasound pretreatment on microstructure and drying characteristics of fibrous porous media Panpan Li, Zhenqian Chen*, Juan Shi Southeast University, China

14:30-14:32 24191

Numerical simulation of heat transfer and oil mixing process in hilly products pipeline under shutdown condition Guoxi He, Baoying Wang*, Liying Sun, Yansong Li, Yongtu Liang, Qiyu Huang China University of Petroleum-Beijing, China

14:32-14:34 24220

Application of the wavelength selective emitter with the metamaterial of a metal-insulator-metal to an infrared ray drying furnace Tsuyoshi Totani*, Atsushi Sakurai, Thang D. Dao, Tadaaki Nagao, Yoshio Kondo Hokkaido University, Japan

14:34-14:36 23524

Improved C-history method for rapidly and accurately measuring the characteristic parameters of formaldehyde/VOCs emitted from building materials Xu Zhang, Jingya Wei, Yinping Zhang* Tsinghua University, China

14:36-14:38 23719

Development and experimental study of quaternary nitrates with low melting point and high decomposition temperature Yuting Wu*, Lulu Zou, Chongfang Ma Beijing University of Technology, China

14:38-14:40 23500

Dependence of rubber wear performance on external experimental conditions Zepeng Wang, Fushun Zhang, Zongxiang Zhao Qingdao University of Science and Technology, China

14:40-14:42 21906

Temperature-dependent characteristics of Raman scattering enhancement induced by Au nanopatterns Yanru Xu, Yixin Chen, Zehua Xie, Yanan Yue*, Jin Jiang* Wuhan University, China

14:42-14:44 24207

Critical review of ultrasonic-enhanced desorption processes Hooman Mobarakeh, Nicolas Campbell, Sumit Tiwari, Weston Bertrand, Ahmad Bamasag, Mark Miner, Liping Wang, Robert Wang, Patrick Phelan* Arizona State University, USA

142

General Sessions

August 15, Wednesday 14:00-17:00 Room 311B

Session subject: Molecular, Photon, Phonon and Electron Transport (MPE) Co-Chairs: Jurandir Itizo Yanagihara & Guihua Tang

Time ID Title, Author, Affiliation

14:00-14:02 23296

Effect of heating and cooling characteristic on thermoelectric generator performance Feng Wang*, Penglai Li, Long Wang, Bohong Chen, Ling Yao Chongqing University, China

14:02-14:04 23392

Influence of thomson effect on efficiency of thermoelectric generator Yuanyuan Wang, Zihua Wu, Jiaojiao Xing, Yihuai Li, Jianhui Mao, Jing Li, Huaqing Xie* Shanghai Second Polytechnic University, China

14:04-14:06 22539

Four-phonon scattering reduces intrinsic thermal conductivity of graphene and the contributions from flexural phonons Tianli Feng, Xiulin Ruan* Purdue University, USA

14:06-14:08 22429

A modified theoretical model to predict the thermal interface conductance considering interface roughness Dengke Ma*, Yingying Zhang, Yi Zhang, Nuo Yang Huazhong University of Science and Technology, China

14:08-14:10 23049

Water transport confined in graphene oxide channels through rarefied effect Bo Chen, Haifeng Jiang*, Xiang Liu, Xuejiao Hu* Wuhan University, China

14:10-14:12 22436

Ultra-fast vapor generation by a graphene nano-ratchet: A theoretical and simulation study Guilong Peng*, Hongru Ding, Shenqiu Mo, Nuo Yang Huazhong University of Science and Technology, China

14:12-14:14 24664

An improved molecular dynamics algorithm to study thermodiffusion in binary hydrocarbon mixtures S. Antoun*, M. Z. Saghir, S. Srinivasan Ryerson University, Canada

14:14-14:16 24360

Probing migration of ions at the oil-water interface Boyao Wen, Bofeng Bai* Xi'an Jiaotong University, China

14:16-14:18 22395

Manipulation of light absorption based on disordered media with short-range order M. Q. Liu, C. Y. Zhao*, B. X. Wang, X. W. Chen Shanghai Jiao Tong University, China

14:18-14:20 22461

Doping effects on thermal transport properties of PEDOT Xiaoxiang Yu*, Ruiyang Li, Takuma Shiga, Lei Feng, Junichiro Shiomi, Nuo Yang Huazhong University of Science and Technology, China

14:20-14:22 24412

Photon upconversion based on molecular scale energy and mass transfer: Materials development, microscopic kinetics, and photophysical properties Yoichi Murakami* Tokyo Institute of Technology, Japan

14:22-14:24 22250

First principle study on thermoelectrical properties of silicon nanostructures Yifei Li, Bo Fu, Guihua Tang* Xi’an Jiaotong University, China

143

General Sessions

14:24-14:26 22285

Photonic-electric-thermal design of GaAs-based photovoltaic-hermoelectric hybrid systems Yuanpei Xu*, Yimin Xuan Nanjing University of Aeronautics and Astronautics, China

14:26-14:28 21085

New and emerging applications of nanoscale thermal science and engineering Sean Lubner, Sumanjeet Kaur, Ravi Prasher*, Lawrence Berkeley Lab, USA

14:28-14:30

22184

Negative gaussian curvature induces significant suppression of thermal conductivity in carbon crystals Zhongwei Zhang, Jie Chen*, Baowen Li* Tongji University, China

14:30-14:32 22392

Mid-infrared broadband absorber based on HBN/metal heterostructures Yinhui Kan, Changying Zhao*, Zhuomin Zhang Shanghai Jiao Tong University, China

14:32-14:34 22405

Generalized two-temperature model for coupled phonons in nanosized graphene Meng An*, Qichen Song, Xiaoxiang Yu, Han Meng, Dengke Ma, Ruiyang Li, Zelin Jin, Baoling Huang, Nuo Yang Huazhong University of Science and Technology, China

14:34-14:36 22399

High temperature thermal conductivity of silicon from machine-learning-based interatomic potential Xiaokun Gu, Changying Zhao* Shanghai Jiao Tong University, China

14:36-14:38 23752

Modulation of thermoelectric properties of carbon nanotubes using coherent phonons Masato Ohnishi, Junichiro Shiomi* The University of Tokyo, Japan

14:38-14:40 22406

Unexpectedly high cross-plane thermoelectric performance in layered organic semiconductors Zhidong Ding, Meng An*, Shenqiu Mo, Zelin Jin, Yuxuan Liao, Jingtao Lü, Junichiro Shiomi, Nuo Yang Huazhong University of Science and Technology, China

14:40-14:42 23886

The thermal effect in nano osmosis Xiaokang Liu*, Liangsuo Shu, Anna Wald, Shiping Jin Huazhong University of Science & Technology, China

14:42-14:44 23757

Enhancing the interfacial thermal conduction of graphene sheets by bond connection Kai-Xuan Chen, Dong-Chuan Mo, Min-Shan Li, Shu-Shen Lyu* Sun Yat-sen University, China

14:44-14:46 22253

Enhancement of interfacial thermal conductance of SiC by overlapped carbon nanotubes and intertube atoms Chengcheng Deng*, Xiaoxiang Yu, Xiaoming Huang, Nuo Yang Huazhong University of Science and Technology, China

14:46-14:48 22484

Topology dependence of thermal conductivity in semicrystalline polyethylene by molecular dynamics simulation Tingyu Lu, Kyunghoon Kim, Xiaobo Li, Jun Zhou, Gang Chen, Jun Liu* North Carolina State University, USA

14:48-14:50 22390

Radiation transport in disordered media composed of dual dipolar nanoparticles Boxiang Wang, Changying Zhao* Shanghai Jiao Tong University, China

14:50-14:52 22176

Kinetic model for molecular transport of liquid mixtures in the vicinity of solid-liquid interfaces Mamoru Hirasawa*, Gota Kikugawa, Takeo Nakano, Taku Ohara Tohoku University, Japan

144

General Sessions

14:52-14:54 23582

Negative pressure effect on the thermal conductivity of wurtzite ZnO Kunpeng Yuan, Zhongyin Zhang, Xiaoliang Zhang, Dawei Tang* Dalian University of Technology, China

14:54-14:56 22560

Research on echo power detection based on laser radiation transmission characteristics of non-cooperative target surface Di Wang, Guozhong Wu, Dong Li*, Hanbing Qi, Yan Lv Northeast Petroleum University, China

14:56-14:58

23753

Chemical intuition for high thermoelectric performance in monolayer black phosphorus, α-arsenene and aW-antimonene Bo Peng*, Hao Zhang, Hezhu Shao, Heyuan Zhu Fudan University, China

147

Young Researchers Meeting Young Researchers Meeting (YRM) August 13, Monday, 13:30-21:00 Summer Palace & Tsinghua University Networking events and activities for young researchers in the fields of thermal science and engineering

The Young Researchers Meeting (YRM) is an event devoted to the casual interchange of research and ideas in thermal science and engineering, and aims to expand the international networks of young researchers who have gathered from all over the world to participate in IHTC-16. This meeting is primarily for research staff, postdocs, and Ph.D. students younger than approximately 40. Originally, it was planned for 50 persons. For this international group of colleagues, we have planned an excursion to the Summer Palace & Tsinghua University (a special reserved tour), stimulating networking activities, and a dinner party at the Meeting Room on M floor, Mengminwei Science & Technology Building, Tsinghua University. Schedule August 13 (Monday) 13:30-13:45 Pre-meeting in CNCC Room 306A (opening and announcement) 14:00-15:00 Travel to Summer Palace (by bus, together) 15:00-16:30 Special tour inside the Summer Palace 16:30-17:00 Travel to Tsinghua University Campus (by bus, together) 17:00-18:00 Tour inside Tsinghua University Campus 18:00-19:00 Networking activities 19:00-20:30 Dinner party 20:30-21:00 Back to CNCC (by bus, together)

August 14 (Tuesday) 12:30-14:00 Post-meeting in the lunch area of Ballroom B

On the 13th, we will start the YRM with a special tour of The Summer Palace and Tsinghua University. Afterwards, we will travel to an event site and enjoy networking activities and a buffet dinner, which may be the most important and exciting part of the YRM. On the 14th, a follow up meeting will be held at a reserved table in the lunch area to solicit feedback from attendees and discuss our prospects for the next YRM. Registration is available on the IHTC-16 website (http://www.ihtc16.org) until the meeting is full. There is also a WeChat group at “YRM in IHTC” to chat, share photos, and organize casual get-togethers.

YRM Organizing Members Bingyang Cao (Chair) Tsinghua University Guihua Tang Xi’an Jiaotong University Rong Chen Chongqing University Yong Shuai Harbin Institute of Technology Mingjia Li Xi’an Jiaotong University Weigang Ma Tsinghua University Atsuki Komiya Tohoku University Bongjae Lee Korea Advanced Institute of Science and Technology Daniel J. Preston Massachusetts Institute of Technology

Summer Palace Tsinghua University campus

148

Awards

Nukiyama Memorial Award Prof. Ruzhu Wang Institute of Refrigeration and Cryogenics Shanghai Jiao Tong University Shanghai, China Ruzhu WANG, born in Dec.1964, graduated from Shanghai Jiao Tong University

(SJTU) in 1984, 1987 and 1990 for his bachelor, master and Ph.D. degrees. He was promoted to associate professor in 1992 and full professor in 1994 at SJTU.

Dr. Wang’s research interests include thermally driven sorption cycles, heat pumps, heat transfer in superfluid helium, solar energy and green building energy systems. He has written 10 books and over 380 SCI journal papers. His ISI H- index is 53. He has won Chinese National Research Awards in 2010 and 2014. Due to his noteworthy contributions to Refrigeration globally, he was honored to receive the J & E Hall International Gold Medal from the Institute of Refrigeration in 2013 and the Asia Academic Award on Refrigeration in 2017. He was recognized as a Highly Cited Researcher by Thomson Reuters in 2017.

Prof. Wang was appointed the director of the Institute of Refrigeration and Cryogenics of SJTU in 1993. Currently, he is also the Director of the Engineering Research Center of Solar Energy, MOE China and Vice dean of the SJTU Energy Institute. His research group was recognized as an Excellent Innovative Team of Energy Research from MOST, China, in 2014 and the NSFC in 2015.

Prof. Wang is currently vice president of the Chinese Association of Refrigeration, Deputy Editor-in-Chief of Energy and Regional editor of the International Journal of Refrigeration.

2016 Luikov Medal Dr. Leonid A. Dombrovsky Joint Institute for High Temperatures of the Russian Academy of Science Russia Leonid A. Dombrovsky is a chief researcher of the Joint Institute for High Temperatures

of the Russian Academy of Science. He received the Candidate (Ph.D.) degree in 1974 from the Moscow Institute of Physics and Technology and the Doctor of Science degree in 1990 from the Research Institute of Thermal Processes, Moscow, Russia. His research interests are focused on theoretical modelling of radiative and combined heat transfer in dispersed systems including analyses of wide-range spectral properties of particles and fibres and diverse applications to power engineering, geophysics, and biomedicine. He has published more than 250 research papers, mainly in refereed journals. The Fifth Radiation Symposium on Radiative Transfer (Bodrum, Turkey, 2007) was dedicated to Leonid Dombrovsky in recognition of his valuable contributions to the radiation research field. His monograph “Thermal radiation in disperse systems: An engineering approach” (Begell House, New York, 2010) is well known by many researchers over the world. A systematic cooperation of Dr. Dombrovsky with his colleagues from research groups in Australia, Germany, France, Israel, Russia, Sweden, Switzerland, United Kingdom, and the United States during the last two decades has been especially useful for improving theoretical and modelling skills and to enrich various physically sound models. These advances have led to practical achievements in such diverse fields as heat transfer in rocket engines and solar thermo-chemical reactors, complex processes accompanying possible severe accidents in nuclear reactors, microwave radiation in foams on the ocean surface, unique heat-shielding properties of highly-porous thermal insulations, shielding of intense thermal radiation by evaporating or sublimating particle clouds, managing the self-assembled droplet clusters levitating over the locally heated water surface, and planning of infrared thermal treatment of human tumours to fight cancer.

The Luikov Medal is awarded by the International Centre for Heat and Mass Transfer (ICHMT) to one individual every two years for outstanding contributions to the science and art of heat and mass transfer and for activities in international scientific cooperation in conjunction with ICHMT programs. The award is dedicated to Aleksey Vasilievich Luikov, a renowned Russian pioneer in the field of heat transfer.

149

Awards

William Begell Medal Dr. Leonid A. Dombrovsky Joint Institute for High Temperatures of the Russian Academy of Science Russia Leonid A. Dombrovsky is a chief researcher of the Joint Institute for High Temperatures

of the Russian Academy of Science. He received the Candidate (Ph.D.) degree in 1974 from the Moscow Institute of Physics and Technology and the Doctor of Science degree in 1990 from the Research Institute of Thermal Processes, Moscow, Russia. His research interests are focused on theoretical modelling of radiative and combined heat transfer in dispersed systems including analyses of wide-range spectral properties of particles and fibres and diverse applications to power engineering, geophysics, and biomedicine. He has published more than 250 research papers, mainly in refereed journals. The Fifth Radiation Symposium on Radiative Transfer (Bodrum, Turkey, 2007) was dedicated to Leonid Dombrovsky in recognition of his valuable contributions to the radiation research field. His monograph “Thermal radiation in disperse systems: An engineering approach” (Begell House, New York, 2010) is well known by many researchers over the world. A systematic cooperation of Dr. Dombrovsky with his colleagues from research groups in Australia, Germany, France, Israel, Russia, Sweden, Switzerland, United Kingdom, and the United States during the last two decades has been especially useful for improving theoretical and modelling skills and to enrich various physically sound models. These advances have led to practical achievements in such diverse fields as heat transfer in rocket engines and solar thermo-chemical reactors, complex processes accompanying possible severe accidents in nuclear reactors, microwave radiation in foams on the ocean surface, unique heat-shielding properties of highly-porous thermal insulations, shielding of intense thermal radiation by evaporating or sublimating particle clouds, managing the self-assembled droplet clusters levitating over the locally heated water surface, and planning of infrared thermal treatment of human tumours to fight cancer.

Prof. Alexander A. Fedorets University of Tyumen Tyumen, Russia Professor Alexander Fedorets is the head of the Laboratory of Micro-Hydrodynamic

Technologies at the University of Tyumen, Western Siberia, Russia. He received his Ph.D. degree in Thermal Sciences in 2004. He defended his second thesis in 2014 and received his Doctor of Science degree (the highest academic degree in Russia). His research interests are focused on experimental studies and theoretical modelling of micro-scale effects on heat and mass transfer in open multiphase systems with interphase surfaces. He has published more than 50 research articles and received 24 patents for inventions. In 2004, Alexander Fedorets discovered a new physical phenomenon, the dissipative structure known as a levitating droplet cluster. This achievement was the starting point of a long-term study with many fascinating findings. His cooperation with experienced researchers from Russia, Israel, and the USA in recent years has been very important for understanding the behaviour of self-assembled clusters and to develop a method to generate and stabilize clusters with well-predicted parameters. This method will lead to the promising next stage of the work using droplets of a levitating cluster as unique micro-reactors in chemical and bio-chemical studies.

The William Begell Medal, For Excellence in Thermal Science and Engineering is being established in 2010 by Begell House Inc. The medal will be awarded to an individual, from among those selected to deliver Keynote lectures at the current IHTC Conference, who is held in high regard by the heat transfer community for his/her contributions an excellence in thermal science and technology and whose IHTC Keynote paper is judged to make a profound contribution to the thermal science and engineering literature.

150

Awards

2016 Fellowship Award Prof. Peter Stephan Institut für Technische Thermodynamik, Center of Smart Interfaces Technische Universität Darmstadt Darmstadt, Germany Dr. Peter Stephan is a professor for Technical Thermodynamics at the Technical

University Darmstadt. He received his Ph.D. from the University Stuttgart in 1992. In the same year, he entered the Daimler-Benz group and subsequently worked as senior process engineer and later as R&D manager for production processes. In 1997, he received the full professorship for Technical Thermodynamics at the Technical University Darmstadt. He has published more than 200 journal and conference papers and several book contributions. Since 2007 he is Editor-in-chief of the VDI Heat Atlas. Dr. Stephan received several awards, e.g. the Nukiyama Memorial Award in 2012, the ICNMM08 Outstanding Researcher Award and the Journal of Heat Transfer Outstanding Reviewer Award both in 2008, the Prize for Excellence in Heat Transfer Research of the French Society for Thermal Sciences in 2002, the Sadi Carnot Prize of the International Institute of Refrigeration in 1995. Since 2006 he serves as the chairman of the German Heat and Mass Transfer Association. He is an editorial board member for Heat and Mass Transfer, Experimental Heat Transfer, Experimental Thermal and Fluid Science, and Heat Pipe Science and Technology.

Prof. Yogesh Jaluria Department of Mechanical and Aerospace Engineering Rutgers, the State University of New Jersey Piscataway, NJ, USA Dr. Yogesh Jaluria is Board of Governors Professor and Distinguished Professor at

Rutgers, the State University of New Jersey. His research work is in the field of thermal science and engineering, covering areas like convection, fires, materials processing, thermal management of electronics, energy, and optimization of thermal systems. He is the author/co-author of eight books and editor/coeditor of thirteen conference proceedings, eight books, and seven special issues of archival journals. He has contributed over 500 technical articles, including over 210 in archival journals. He received the prestigious 2007 Kern Award from AIChE, the 2003 Robert Henry Thurston Lecture Award from ASME, and the 2002 Max Jakob Memorial Award, the highest international recognition in heat transfer, from ASME and the AIChE. He received the 2000 Freeman Scholar Award, the 1999 Worcester Reed Warner Medal and the 1995 Heat Transfer Memorial Award all from ASME. He has served as Department Chairman and as Dean of Engineering. He was the Editor of the Journal of Heat Transfer (2005-2010), and Computational Mechanics (2003-2005). He has served as Conference Chairman for several conferences and has presented many invited Keynote and Plenary lectures. He is an Honorary Member of ASME, a Fellow of AAAS and APS, an Associate Fellow of AIAA and member of other professional societies. He is currently the President of the American Society of Thermal and Fluids Engineers.

151

Awards

The Young Scientist Award (AUTSE) Dr. Dong Kyu Kim Mechanical Engineering Department Chung-Ang University Seoul, Korea Dr. Dong Kyu Kim received his doctorate from Seoul National University in 2016. He

then worked as a Visiting researcher in the Microfluidics group / Energy research group of KIST-Europe in Germany and as a Guest Scientist at the Transfer Center for Sustainable Electrochemistry in Germany. He is currently an assistant professor in the Mechanical Engineering Department of Chung-Ang University in Seoul, Korea.

His research focuses on the operating characteristics of polymer electrolyte membrane (PEM) fuel cell systems and on the transport mechanism for how water transport through the Nafion® 117 depends on the relative humidity, pressure, and temperature. He is also investigating organic Rankine cycles (ORC) for low-grade heat at temperatures below 100°C and has used exergy analyses to improve the performance of power systems. He has then designed hybrid system with an ORC coupled with a PEM fuel cell system. He has also done research on vanadium redox flow batteries.

He has published 9 papers in peer-reviewed journals and holds 2 patents. Dr. Mingjia Li Xi’an Jiaotong University Xi’an, China Dr. Mingjia Li is a lecturer in Xi’an Jiaotong University and part of the Key Laboratory of

Thermo-Fluid Science and Engineering of MOE. She was granted her bachelor degree from the University of Liverpool, U.K., and her master’s degree from the University of Nottingham, U.K. She obtained her doctoral degree from Xi’an Jiaotong University in cooperation with Columbia University in the U.S. She has received national and provincial awards such as the National Innovative Talents Support Plan of China Postdoctoral Foundation, the Outstanding Young Investigator Award in Shannxi Province and the Outstanding Graduate Award in Thermodynamics (Wu Zhong-Hua Foundation).

She has published 42 peer-reviewed journal papers in top journals with 558 SCI citations and an h-index of 14. Among them, 7 papers have been selected as Essential Science Indicators (1% top) including 2 Hot papers (0.1% top) and 6 Research Front papers. She has given more than 11 presentations in international conferences and universities and 2 invited talks in international conferences. She also has 6 patents and 2 software copyrights. She has been the PI or one of the main researchers in 19 national research programs including international projects.

152

Awards Dr. Lin Chen Department of Aerospace Engineering Tohoku University, Japan Dr. Lin Chen is an Assistant Professor in Department of Aerospace Engineering,

Tohoku University, Japan. He obtained his Ph.D. (2015) in Energy and Resources Engineering from Peking University. He was then appointed as a JSPS and JST-CREST Research Fellow in Tohoku University (Japan). His current research topics include renewable and unconventional energy resources, supercritical fluids, multiscale heat/mass transfer, and advanced measurement techniques. In recent years, he has authored many well-cited international journal papers (40), conference papers/presentations (60), keynotes and invited talks (6), and books (2)/chapters (4), including the most famous one on energy conversion (“Advanced Applications of Supercritical Fluids in Energy Systems”, IGI Global, 2017, 680 pages). His doctoral thesis was also selected and published as a Springer book (“Microchannel Flow Dynamics and Heat Transfer of a Near-Critical Fluid”, Springer, 2016, 153 pages). He is on the TOP5 most-cited list of Elsevier (2013-2016). He now focuses on transient analyses of near-critical and supercritical fluid heat transfer dynamic processes. He also investigates high-pressure multi-scale flow and heat transfer processes and developed a robust model for utilizing oceanic methane hydrates (CH4·6H2O). His short-to-long term production scenarios with multi-layered reservoir modeling are moving towards economic utilization of methane hydrates. Dr. Chen is a winner of the President Scholarship, National Scholarship (MOE), Elite Scholar award (PKU) and many other honors. He received the Innovation Award in 2011, 2012, and 2014, and the Best Paper Award of the Chinese Association of Refrigeration (2015), and was recognized as an Elsevier Excellent Reviewer (2013, 2014, 2015). He is also an active Reviewer and Guest Editor for many renowned international journals and conferences.

2016 Hartnett-Irvine Award Prof. Ryosuke Matsumoto Department of Mechanical Engineering Kansai University Osaka, Japan Dr. Ryosuke Matsumoto has been a professor at Kansai University since April 2016.

He received his Ph.D. from Doshisha University, Japan, in 2001. He was a research fellow at the Alexander von Humboldt Foundation in 2002. Dr. Matsumoto has undertaken fundamental and applied research on heat and mass transfer with his unique experimental approach. In particular, he has made significant contributions to understanding frosting. Frost formation is one of the important issues in refrigerating and heat pump systems. He uses neutron radiography, which is a non-destructive inspection approach, to estimate the frost distribution on the heat exchanger based on the neutron beam attenuation. He was awarded the JSRAE (Japan Society of Refrigerating and Air Conditioning Engineers) academic prize for this work. He also introduced the use of an X-ray micro CT to estimate the frost crystal microstructure. These research results are expected to contribute to developing anti-frosting heat exchangers. Another of Dr. Matsumoto's noteworthy contribution is developing a superheated steam generator using the advanced vortex burner. He received the HTSJ (Heat Transfer Society of Japan) award in 2009 for this applied research. He has published 43 referred journal articles and has made 93 presentations at international conferences.

Takuma Uechi Mr. Takuma Uechi was a graduate student at Kansai University. He received his B.S. and M.S. degrees

from Kansai University in 2015 and 2017. He currently works for Kawasaki Heavy Industries, Ltd. Kazuma Kagebayashi Mr. Kazuma Kagebayashi was a graduate student at Kansai University. He received his B.S. and M.S.

degrees from Kansai University in 2014 and 2016. He currently works for an automobile manufacturer.

MISCELLANEOUS TOPICS

Memo

153

Exhibitors Platinum Sponsors

Gold Sponsor

Silver Sponsor

Huawei Technologies Co., Ltd. www.huawei.com/en/

Pioneer Energy (Jiangsu) Co., Ltd www.pioneerenergy.cn/en/

Zhongkelihan (Shenzhen) Resheng Technology Co., Ltd. www.lihantech.com.cn/

GREE Electric Appliances, Inc. of Zhuhai Co., Ltd global.gree.com/

Hunan Zhongke Tai Tong Thermal Energy Technology Development Co., Ltd www.hnzktt.com/

Science and Technology on Thermal Energy and Power Laboratory Keylab_rndl@163.com

154

Exhibitors Bronze Sponsors

International Copper Association, Ltd. www.copperalliance.asia/

Elsevier www.elsevier.com/

Springer Nature www.springernature.com/gp/

North China Electric Power University bjmfht.ncepu.edu.cn/

Sanhua (Hangzhou) Micro Channel Heat Exchanger Co., Ltd. www.sanhuamc.com/index.aspx

Thermal Management Working Committee of Chinese Electronics Standardization Association www.cesa.cn/index

Hot Disk AB www.hotdisk-china.com/

155

Exhibitors

Sponsor Appreciation

Hikami Light and Textile Industry Co., Ltd www.hayashiwall.com/en/

TA Instruments www.tainstruments.com.cn/

Qing Dao Haiwan Group Co., Ltd. www.qdhw.com/index.html

Jiangsu Wujin Stainless Steel Pipe Group Co., Ltd en.wjss.com.cn/indax.aspx

Chongqing Sunrise Heat Exchanger Co., Ltd www.cqsunrise.com/

Beijing YSHY Technology Co., Ltd. www.ndtek.com/

156

History of IHTCs

History of the International Heat Transfer Conferences

# Year City Nation

1 1951 London Atlantic City

United Kingdom United States

2 1961 1962

Boulder London

United States United Kingdom

3 1966 Chicago United States 4 1970 Paris Versailles France 5 1974 Tokyo Japan 6 1978 Toronto Canada 7 1982 München Germany 8 1986 San Francisco United States 9 1990 Jerusalem Israel 10 1994 Brighton United Kingdom 11 1998 Kyongju Korea 12 2002 Grenoble France 13 2006 Sydney Australia 14 2010 Washington United States 15 2014 Kyoto Japan 16 2018 Beijing China 17 2022 Cape Town South Africa

COMMITTEESAUTHOR INDEX

IHTC-16 Statistics

Memo

157

Committees

Meetings The Assembly for International Heat Transfer Conferences (AIHTC) August 13, Monday, 14:00-18:00 in Room 306A International Centre for Heat and Mass Transfer (ICHMT) August 10, Friday, 9:00-18:00 in Room 310 AUTSE Executive Board August 11, Saturday, 14.00-16.00 in Room 306A Elsevier Editors August 11, Saturday, 12:00-19:00 in Room 211

The Assembly for International Heat Transfer Conferences (AIHTC)

Delegates

Delegates

Australia Japan President Steven Armfield Yukitaka Kato

Hideo Yoshida Victoria Timchenko Yasuyuki Takata Vice President Brazil Korea

Ping Cheng Gherhardt Ribatski Sung Jin Kim Secretary Helcio R. B. Orlande Tae Ho Lee

Xing Zhang Canada Portugal Dominic Groulx Pedro Coelho Past Presidents Patrick H. Oosthuizen Vítor A. F. Costa Avram Bar-Cohen China Russia

Graham de Vahl Davis Xing Zhang Alexander I. Leontiev Jean M. Delhaye Qiuwang Wang Leonid A. Dombrovsky Richard J. Goldstein France South Africa Geoffrey F. Hewitt Denis Maillet Charl G. du Toit Frank C. Hooper Sebastian Volz Josua P. Meyer Sung Tack Ro Germany Switzerland

Stephan Kabelac John R. Thome Ulrich Gross Dimos Poulikakos India The Netherlands Gautam Biswas Theo H. van der Meer S. Srinivasa Murthy Michel de Paepe Israel United Kingdom Neima Brauner Francesco Coletti Gennady Ziskind Tassos Karayiannis Italy United States of America Paolo Di Marco Mohamed S. El-Genk Maurizio L. Cumo Raj M. Manglik

158

Committees

16th International Heat Transfer Conference (IHTC-16) Organizing Committee Ping Cheng, Chair, Shanghai Jiao Tong University Zengyuan Guo, Cochair, Tsinghua University Wenquan Tao, Cochair, Xi’an Jiaotong University Xing Zhang, Cochair, Tsinghua University Yimin Xuan, Nanjing University of Aeronautics and Astronautics Heping Tan, Harbin Institute of Technology Xinxin Zhang, University of Science and Technology Beijing Wei Liu, Huazhong University of Science and Technology Lianxiang Ma, Qingdao University of Science and Technology Xiaoxi Yang, Dongguan University of Technology Peixue Jiang, Tsinghua University Ruzhu Wang, Shanghai Jiao Tong University Zhongliang Liu, Beijing University of Technology Qiang Liao, Chongqing University Qiuwang Wang, Xi’an Jiaotong University Gang Chen, Massachusetts Institute of Technology Xianfan Xu, Purdue University Chenn Qian Zhou, Purdue University Chongfang Ma, Beijing University of Technology Yaling He, Xi’an Jiaotong University Tianshou Zhao, The Hong Kong University of Science and Technology Lisa Xu, Shanghai Jiao Tong University Changying Zhao, Shanghai Jiao Tong University Yongchen Song, Dalian University of Technology Jinliang Xu, North China Electric Power University Mingjiu Ni, University of Chinese Academy of Sciences Lin Cheng, Shandong University Yewei Gui, China Aerodynamics Research and Development Center Jing Liu, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences Executive Committee Xing Zhang, Chair, Tsinghua University Xinxin Zhang, Cochair, University of Science and Technology Beijing Peixue Jiang, Cochair, Tsinghua University Xingang Liang, Tsinghua University Yinping Zhang, Tsinghua University Yuanyuan Duan, Tsinghua University Huaichun Zhou, Tsinghua University Qun Chen, Tsinghua University Jinjia Wei, Xi’an Jiaotong University Guihua Tang, Xi’an Jiaotong University Huiying Wu, Shanghai Jiao Tong University Linhua Liu, Harbin Institute of Technology Yanhui Feng, University of Science and Technology Beijing Xun Zhu, Chongqing University Xuehu Ma, Dalian University of Technology Shengqiang Shen, Dalian University of Technology

159

Committees Jing Ding, Sun Yat-sen University Shushen Lv, Sun Yat-sen University Shuangfeng Wang, South China University of Technology Lizhi Zhang, South China University of Technology Qiang Li, Nanjing University of Science and Technology Xinrong Zhang, Peking University Zhenqian Chen, Southeast University Yongping Chen, Suzhou University of Science and Technology Maocheng Tian, Shandong University Baoming Chen, Shandong Jianzhu University Liangbi Wang, Lanzhou Jiaotong University Xiulan Huai, Institude of Engineering Thermophysics, Chinese Academy of Sciences Xiaodong Wang, North China Electric Power University Xiaobing Luo, Huazhong University of Science and Technology Zhiming Xu, Northeast Dianli University Huaqing Xie, Shanghai Second Polytechnic University Bo Yu, Beijing Institute of Petrochemical Technology Minshan Liu, Zhengzhou University Kai Zhu, Tianjin University of Commerce Liqiu Wang, The University of Hong Kong Mo Yang, University of Shanghai for Science and Technology Shixue Wang, Tianjin University International Scientific Committee Chinese Scientific Committee (CSC) Zengyuan Guo, Chair, Tsinghua University Qiuwang Wang, Cochair, Xi’an Jiaotong University Qiang Liao, Cochair, Chongqing University Ruzhu Wang, Cochair, Shanghai Jiao Tong University International Scientific Committee (ISC) Australia Steven Armfield Victoria Timchenko Brazil Luiz F. Milanez Helcio R. B. Orlande Canada Patrick H. Oosthuizen Dominic Groulx China Xing Zhang Qiuwang Wang France Denis Maillet Sebastian Volz Germany Stephan Kabelac Ulrich Gross India Gautam Biswas S. Srinivasa Murthy Israel Neima Brauner Gennady Ziskind Italy Maurizio L. Cumo Paolo Di Marco Japan Yukitaka Kato Yasuyuki Takata Korea Sung Jin Kim Goon Cherl Park Portugal Pedro Coelho Vítor A. F. Costa Russia Alexander I. Leontiev Leonid A. Dombrovsky South Africa Charl G. du Toit Josua P. Meyer Switzerland John R. Thome Dimos Poulikakos The Netherlands Theo H. van der Meer Michel de Paepe UK Francesco Coletti Tassos Karayiannis USA Raj M. Manglik Mohamed S. El-Genk

160

Committees Secretariat David M. Christopher, Secretary General, Tsinghua University Dawei Tang, Secretary General, Dalian University of Technology (Institude of Engineering Thermophysics, Chinese Academy of Sciences) Bingyang Cao, Secretary General, Tsinghua University Qun Chen, Tsinghua University Peng Zhang, Shanghai Jiao Tong University Rong Chen, Chongqing University Zhiguo Qu, Xi’an Jiaotong University Weigang Ma, Tsinghua University Xiaofang Liu, University of Science and Technology Beijing Mengxuan Song, Tongji University

161

Author Index Name ID Page Abbood, Sahar A. 23071 118 Abdullah, M. Z. 23884 93 Abe, Toshiro 23877 96 Abe, Yuki 24153 116 Abe, Yutaka 22464 42 Abe, Yutaka 23107 74 Abe, Yutaka 23163 54 Abolarin, Sogo Mayokun 23213 109 Abram, Christopher 23986 57 Abudula, Abuliti 23784 84 Abuseada, Mostafa 24296 122 Adelaja, Adekunle 24154 52 Adeniyan, Adetunji 20761 104 Adera, Solomon 24136 63 Adewumi, O. O. 20761 104 Adewumi, O. O. 20761 104 Adewumi, Olayinka 24154 52 Aduralere, Timothy 24154 52 Afanasiev, V. N. 23317 45 Agarwal, Akshat 21657 111 Ahlers, Marieke 23802 53 Ai, Bangcheng 23916 115 Ai, Qing 22501 131 Ai, Wenming 23165 94 Ait-Saada, Mebrouk 22585 35 Ait-Saada, Mebrouk 23654 63 Ajaev, Vladimir 24306 119 Albèr, Cathrine 23071 118 Albin, Eric 23541 103 Al-Esawi, Nawar 20772 136 Alifanov, Oleg 23667 49 AlKatheeri, Tawadud 23117 131 Allahyarzadeh-Bidgoli, Ali 24301 46 Allred, Taylor 22820 91 Allred, Taylor P. 22684 37 Almeida, Anderson P. 24583 42 Almendros-Ibáñez, José A. 24002 128 Alrefae, Majed 22647 98 Alvarado, Jorge 22270 76 Al-Zaidi, Ali 20879 136 Alzaim, Safa 24171 122 Amani, Mohammad 20805 35 Amberg, Gustav 23482 118 Ameel, Bernd 23939 74 Amemiya, Fuminori 24116 110

Name ID Page Amer, Mohammed 21165 110 An, Guoliang 22182 128 An, Meng 22397 38 An, Meng 22405 145 An, Meng 22406 145 An, Meng 22419 87 An, Tong 23486 107 An, Xiangyang 23557 132 Anderson, Erik C. 23033 38 Andredaki, Manolia 23596 108 Andredaki, Manolia 23891 127 Andredaki, Manolia 23952 80 Andreozzi, Assunta 23991 112 Antao, Dion 24136 63 Antao, Dion S. 23152 35 Antoun, S. 24664 144 Anufriev, Roman 23703 39 Anufriev, Roman 24037 60 Ao, Xianze 22440 122 Aoki, Kozo 24155 139 Arai, Takahiro 22146 80 Arai, Takahiro 23614 89 Arakawa, Yuki 23376 61 Arakawa, Yuki 24129 50 Araneo, L. 23891 127 Ardron, Keith 23319 64 Arjun, J. 23670 94 Armfield, Steven 22953 50 Armfield, Steven 23413 103 Artemov, Valerij 23150 89 Asano, Hitoshi 23156 119 Asheghi, Mehdi 22782 56 Ashok, T. P. 22878 88 Askounis, Alexandros 23136 90 Askounis, Alexandros 23512 88 Askounis, Alexandros 23953 35 Atkins, Michael 23002 133 Aute, Vikrant 22642 44 AuYeung, Nick 23650 121 Avellaneda, Jean-Marc 21341 51 Awad, Afrah Turki 24495 114 Ayel, Vincent 23529 111 Azizian, Reza 22834 51 Azzolin, Marco 24169 118 Ba, Qingxin 24186 59

162

Author Index Name ID Page Babich, Alexander Yu. 22633 56 Badri, Mohd afeef 24216 115 Baelmans, Martine 22144 72 Baelmans, Martine 23248 74 Baelmans, Martine 24052 121 Baelmans, Martine 24074 83 Bagnall, Kevin R. 23152 35 Bahadur, Prashant 23567 101 Bai, Bofeng 24360 144 Bai, Bofeng 24376 79 Bai, Fengwu 23602 113 Bai, Jianbo 21989 70 Bai, Jianbo 22828 96 Bai, Tingyu 22782 56 Bai, Xiaohui 21758 115 Bai, Yu 23539 139 Bai, Zhang 24219 42 Baik, Wonkeun 23852 110 Bakhtier, Farouk 23407 51 Balabani, Stavroula 24061 100 Balaji, C. 22438 55 Balaji, C. 23145 45 Balaji, Chakravarthy 22659 47 Balaji, Chakravarthy 22999 73 Balakrishnan, Arcot 21811 86 Bamasag, Ahmad 24207 143 Bandara, Thilaksiri 23838 108 Bandoła, Dominika 22900 86 Bang, In Cheol 24127 37 Bang, In Cheol 24146 64 Bang, In Cheol 24148 84 Bang, Soosik 23832 35 Bao, Hua 22090 38 Bao, Hua 22971 83 Bao, Jingjing 23094 72 Bart, Hans-Jörg 23802 53 Bartkus, German V. 22909 81 Bartwal, Naman 23070 132 Basak, Tanmay 23017 50 Basak, Tanmay 23423 143 Basaran, Tahsin 23321 132 Bashir, Abubakar Idris 23461 76 Bastakoti, Durga 22279 74 Basu, Dipankar N. 23961 122 Bataille, Françoise 21341 51

Name ID Page Batsale, J.C. 23069 68 Battaglia, Jean-Luc 22721 56 Battaglia, Jean-Luc 24117 48 Bau, Haim H. 20898 120 Becerra, Laura 23656 89 Behranvand, Elaheh E. 23965 125 Behzadmehr, Amin 22478 77 Beishuizen, N.A. 23615 94 Belerrajoul, Mohamed 22601 136 Belkerk, Boubakeur 24428 40 Bellan, Selvan 23436 122 Bellan, Selvan 23502 114 Bellan, Selvan 23665 107 Belmonte, Juan F. 24002 128 Belyaev, I.A 22919 75 Belyaev, Ivan 22920 103 Bender, Achim 22242 137 Bennacer, Rachid 22247 91 Bennett, Katrine 21386 42 Bennett, Katrine 22639 129 Berent, Katarzyna 24211 38 Berndt, Alexander 22104 100 Berrier, Austin 23736 64 Berrier, Austin 23745 88 Bertin, Yves 23529 111 Berto, Arianna 24169 118 Bertrand, Weston 24207 143 Bertsche, Dirk 23485 54 Beyne, Eric 22144 72 Beyne, Wim 23939 74 Beyne, Wim 24132 124 Bhati, Jyoti 23509 92 Bhatia, Bikram 22236 96 Bhatia, Bikram 23152 35 Bhatia, Bikram 23307 70 Bhimavarapu, Yagna 23567 101 Bhowmick, Sidhartha 24276 51 Biallais, Arnaud 24216 115 Bian, B. 22001 80 Bian, Ji 22448 70 Bian, Jiang 21557 88 Bian, Qingfei 23528 106 Bieder, Ulrich 23148 95 Bierman, David M. 23307 70 Billaud, Yann 22812 101

163

Author Index Name ID Page Biswas, Gautam 23937 106 Blanco, Stephane 23662 115 Blommaert, Maarten 23248 74 Blommaert, Maarten 24074 83 Bo, Hanliang 21787 53 Bo, Zheng 22731 78 Bochkareva, Elena 23583 82 Bondareva, Nadezhda 23642 76 Bonner, Richard 22260 112 Boreyko, Jonathan 23732 81 Boreyko, Jonathan 23736 64 Boreyko, Jonathan 23742 53 Boreyko, Jonathan 23745 88 Borozdin, Alexander V. 23894 117 Bortolin, Stefano 24169 118 Bortolin, Stefano 24208 53 Bouchenna, Chafea 22585 35 Bougher, Thomas L. 22782 56 Bougher, Thomas L. 23033 38 Boutaous, Mhamed 23562 50 Boyard, Nicolas 23118 112 Boyina, Kalyan 24237 89 Brandon, Simon 23868 130 Brauner, Neima 22002 93 Brinkerhoff, Joshua 22853 72 Brus, Grzegorz 24211 38 Brutin, David 23515 83 Buckingham, Sophia 22376 133 Budnik, Sergey 23667 49 Buonomo, Bernardo 23990 128 Buonomo, Bernardo 23991 112 Buonomo, Bernardo 24016 96 Buschmann, Matthias H. 22834 51 Buschmann, MatthiasH. 21821 61 Butcher, Tom 22884 129 Butcher, Tom 23393 110 Bykova, Natalia G. 23491 130 Byon, Chan 22520 127 Caballina, Ophélie 24557 65 Cabeza, Luisa F. 23939 74 Cadile, Claudia 23862 69 Cagney, Neil 24061 100 Cai, Jie 22555 133 Cai, Liang 22690 73 Cai, Ningsheng 22462 79

Name ID Page Cai, Ningsheng 24118 78 Cai, Weihua 22279 74 Cai, Weihua 22901 103 Cai, Weihua 23495 50 Cai, Xiaogang 23226 58 Cai, Yang 21819 105 Cai, Yaomin 21877 70 Caliot, Cyril 23662 115 Campbell, Nicolas 24207 143 Camus, Julien 24428 40 Caney, Nadia 21801 36 Cao, Bingyang 20599 134 Cao, Bingyang 22672 67 Cao, Biye 23403 142 Cao, Changqing 23252 81 Cao, Fangyu 22260 112 Cao, Hui 23451 73 Cao, Jianping 23202 142 Cao, Mingkai 23553 69 Cao, Taotao 22433 35 Cao, Xuewen 21557 88 Cao, Zhen 23071 118 Cao, Zhen 23132 68 Cao, Zhizhu 22743 90 Carandang, Gia 21987 98 Carle, Florian 23515 83 Carneiro, Joao N. E. 24401 137 Caron, D. 24163 116 Carrillo, Juan David Peña 22179 137 Caruso, Gianfranco 24247 107 Cascetta, Furio 24016 96 Castanet, Guillaume 24557 65 Catarsi, Andrea 24202 101 Celi, Federico 24215 45 Cha, Hyeongyun 22157 88 Chai, J. C. 22466 82 Chai, John 23612 41 Chai, John C. 24177 67 Chamorro, Leonardo 22270 76 Chan, Cho Lik 22742 86 Chandrasekhara, P. G. C. 23016 85 Chang, Xinyu 24446 128 Chang, Zehui 24137 96 Chapperwal, Gaurav 24433 61 Charogiannis, Alexandros 24142 81

164

Author Index Name ID Page Chavan, Shreyas 24237 89 Chaze, William 24557 65 Che, Yanjin 24350 59 Cheaito, Ramez 22782 56 Chebakov, Evgeny 23443 48 Chemartin, L. 22943 131 Chen, Aiqiang 22247 91 Chen, Bangju 22268 138 Chen, Baoming 23433 121 Chen, Bin 22209 86 Chen, Bin 22276 86 Chen, Bin 22308 59 Chen, Bingbing 23237 69 Chen, Bo 23049 144 Chen, Bohong 23296 144 Chen, Bohong 23405 140 Chen, Bohong 23410 121 Chen, Chen-Lin 22421 56 Chen, Chien-Hua 22260 112 Chen, Chin-An 20805 35 Chen, Chuanqi 22873 56 Chen, Feng 21787 53 Chen, Feng 22157 88 Chen, Gang 22236 96 Chen, Gang 22484 145 Chen, Gaofei 22811 89 Chen, Guanan 22503 109 Chen, Guanglei 20898 120 Chen, Guanjiang 21397 61 Chen, Haisheng 22081 100 Chen, Haisheng 22100 56 Chen, Hao 22222 107 Chen, Hao 24049 69 Chen, Haowen 23387 91 Chen, Hua 22483 61 Chen, J.J. John 23382 54 Chen, Jie 21857 56 Chen, Jie 22180 61 Chen, Jie 22184 145 Chen, Jie 22393 131 Chen, Jie-Chao 21899 80 Chen, Jie-Chao 22616 44 Chen, Jing-Xiang 23170 41 Chen, Jiu-Guo 24121 68 Chen, Junyang 23044 48

Name ID Page Chen, Kai 22966 73 Chen, Kai 23343 125 Chen, Kai-Xuan 23757 145 Chen, Kuan-Ting 22298 91 Chen, Liang 22552 58 Chen, Liang 22555 133 Chen, Liang 22674 103 Chen, Liang 23916 115 Chen, Lin 22825 133 Chen, Lin 23460 106 Chen, Lin 23691 55 Chen, Long 23207 94 Chen, Miaoru 21165 110 Chen, Min-Rui 23132 68 Chen, Nanshi 23538 116 Chen, Qi 22025 127 Chen, Qi 23919 42 Chen, Qun 23388 109 Chen, Qun 23694 127 Chen, Qun 23700 121 Chen, Renkun 23390 63 Chen, Rong 23053 136 Chen, Rong 23184 80 Chen, Rongjie 21742 66 Chen, Sarula 22400 114 Chen, Sen 22097 124 Chen, Sen 23575 75 Chen, Sheng 21763 84 Chen, Shenxukai 23687 53 Chen, Shichao 24219 42 Chen, Shuangtao 22552 58 Chen, Shuangtao 22555 133 Chen, Tailian 22328 54 Chen, Tao 22690 73 Chen, Tingting 23283 143 Chen, Wei 23135 88 Chen, Wei 23153 54 Chen, Wei 23176 89 Chen, Wen 22121 48 Chen, X. W. 22395 144 Chen, Xi 22716 58 Chen, Xi 23694 127 Chen, Xiandong 22397 38 Chen, Xiandong 22419 87 Chen, Xiandong 22725 38

165

Author Index Name ID Page Chen, Xiaobin 22475 122 Chen, Xiaoqing 23992 113 Chen, Xue 23167 139 Chen, Xuemei 22314 91 Chen, Xuemei 24122 63 Chen, Y.Y. 21923 86 Chen, Yan 23797 101 Chen, Yan-Bin 24162 38 Chen, Yan-Feng 24162 38 Chen, Ying 22319 98 Chen, Ying 22840 101 Chen, Ying 23901 66 Chen, Yitung 23180 71 Chen, Yitung 21386 42 Chen, Yiung 22639 129 Chen, Yixin 21906 143 Chen, Yixin 22432 56 Chen, Yiyi 21962 125 Chen, Yongping 23676 119 Chen, Yu 22432 56 Chen, Yu 22978 74 Chen, Yu-Bin 20528 130 Chen, Yujie 22315 66 Chen, Yunfei 21297 67 Chen, Zengchao 23622 108 Chen, Zhanxiu 22502 125 Chen, Zhe 22404 61 Chen, Zhe 23584 101 Chen, Zhenqian 23286 90 Chen, Zhenqian 23846 143 Chen, Zhihao 23120 63 Chen, Zhiqiang 23174 115 Chen, Zhonghao 24304 44 Cheng, Hongsheng 22387 122 Cheng, Hui 23302 122 Cheng, Hui 23790 106 Cheng, Jie 23180 71 Cheng, Keyong 22968 109 Cheng, Keyong 23711 45 Cheng, Keyong 23714 127 Cheng, Lin 21255 109 Cheng, Lin 22025 127 Cheng, Lin 22549 96 Cheng, Lin 23342 81 Cheng, Lin 24186 59

Name ID Page Cheng, Ling 23693 129 Cheng, Peng 23352 140 Cheng, Ping 23208 81 Cheng, Ping 23717 68 Cheng, Siyuan 22026 56 Cheng, Wen-Long 22483 61 Cheng, Xu 23797 101 Cheng, Yanhua 22857 125 Cheng, Yanhua 23345 49 Cheng, Yongpan 21785 126 Cheng, Zhe 22782 56 Cheng,Jie 23229 79 Chennu, Ranganayakulu 22878 88 Cheok, Cho Hyun 23502 114 Cherief, Wahid 21801 36 Cherman, Vladimir 22144 72 Chernova, Nadezhda 22357 95 Chernysh, D. Yu 22919 75 Cheverda, Vyacheslav 24707 108 Chi, Cheng 23192 96 Chi, Haojia 22699 67 Chi, Yuan 23501 41 Chien, Nguyen Ba 23549 91 Chika, Eze 23302 122 Chikahisa, Takemi 23510 78 Chikh, Salah 23654 63 Chikh, Salah 22585 35 Chinembiri, Kenneth 23314 84 Chinnov, Evgeny 21582 61 Cho, H. Jeremy 23315 91 Cho, Honggi 23549 91 Cho, Hyoung Kyu 23867 133 Cho, Hyun Seok 23665 107 Cho, Hyun Seok 23436 122 Cho, Hyun Woo 23234 104 Cho, Hyung Hee 23397 72 Cho, Hyung Hee 23399 91 Cho, Wonhee 23100 129 Cho, Yeonjoo 23922 69 Cho, Yeonjoo 23935 58 Cho, Young Joon 24314 124 Choi, Eun Jung 24123 119 Choi, Geehong 23399 91 Choi, Jongin 23507 131 Choi, Kwang Seong 22037 109

166

Author Index Name ID Page Choi, Sangmi 23935 58 Choi, YoungGwan 23785 66 Chong, Karen Siew Ling 23441 142 Choo, Fook Hoong 23264 125 Christopher, David 21773 41 Chu, Fuqiang 22346 58 Chu, Fuqiang 23594 107 Chu, Huaqiang 23167 139 Chu, Huaqiang 24249 131 Chu, Lilin 23885 111 Chu, Wenxiao 22639 129 Chu, Wenxiao 23180 71 Chu, Wenxiao 21386 42 Chudnovsky, Jaroslav 22874 61 Chudnovsky, Yaroslav 22884 129 Chudnovsky, Yaroslav 23393 110 Cirillo, Luca 24016 96 Clarie, Nils 23925 41 Clift, Zachary 23394 87 Clio, Azina 22721 56 Coelho, Pedro 21406 86 Coimbra, Carlos 23041 131 Cola, Baratunde A. 22782 56 Cola, Baratunde A. 23033 38 Cola, Baratunde A. 23143 130 Colaco, Marcelo 22009 48 Colaço, Marcelo J. 22069 87 Colaco, Marcelo Jose 22737 98 Coletti, Francesco 23965 125 Collignon, Romain 24557 65 Combeau, Herve 24595 90 Cong, Ji 23660 139 Cooper, Thomas 22236 96 Córcoles-Tendero, Juan I. 24002 128 Cotta, Renato M. 24583 42 Craig, Ken 23262 83 Cruz, Manuel Ernani C. 22737 98 Cuesta, De Gracia Alvaro 23939 74 Cui, Hongwei 21898 84 Cui, Jin 23666 125 Cui, Naigang 22836 76 Cui, Wei 22319 98 Cui, Wei 22840 101 Cui, Xiaoyu 21954 124 Cui, Xinying 22968 109

Name ID Page Cui, Xinying 23711 45 Cui, Xinying 23714 127 Cui, Yuntao 22573 128 Cusumano, Daniel 23732 81 Dafalla, Ahmed Mohmed 23910 78 Dai, Baomin 23968 59 Dai, Chao 22309 116 Dai, Renkun 23528 106 Dai, Wei 23906 100 Dai, Xianwei 23269 83 Dai, yanjun 22600 109 Dai, Yan-Jun 21979 55 Daigo, Kazuki 23674 96 Daiguji, Hirofumi 23850 59 Daiguji, Hirofumi 23853 58 Dalal, Amaresh 23267 131 Dalal, Amaresh 23937 106 Dang, Chaobin 24562 136 Dang, Lan 23567 101 Dang, Zhigang 23003 133 Dang, Zhigang 23243 50 Dao, Thang D. 24220 143 Das, Mihir 24196 125 Das, MihirKumar 23769 64 Das, Ranjan 22793 70 Das, Ratul 23567 101 Das, Sarit Kumar 23931 140 Dasindian, Mihir Kumar 23998 119 Dauchet, Jérémi 23662 115 Daun, Kyle 21927 57 Davaa, Ganbat 22030 38 Davit, Yohan 22601 136 Dayal, Ram 24433 61 De Kleine, David 23615 94 De Paepe, Michel 23530 51 De Paepe, Michel 23561 81 De Paepe, Michel 23925 41 De Paepe, Michel 23939 74 De Paepe, Michel 24132 124 De Paepe, Michel 24349 60 De, Arnab Kumar 23932 134 Debenest, Gerald 23862 69 Dede, Ercan 22763 73 Dedov, Aleksey V. 23894 117 Defilippo, Marcelo 22737 98

167

Author Index Name ID Page Dehdari Ebrahimi, Navid 22381 124 Dejima, Kazuhito 23004 55 Dejima, Kazuhito 23077 101 Dekeyser, Wouter 24052 121 Del Col, Davide 24169 118 Del Col, Davide 24208 53 Delaunay, Didier 23118 112 Dellar, Kyle 23587 127 Delsipee, Mathieu 22376 133 Dembele, Siaka 23303 140 Deng, Chengcheng 22458 62 Deng, Hao 22283 78 Deng, Linjiang 23277 87 Deng, Linjing 23339 71 Deng, Linjing 23362 40 Deng, Li-Sheng 21899 80 Deng, Li-Sheng 22616 44 Deng, Qihong 23277 87 Deng, Qihong 23339 71 Deng, Qihong 23362 40 Deng, Shichen 22725 38 Deng, Shuai 22657 118 Deng, Shuai 23338 96 Deng, Shuai 24113 107 Deng, Yangbo 22227 35 Deng, Yueping 22678 118 Deng, Zeng 23906 100 Denner, Fabian 24142 81 Deo, Karthik 22438 56 Derevich, Igor 22368 140 Dermer, Pavel 24322 140 Desai, Hari 23509 92 Dev, Kapil 22891 94 Dezan, Daniel Jonas 24301 46 Di, Chen 24162 38 Di Pasqua, Anna 23990 128 Diani, Andrea 22467 89 Diao, Chenghao 22699 67 Diao, Yanhua 22095 70 Diao, Yanhua 22873 56 Diaz, Julia 23204 39 Diaz-Bejarano, Emilio 23965 125 Díaz-Heras, Minerva 24002 128 Dieb, ThaerM. 23928 67 Dietrich, Benjamin 23001 116

Name ID Page Dietrich, Benjamin 23409 116 Dietrich, Benjamin 23421 90 Dietrich, Benjamin 24226 76 Ding, K. H. 22883 43 Ding, Bin 22989 47 Ding, Dingqian 22713 137 Ding, Guoliang 23824 44 Ding, Hongru 22436 144 Ding, Jing 22170 36 Ding, Jing 23386 127 Ding, Lin 23748 142 Ding, Rui 23577 73 Ding, Wei 23121 64 Ding, Yuan-Feng 24121 68 Ding, Yudong 22457 139 Ding, Yudong 23053 136 Ding, Yujie 22493 72 Ding, Yujie 22573 128 Ding, Yulong 23451 73 Ding, Zhidong 22406 145 Dinh, Hy 24239 142 Diriken, Jan 23248 74 Dittmeyer, Roland 22961 65 Dixit, Desh Deepak 22871 98 Djouadi, Abdou 24428 40 Doan, Hong Duc 24367 72 Dombrovsky, Leonid 21209 123 Dombrovsky, Leonid 22228 54 Dombrovsky, Leonid 22357 95 Dombrovsky, Leonid 23303 140 Dombrovsky, Leonid A. 23443 48 Domingues, Gilberto 24216 115 Dong, Bo 23803 108 Dong, Bo 23890 66 Dong, Fei 22433 35 Dong, Guangqi 23577 73 Dong, Liqiang 22953 50 Dong, Qiang 21983 58 Dong, Wei 22363 127 Dong, Wei 25307 100 Dong, Yuan 22699 67 Doretti, Luca 22819 116 Doretti, Luca 22820 91 Doretti, Luca 22844 118 Dou, Ruifeng 22691 47

168

Author Index Name ID Page Doud, Evan A. 23055 39 Dover, Coinneach 23512 88

du Toit, Charl G. 22139 51 Du, Bingang 24152 53 Du, Bowen 22757 61 Du, Ji-Yu 22988 128 Du, Shen 22234 104 Du, Shuai 23713 93 Du, Tingting 22025 127 Du, Wang-Fang 22294 118 Du, Wenjing 21255 109 Du, Wenjing 22025 127 Du, Wenjing 23797 101 Du, Xiaoze 22355 45 Du, Xiaoze 22477 113 Du, Xin 22592 138 Du, Xu 23044 48 Du, Yanxia 22454 140 Du, Yanxia 22479 94 Du, Yanxia 23142 84 Du, Yanxia 25307 100 Du, Zhonglin 22558 116 Duan, Chuanhua 23387 91 Duan, Chuanhua 23400 143 Duan, Fei 22748 118 Duan, Fei 23264 125 Duan, Fei 23281 36 Duan, Fei 23426 64 Duan, Fei 23441 142 Duan, Fei 23586 91 Duan, Fei 23977 73 Duan, Huiling 21742 66 Duan, Liqiang 24021 82 Duan, Menghua 22825 133 Duan, Xuhui 22175 67 Duan, Yuanyuan 23111 84 Duan, Zhijian 24183 103 Duan, Zhipeng 23173 125 Duan, Zhipeng 23231 42 Dubey, Swapnil 23264 125 Dubil, Konrad 23001 116 Dulikravich, George S. 22069 87 Dumoulin, Jean 23896 42 Duong, Hai 22977 99 Dutour, Sébastien 23662 115

Name ID Page

Duval, Fabien 22601 136 Dyachenco, Aleksey 22580 44 Ebihara, Ken-Ichi 22464 42 Effendi, Nico 23466 73 Egami, Yasuhiro 21918 63 Egorov, Ivan 22883 43 Egorov, Ivan Vladimirovich 22881 84 Ehara, Kohei 22416 98 Eimann, Ferdinand 21456 88 Eimann, Ferdinand 22052 53 Ejiri, Mitsuyoshi 23107 74 Ekaid, Ali 23888 51 Ekawa, Akira 22935 128 Elangovan, Amritha 23145 45 Elbaz, Giselle 23055 39 Eldeeb, Radia 22642 44 Elmegaard, Brian 22455 88 Emery, A. F. 25159 47 Endo, Rie 23438 55 Ercole, Davide 23990 128 Ercole, Davide 23991 112 Ermolaev, Vadim 22368 140 Everts, Marilize 23020 77 Everts, Marilize 23021 103 Everts, Marilize 23022 50 Everts, Marilize 23024 133 Ewim, Danie 23113 138 Eymet, Vincent 23662 115 Faili, Firooz 22782 56 Fan, Aiwu 24042 66 Fan, Aoran 23447 38 Fan, Liwu 22255 47 Fan, Liwu 22415 55 Fan, Liwu 22417 54 Fan, Liwu 22420 67 Fan, Liwu 22421 56 Fan, Simiao 23586 91 Fan, Tianzhu 22763 73 Fan, Xueliang 24085 89 Fan, Yilin 24279 122 Fan, Yinting 23743 76 Fang, Haisheng 22226 83 Fang, Qi 24144 57 Fang, Qiu 22956 69 Fang, Xiande 22753 81

169

Author Index Name ID Page Fang, Xiaoming 22613 102 Fang, Yingping 23336 39

Fang, Yuan 22136 89 Fang, Yuxin 22121 48 Favennec, Yann 24216 115 Fedorets, Alexander 22228 54 Fedorov, A.V. 22883 43 Fedorov, Ruslan 24392 133 Feng, Biao 22420 67 Feng, Biao 22421 56 Feng, Daili 23771 112 Feng, Hao 22725 38 Feng, Huifang 23452 84 Feng, Lei 22461 144 Feng, Lezhou 22157 88 Feng, Shangsheng 22340 112 Feng, Shangsheng 22563 116 Feng, Shangsheng 23341 41 Feng, Tianli 22539 144 Feng, Yanhui 22127 56 Feng, Yanhui 23238 98 Feng, Yanhui 23771 112 Feng, Yanhui 24018 101 Feng, Yongchang 22825 133 Feng, Yongchang 23460 106 Feng, Yongliang 23912 42 Feng, Zhaozan 23622 108 Filippeschi, Sauro 24202 101 Filippeschi, Sauro 24215 45 Fioriti, Davide 23891 127 Fioriti, Davide 24202 101 Fischedick, Thomas 23001 116 Fisher, Timothy 22647 98 Fisher, Timothy 23680 48 Fokina, Fokina 22368 140 Foley, Brian 22782 56 Fond, Benoit 23986 57 Fontalvo, E. M. G. 24401 137 Forest, Vincent 23662 115 Forino, Fabio Massimo 24247 107 Forooghi, Pourya 21429 104 Foroushani, Sepehr 21349 50 Foulkes, Thomas 24237 89 Fournier, Richard 23662 115 Freire, João 21406 86

Name ID Page

Frekers, Yona 23645 47 Frense, Erik 22377 121 Fröhlich, Jochen 22377 121 Frohnapfel, Bettina 21429 104 Frohnapfel, Bettina 22961 65 Frumkin, Valeri 22105 139 Fu, Benwei 24263 64 Fu, Bo 22250 144 Fu, Ceji 22525 131 Fu, Pei 23190 78 Fu, Pei 23701 137 Fu, Qian 24049 69 Fu, Rong 21923 86 Fu, Ronghuan 21992 70 Fu, Ruipeng 23129 69 Fu, Yu 24311 96 Fu, Yuan-Xiang 24115 84 Fu, Zaiguo 24178 113 Fugallo, Giorgia 24216 115 Fujioka, Keiko 22952 96 Fujioka, Keiko 23351 70 Fujioka, Kyohei 21498 67 Fujiwara, Kunio 23792 39 Fukuda, Katsuya 21556 51 Fukuda, Katsuya 23064 137 Fukue, Takashi 23957 73 Fukue, Takashi 24060 74 Fukunaga, Takanobu 24286 100 Fukushima, Kohei 23856 66 Funatani, Shumpei 24087 100 Funayama, Shigehiko 22952 96 Furukawa, Nami 22594 113 Furusawa, Taiki 23957 73 Furuya, Masahiro 23614 89 Fushinobu, Kazuyoshi 24367 72 Fustinoni, Damiano 23149 94 Futsuta, Akihiro 23163 54 Gambaryan-Roisman, T. 22242 137 Gambaryan-Roisman, T. 23300 109 Gan Jia Gui, Nicolette 22833 94 Gan, Yunhua 22740 63 Ganeshan, Banu 22524 49 Gao, Chen 24304 44 Gao, Jianshu 21905 134 Gao, Ming 23003 133

170

Author Index Name ID Page Gao, Ming 23078 60 Gao, Ming 23243 50 Gao, Qin 23807 129 Gao, S 23749 124 Gao, Weikai 23534 103 Gao, Xuan 22303 80 Gao, Xuenong 22613 102 Gao, Yi 23237 69 García, Alberto 23268 61 Garimella, Suresh V. 22684 37 Garnier, Bertrand 24428 40 Gasow, Stefan 22301 51 Gatapova, Elizaveta 24310 118 Gatapova, Elizaveta 24466 107 Ge, Jian 22415 55 Ge, Minghui 22925 115 Ge, Tianshu 22600 109 Ge, Tianshu 22701 142 Ge, Wenjing 22503 109 Ge, Yijun 23680 48 Ge, Yunting 23622 108 Gembarovic, Jozef 23763 101 Geng, Xiaoya 23110 110 Georgoulas, A. 23891 127 Georgoulas, Anastasios 23596 108 Georgoulas, Anastasios 23952 80 Ghoshdastidar, Partha 23036 41 Giroux-Julien, Stéphanie 23383 75 Giustini, Giovanni 23319 64 Giwa, Solomon 23927 61 Glantz, Tony 22179 137 Glezer, Ari 23653 76 Gluchko, Sergei 24037 60 Gnadt, Marisa 22264 119 Gnanasekaran, N. 22659 47 Gnanasekaran, N. 23865 62 Go, Min-Geon 22824 54 Goetze, Pitt 23089 56 Goharzadeh, Afshin 24177 67 Gokon, Nobuyuki 23436 122 Gokon, Nobuyuki 23502 114 Gokon, Nobuyuki 23665 107 Goldstein, Richard J. 21359 52 Goncalves, Diogo 24190 97 Gong, Feng 22977 99

Name ID Page Gong, Liang 22760 72 Gong, Liang 22762 126

Gong, Liang 24219 42 Gong, Maoqiong 22811 89 Gong, Maoqiong 23906 100 Gong, Wei 21763 84 Gong, Wei 21911 00 Gong, Wei 21916 118 Gong, Wenchi 23906 100 Goodson, Kenneth E. 22782 56 Goorsky, Mark 22782 56 Gotoh, Ryohei 24007 112 Gou, Jian-Jun 21979 55 Gradeck, Michel 22179 137 Graham, Samuel 22782 56 Gramazio, Pasqualino 23149 94 Graur, Irina 24466 107 Grekov, Michail A. 22633 56 Grigorjev, Anton 21534 130 Grizen, Michael 24032 137 Groble, N.J.M. 23262 83 Grosjean, Sébastien 22515 84 Gross, Ulrich 21456 88 Gross, Ulrich 22052 53 Gross, Ulrich 23089 56 Gruss, Jean Antoine 21801 36 Gschnaidtner, Tobias 24209 119 Gu, Hailin 23422 125 Gu, Jingchen 23828 48 Gu, Mingyan 23167 139 Gu, Mingyan 24249 131 Gu, Xi 23394 87 Gu, Xiaokun 22399 145 Gu, Xiaokun 23044 48 Gu, Yunfeng 21297 67 Gu, Zhao-Lin 23786 78 Guan, Guoqing 23784 84 Gui, Lin 22862 66 Gui, Nan 22353 95 Gui, Yewei 22048 136 Gui, Yewei 22454 140 Gui, Yewei 22479 94 Gui, Yewei 23142 84 Gui, Yewei 25307 100 Gulec, Semih 23567 101

171

Author Index Name ID Page

Gunay, A. Alperen 22264 119 Guo, Chaxiu 22404 61 Guo, Jiangfeng 22968 109 Guo, Jiangfeng 23711 45 Guo, Jiangfeng 23714 127 Guo, Jun 23128 48 Guo, Liejin 23203 75 Guo, Liejin 23232 140 Guo, Liejin 23252 81 Guo, Liejin 23452 84 Guo, Liejin 23672 136 Guo, Ruiheng 23153 54 Guo, Ruiheng 23170 41 Guo, Ruiheng 23176 89 Guo, Rulei 22419 87 Guo, Rulei 22725 38 Guo, Xiaoyu 22189 57 Guo, Xilong 23277 87 Guo, Yali 22612 135 Guo, Yuxuan 22605 51 Guo, Zeng-Yuan 21771 112 Guo, Zeng-Yuan 22994 47 Guo, Zhigang 23368 81 Guo, Zhiqiang 22363 127 Guo, Zhixiong 21877 70 Guo, Zhixiong 22485 112 Gusakov, Andrey A. 22633 56 Gustafsson, Andreas 23498 124 Guyot, Meghan 22818 136 Gwebu, Excellent 22766 109 Gyotoku, Shunya 22886 38 Ha, Man Yeong 23234 104 Ha, Sumin 23723 47 Habte, Bereket Tsegai 23907 126 Hadad, Waseen Al 21381 110 Hadida, Shir 23868 130 Hafi, Mouna El 23662 115 Hagani, Fouad 23562 50 Haglind, Fredrik 22455 88 Haider, Syed Abbas 24230 134 Hamamura, Satoki 23810 49 Hammond, Robert B. 24443 43 Hampel, Uwe 23121 64 Han, Chaoling 23286 90 Han, Dong 22713 137

Name ID Page Han, Dongmei 22293 95 Han, Dongxu 22315 66 Han, Ho-Seung 22824 54 Han, Huaizhi 23014 45 Han, J. 22141 59 Han, Je-Chin 23727 74 Han, Liang 23960 39 Han, Van Cuong 23376 61 Han, Van Cuong 24129 50 Han, Xinyue 22475 122 Han, Yang Seok 23397 72 Han, Zhimin 23110 110 Hanamura, Katsunori 23381 83 Hanamura, Katsunori 23823 78 Hangi, Morteza 22800 115 Hänichen, Philipp 22242 137 Hanisch, Tobias 22377 121 Hannink, M. J. M. 23615 94 Hao, Junhong 23388 109 Hao, Junhong 23700 121 Hao, Kai 21865 122 Hao, Min 23188 142 Hara, Shumpei 23930 103 Haramura, Yoshihiko 22705 91 Hardick, Sean 22884 129 Hardick, Sean 23393 110 Harish, Sivasankaran 23430 101 Haruki, Naoto 21496 134 Haruna, Maje 24447 140 Hasegawa, Yosuke 22700 44 Hasegawa, Yosuke 23670 94 Hatakeyama, Tomoyuki 24060 74 Hatakeyama, Tomoyuki 24140 124 Hattori, Hirofunmi 23921 103 Haussener, Sophia 24556 45 Hayashi, Miyuki 23438 55 He, Fei 23577 73 He, Fei 23916 115 He, Guoqiang 22340 112 He, Guoxi 22713 137 He, Guoxi 24191 143 He, Jixiong 22524 49 He, Jundi 23265 134 He, Kelun 23694 127 He, Kelun 23700 121

172

Author Index Name ID Page He, Ronghui 23960 39 He, Shuisheng 23265 134

He, Shuisheng 23314 84 He, Shuisheng 23324 41 He, Tao 22884 129 He, Tao 23393 110 He, Xianhui 23167 139 He, Xian-Yan 22989 47 He, Xuefeng 23184 80 He, Ya-Ling 22200 137 He, Ya-Ling 22234 104 He, Ya-Ling 22237 38 He, Ya-Ling 22244 84 He, Ya-Ling 23690 68 He, Yan 23135 88 He, Yan 23153 54 He, Yan 23170 41 He, Yan 23176 89 He, Yan 23543 48 He, Yan 24252 44 He, Zhaohong 23539 139 He, Zhaohong 22616 44 He, Zhaoyu 22477 113 Hefele, Martin 23089 56 Helbig, Klaus 21874 47 Helcig, Christian 23000 134 Heng, Yi 23974 90 Heng, Yi 24115 84 Henry, J. F. 24163 116 Heo, Jaehyok 23852 110 Hering, Wolfgang 21277 104 Herz, Fabian 22104 100 Heyes, Andrew 23986 57 Hidaka, Sumitomo 23482 118 Hidema, Ruri 22545 112 Hidema, Ruri 22579 113 Hidema, Ruri 22594 113 Higashi, Hiroyuki 23082 82 Hihara, Eiji 24562 136 Hirai, Shuichiro 23088 110 Hirakata, Hideo 22842 86 Hirasawa, Mamoru 22176 145 Hirose, Koichi 23957 73 Hirose, Koichi 24060 74 Hirota, Masafumi 22935 128

Name ID Page

Ho, Chun-Hsing (Jun) 21435 117 Ho, Jin Yao 23874 88 Ho, Mark 21240 81 Hodes, Marc 24239 142 Hokamoto, Kazuyuki 24153 116 Honda, Itsuro 21918 63 Hong, Fangjun 22116 110 Hong, Sihui 23343 125 Hong, Su Hyeon 22037 109 Honma, Yuto 23107 74 Hooman, Kamel 22819 116 Horibe, Akihiko 21496 134 Horibe, Akihiko 22231 36 Horiki, Sachiyo 23082 82 Hou, Danyang 21557 88 Hou, Liqiang 23724 112 Hou, Liuwendi 22433 35 Hou, Youmin 23476 53 Hou, Youmin 23481 88 Hou, Yu 22552 58 Hou, Yu 22555 133 Hou, Yu 22674 103 Hou, Yuze 22283 78 Houra, Tomoya 22864 50 Houra, Tomoya 23921 103 Hsu, Wei-Lun 23850 59 Hsu, Wei-Lun 23853 58 Hu, Bin 25307 100 Hu, Chengzhi 23960 39 Hu, Dinghua 24122 63 Hu, Haitao 23824 44 Hu, Henry 23294 43 Hu, Jinghu 21773 41 Hu, Junhu 23468 106 Hu, Kang 23120 63 Hu, Ming 23960 39 Hu, Mingke 22440 122 Hu, Peng 23271 106 Hu, Run 22859 125 Hu, Run 22863 90 Hu, Run 23681 48 Hu, Shiqian 22180 61 Hu, Weinan 22116 110 Hu, Wenting 22630 43 Hu, Xizhuo 23866 83

173

Author Index Name ID Page Hu, Xu 23362 40 Hu, Xuegong 22487 60 Hu, Xuejiao 23049 144 Hu, Yanxin 22427 123 Hu, Yingxue 23368 81 Hu, Yongjie 23204 39 Hu, Yongjie 23680 48 Hu, Yuanchen 23633 124 Hu, Yuanchen 23708 125 Hu, Yudong 23847 66 Hu, Zhanchao 22654 103 Hua, Lingji 22686 58 Hua, Lingji 22701 142 Hua, Yu-Chao 21771 112 Hua, Yu-Chao 22994 47 Huai, Xiulan 22968 109 Huai, Xiulan 23711 45 Huai, Xiulan 23714 127 Huai, Ying 22214 93 Huang, Baoling 22405 145 Huang, Baoling 23192 96 Huang, Baoling 23197 59 Huang, Chingwei 23328 104 Huang, Guanzheng 22116 110 Huang, Haojie 23971 107 Huang, Haojie 24101 134 Huang, Hongyu 21899 80 Huang, Hongyu 22616 44 Huang, Hongyu 23539 139 Huang, Houxue 23648 134 Huang, Hulin 22476 134 Huang, Jin 22427 123 Huang, Junwei 23807 129 Huang, Kuo 21964 112 Huang, Nianzhi 22549 96 Huang, Qian 22552 58 Huang, Qiyu 24191 143 Huang, Ruilian 22409 64 Huang, Si-Min 21937 44 Huang, Teng 24186 59 Huang, Tiancheng 22393 131 Huang, Xiaoming 22458 62 Huang, Xing 22293 95 Huang, Xing 23551 130 Huang, Xizhe 23974 90

Name ID Page Huang, Yanping 23552 110 Huang, Ying 23058 72 Huang, Yuankai 22417 54 Huang, Yueming 24102 116 Huang, Yun 24049 69 Huang, Zhifeng 23162 130 Huang, Zhiyong 21787 53 Huang, Zhiyong 22157 88 Huang, Zhongwei 21812 48 Huang, Zhongwei 21891 36 Huang, Zhongwei 23269 83 Huang, Zijian 22170 36 Huang, Ziqiang 22828 96 Huhe, Taoli 23539 139 Hui, Geng 21954 124 Huo, Sen 22385 78 Huo, Yutao 22704 73 Hussain, Safeer 22151 44 Hussain, Safeer 22153 104 Huynh, Phuoc Hien 24353 109 Ibarrart, Loris 23662 115 Iceri, Daiane Mieko 24247 107 Ichimiya, Koichi 24087 100 Iguchi, Fumitada 23877 96 Iguchi, Hiroshi 23351 70 Iiri, Takumi 23510 78 Il, Choi 23549 91 Im, Ik-Tae 23782 43 Imai, Ryoji 23899 104 Imai, Takashi 23088 110 Imtiaz, H 21477 76 Ina, Takashi 22545 112 Inaba, Katsunori 23899 104 Inoue, Kyo 22842 86 Isaev, Sergey 22874 61 Ishiguro, Shuhei 23415 95 Ishiguro, Shuhei 23590 121 Ishii, Takanori 23287 45 Ishikawa, Yutaro 22705 91 Ishizuka, Masaru 24060 74 Ishizuka, Masaru 24140 124 Islam, A.K.M. Nazrul 23228 94 Isono, Shojiro 23287 45 Issakhov, Alibek 23947 81 Itahana, Yuki 22886 38

174

Author Index Name ID Page Ito, Daisuke 23967 80 Ito, Tsugue 23082 82

Ivanov, Igor 23830 137 Ivanov, Nikolay 23638 109 Iverson, Brian 23600 130 Iwai, Hiroshi 23640 78 Iwai, Hiroshi 24211 38 Iwamoto, Kaoru 23228 94 Iwamoto, Kaoru 23780 125 Jackson, Michael 23394 87 Jacob, Jérome 23912 42 Jacobi, Anthony 22297 93 Jacobi, Anthony 24160 117 Jadal, Mariam 23118 112 Jaeger, Wadim 21277 104 Jahnke, Stefan 20902 36 Jain, Ankur 23597 112 Jambal, Odgerel 22030 38 Jang, Dong Soo 23100 129 Jang, Hyejin 22520 127 Jannot, Yves 21381 110 Jayapragasam, P. 24428 40 Jean-Pierre, Fradin 23862 69 Jeffers, Nick 21657 111 Jena, Akash 23567 101 Jeong, Jae-Jun 23966 53 Jeong, Ji Hwan 22837 89 Jeong, Yeong Shin 24146 64 Jeong, Yeong Shin 24148 84 Jha, Sourabh 23653 76 Ji, Can 23342 81 Ji, Can 23840 119 Ji, Changchun 22563 116 Ji, Chenzhen 23264 125 Ji, Jie 21459 70 Ji, Pengfei 21385 67 Ji, Wentao 22117 64 Ji, Xianbing 22309 116 Ji, Yulong 23704 61 Ji, Yulong 23885 111 Jia, Hongwei 24048 137 Jia, Lisi 22319 98 Jia, Lisi 22840 101 Jia, Lisi 23901 66 Jia, Long 23458 72

Name ID Page

Jia, Pengpeng 23341 41 Jia, Shnegkun 21341 51 Jia, Yuemei 22757 61 Jiang, Fangming 23907 126 Jiang, Fangming 23910 78 Jiang, Feifei 21851 80 Jiang, Haifeng 23049 144 Jiang, Jin 21906 143 Jiang, Lanlan 22893 142 Jiang, Lanlan 23743 76 Jiang, Li-Jia 22483 61 Jiang, Peixue 22423 142 Jiang, Peixue 22567 50 Jiang, Peixue 22605 51 Jiang, Peixue 23324 41 Jiang, Rui 23396 119 Jiang, Rui 23803 108 Jiang, Shengyao 22353 95 Jiang, Wei 23119 98 Jiang, Wenming 21557 88 Jiang, Yi 23775 45 Jiang, Yiqiang 22901 103 Jiang, Yuyan 22167 110 Jiang, Yuyan 22335 73 Jiang, Yuyan 23584 101 Jiang, Yuyan 23632 91 Jiao, Kui 22283 78 Jiao, Kui 22385 78 Jiao, Long 23184 80 Jin, Hui 23203 75 Jin, Hui 23232 140 Jin, Hui 23252 81 Jin, Hui 23452 84 Jin, Hui 23672 136 Jin, Liang 22529 140 Jin, Liwen 23749 124 Jin, Shiping 23886 145 Jin, Shun 22837 89 Jin, Xin 24183 103 Jin, Yan 22301 51 Jin, Yan 22529 140 Jin, Zelin 22405 145 Jin, Zelin 22406 145 Jin, Zicheng 23566 35 Jog, Milind A. 24221 45

175

Author Index Name ID Page Jog, Milind A. 24222 60 Joly, Frédéric 22515 84 Joshi, Yogendra 23633 124 Joubert, Patrice 23273 134 Ju, HwiIn 23785 66 Ju, Shenghong 23928 67 Ju, Sungtaek 22112 95 Ju, Sungtaek 22381 124 Julia, Enrique 22834 51 Jung, Jae Hoon 22711 44 Kaas, Alexandra 23089 56 Kabelac, Stephan 24079 89 Kabov, Oleg 24306 119 Kabov, Oleg 24310 118 Kabov, Oleg 24435 63 Kabov, Oleg 24466 107 Kabov, Oleg 24707 108 Kai, Reo 22496 139 Kajishima, Takeo 23828 48 Kajiwara, Shintaro 24060 74 Kakac, Sadic 23628 128 Kakuta, Naoto 23376 61 Kakuta, Naoto 23920 66 Kakuta, Naoto 24129 50 Kalinina, Karina 24136 63 Kalita, Vasily 22936 118 Kalliadasis, Serafim 24142 81 Kametani, Yukinori 22700 44 Kametani, Yukinori 23670 94 Kan, Yinhui 22392 145 Kanatani, Kentaro 23787 54 Kanatani, Kentaro 23794 71 Kanda, Yuki 23691 55 Kandasamy, Ranjith 23977 73 Kaneda, Masayuki 21817 104 Kaneda, Masayuki 23050 134 Kaneko, Akiko 22464 42 Kaneko, Akiko 23107 74 Kaneko, Akiko 23163 54 Kang, Bin-peng 23446 124 Kang, Dae Hoon 23955 58 Kang, Joon Sang 23204 39 Kang, Joon Sang 23680 48 Kang, Seok-Won 24051 126 Kang, Yong Tae 22711 44

Name ID Page Kanin, Pavel K. 22322 36 Kanin, Pavel K. 22327 92 Kapitz, Marek 23000 134 Karamanis, Georgios 24239 142 Karapetsas, George 24179 35 Karayiannis, Tassos 20879 136 Karchevsky, Andrey 24707 108 Kariya, Jun 22952 96 Kariya, Keishi 24353 109 Karpov, Pavel 23903 137 Karvinen, Reijo 23247 44 Kashinsky, Oleg 23942 104 Kato, Yukitaka 22952 96 Kato, Yukitaka 23335 113 Kato, Yukitaka 23351 70 Katsuki, Masashi 23774 133 Katz, Reuven 22738 98 Kaur, Sumanjeet 21085 145 Kawabata, Yosuke 23930 103 Kawaguchi, Tomohisa 23640 78 Kawaguchi, Touru 21496 134 Kawaguchi, Yasuo 23930 103 Kawaji, Masahiro 22146 80 Kawakami, Ryoichi 23693 129 Kawakami, Ryoichi 23716 137 Kawanami, Osamu 21918 63 Kawara, Zensaku 22238 91 Kawara, Zensaku 23750 119 Kawashima, Daisuke 23920 66 Kaya, Alihan 23561 81 Kaya, Alihan 24349 60 Ke, Hanbing 24630 128 Ke, Junhao 23413 103 Ke, Ming 23204 39 Ke, Peng 23904 94 Ke, Peng 23911 60 Kefayati, Gholamreza 22933 51 Kelsall, Colin C. 23152 35 Kelsall, Colin C. 23307 70 Kempe, Tobias 22834 51 Kenig, Eugeny 24081 106 Kenig, Eugeny Y. 23300 109 Khabirova, Liya R. 20918 98 Khan, P. V. 22898 90 Khan, Tariq Amin 23170 41

176

Author Index Name ID Page Khodakov, Konstantin A. 23598 64 Ki, Seokkan 23833 73 Kibushi, Risako 23683 115 Kibushi, Risako 24100 64 Kibushi, Risako 24140 124 Kibushi, Risako 24153 116 Kienhofer, Frank 23002 133 Kikugawa, Gota 22176 145 Kikugawa, Gota 23336 39 Kikura, Hiroshige 23787 54 Kikura, Hiroshige 23794 71 Kim, Byoung Guk 23466 73 Kim, Chanjoong 23935 58 Kim, Chan-Soo 23867 133 Kim, Hannah 23655 130 Kim, Hyo-Chan 23697 99 Kim, Hyun Tak 22037 109 Kim, Jaehee 23705 41 Kim, Jaehyun 23669 56 Kim, Jin Sub 23199 110 Kim, Jungho 23953 35 Kim, Kyoung Joon 23466 73 Kim, Kyoungjin 21987 98 Kim, Kyung Mo 24148 84 Kim, Kyunghoon 22484 145 Kim, Kyunghoon 22524 49 Kim, M. Y. 23858 42 Kim, Min Soo 23955 58 Kim, Min Soo 24123 119 Kim, Mingeon 23507 131 Kim, Minsung 23922 69 Kim, Minsung 23935 58 Kim, Moo Hwan 24128 51 Kim, Nae-Hyun 22824 54 Kim, Philip 23055 39 Kim, Sangwon 23723 47 Kim, Sang-Woo 23785 66 Kim, SeolHa 23632 91 Kim, Sin-Yeob 23867 133 Kim, Soyeon 23922 69 Kim, Su-Ho 24051 126 Kim, Sung Jin 23835 110 Kim, Sung Jin 24013 127 Kim, Sung Jin 24072 128 Kim, Tae Yun 23785 66

Name ID Page Kim, Tongbeum 23002 133 Kim, Yeong Hwan 23199 110 Kim, Yongchan 23100 129 Kim, Yoong Ahm 23723 47 Kim, Young Jin 23390 63 Kim, Youn-Jea 23705 41 Kinefuchi, Ikuya 23305 119 Kinzer, Bryan 23330 96 Kirchner, S. 23069 68 Kirichenko, Dmitry 24306 119 Kirkpatrick, Michael 22953 50 Kirkpatrick, Michael 23413 103 Kirsanova, Natalya 22266 97 Kiselev, N. A. 21878 127 Kiselev, Nickolay 23015 60 Kiseleva, Sophia 22357 95 Kishimoto, Akihiro 22496 139 Kishimoto, Masashi 23640 78 Kita, Yutaku 23512 88 Kita, Yutaku 23953 35 Kitamura, Keisuke 24286 100 Kitamura, Kenzo 22661 51 Kitaoka, Kenji 23850 59 Kitaoka, Kenji 23853 58 Klausner, James 23650 121 Kneer, Reinhold 23645 47 Knikker, Ronnie 23541 103 Knikker, Ronnie 23562 50 Knipper, Paul 23485 54 Kobayashi, Noriyuki 22616 44 Kobayashi, Noriyuki 23539 139 Kobayashi, Takuya 24116 110 Kodama, Atsushi 23693 129 Kodama, Atsushi 23716 137 Kodama, Tatsuya 23436 122 Kodama, Tatsuya 23502 114 Kodama, Tatsuya 23665 107 Kohara, Kimio 23670 94 Kohlhepp, Andreas 24209 119 Kohno, Masamichi 23430 101 Kohno, Masamichi 23482 118 Kohno, Masamichi 23953 35 Kokubo, Kousuke 23082 82 Kokui, Daisuke 24087 100 Kolobaeva, Polina 21371 69

177

Author Index Name ID Page Koloszar, Lilla 22376 133 Komiya, Atsuki 22825 133 Komiya, Atsuki 23460 106 Komiya, Atsuki 23691 56 Komlev, Dmitry 22936 118 Komoda, Yoshiyuki 22545 112 Komoda, Yoshiyuki 22579 113 Komov, Alexander T. 23894 117 Komuro, Yoshiteru 23693 129 Komuro, Yoshiteru 23716 137 Kondo, Katsuya 23376 61 Kondo, Katsuya 24129 50 Kondo, Yoshio 24220 143 Kondo, Yoshiyuki 23693 129 Kondo, Yoshiyuki 23716 137 Kong, Dehai 23317 45 Kong, Dejuan 25156 90 Kong, Jing 22731 78 Kong, Lingjian 23840 119 Kong, Zhaowen 23068 43 Konist, Alar 24075 93 Kortsenshteyn, N. M. 24068 54 Kotresha, Banjara 23865 62 Kotzé, J.C. 23262 83 Kovalnogov, Vladislav 24392 133 Koyama, Kazuya 22464 42 Koyuncuoglu, Aziz 21973 67 Kozak, Yoram 23580 113 Kozlov, Pavel V. 23491 130 Kozulin, Igor A. 22907 40 Krainova, Irina V. 23443 48 Kreider, Peter B. 22948 70 Kryukov, Alexei 23474 64 Kuan, Ang 24104 75 Kuang, Hailang 23885 111 Kuang, Yangmin 23108 137 Kuball, Martin 23451 73 Kubiak, Krzysztof 22466 82 Kubiak, Krzysztof 24177 67 Kubiak, Krzysztof 23612 41 Kukulka, David 23153 54 Kulah, Haluk 21973 67 Kumano, Hiroyuki 23186 113 Kumar, Abhay 23510 78 Kumar, Abhishek 22793 70

Name ID Page Kumar, Harsha 22659 47 Kumar, Vikas 21961 143 Kumar, Pradeep 23016 85 Kumar, Pradeep 23070 132 Kumar, Pramod 24078 128 Kumar, Rakesh 22891 94 Kumar, Sourabh 24055 76 Kunugi, Tomoaki 22238 91 Kunugi, Tomoaki 23750 119 Kurata, Kosaku 24286 100 Kurdyumov, Aleksandr 23942 104 Kuriyama, Reiko 22842 86 Kuriyama, Reiko 23287 45 Kuroda, Naoki 22594 113 Kurose, Ryoichi 22496 139 Kuwahara, Fujio 21758 115 Kuwahara, Fujio 22702 60 Kuwata, Yusuke 21817 104 Kuwata, Yusuke 22401 104 Kuzenov, Victor V. 20916 121 Kuzenov, Victor V. 20918 98 Kuznetsov, Andrey V. 22301 51 Kuznetsov, Andrey V. 23328 104 Kuznetsov, Denis 22930 36 Kuznetsov, Denis 22936 118 Kuznetsov, Vladimir 22906 91 Kuznetsov, Vladimir 22907 40 Kuznetsov, Vladimir 22909 81 Kwak, Ho 21987 98 Kwok, Ngai Ming 22158 95 Kwok, Ngai Ming 22832 126 Kwon, Hyuk Il 24314 124 Kwon, Oh Jin 22711 44 Li Yanghui 23453 140 Laarab, Adel 20583 102 Labergue, Alexandre 22179 137 Lai, Zhancheng 23824 44 Lamarache, Louis 21542 70 Lamien, Bernard 22947 86 Lampio, Kaj 23247 44 Lan, Aiqing 22853 72 Lan, Wei 22859 125 Lan, Zhong 23396 119 Lan, Zhong 24152 53 Laneryd, Tor 23498 124

178

Author Index Name ID Page Lang, Chen 23453 140 Lankri, Rafik 23654 63 Lao, Jiewei 23386 127 Lapina, Irina 21534 130 Lattery, Dustin 23044 48 Laube, Tim 24226 76 Laughman, Christopher 23630 83 Lazova, Marija 23561 81 Lazova, Marija 24349 60 Le Touz, Nicolas 23896 42 Lea, P. 24163 116 Lecompte, Steven 23561 81 Lee, Ann 22158 95 Lee, Ann 22832 126 Lee, Bong Jae 23507 131 Lee, Bong Jae 23677 96 Lee, Chan 23697 99 Lee, D. K. 23858 42 Lee, Donghwi 23399 91 Lee, Ernest 23600 130 Lee, Ga-Ram 23778 71 Lee, JaeHo 23955 58 Lee, Jaeseon 23816 118 Lee, Jaeseon 23818 128 Lee, Jin Ho 22037 109 Lee, JongSeok 23785 66 Lee, Jooyoung 23833 73 Lee, Junbeom 23816 118 Lee, Junbeom 23818 128 Lee, Jungho 23199 110 Lee, Junyeob 23966 53 Lee, Justina 22471 106 Lee, Namkyu 23399 91 Lee, Sung-UK 23697 99 Lee, Yung-Cheng 23634 90 Léger, Jérémie 22452 121 Leh, Aisha 23567 101 Lei, C.W. 22411 105 Lei, Le 22172 37 Lei, Shenghui 21657 111 Lei, Shurong 22331 80 Lei, Yan 23389 42 Lei, Yonggang 22562 127 Leidich, Frank Udo 21874 47 Leiroz, Albino J. 22737 98

Name ID Page Leitner, Amiram 22738 98 Lemanov, Vadim V. 23057 94 Lemoine, Fabrice 24557 65 Lemonnier, Denis 22812 101 Lemonnier, Denis 23273 134 Lenert, Andrej 23655 130 Leng, J. 23069 68 Leong, Kai Choong 23874 88 Leontiev, Alexander 21244 75 Leontiev, Alexander 21878 127 Leontiev, Alexander 24138 93 Leontiev, Alexander 22874 61 Leroy, Arny 23152 35 Leroy, Arny 23307 70 Levashov, Vladimir 23474 64 Levashov, Vladimir Yu. 23491 130 Levchenya, Alexander 22916 94 Levin, A. A. 22898 90 Lexin, Maxim A. 22322 36 Lezzi, Adriano 24111 69 Li, Bangjun 22686 58 Li, Baokuan 24606 141 Li, Baowen 22180 61 Li, Baowen 22184 145 Li, Bingxi 22558 116 Li, Bingxi 23014 45 Li, Bo 21962 125 Li, Bo 21964 112 Li, Calvin 20898 120 Li, Chen 22198 37 Li, Chen 24121 68 Li, Chun 23919 42 Li, Cuicui 22726 58 Li, Da 23468 106 Li, Dezhao 23192 96 Li, Dezheng Darson 22832 126 Li, Di 23115 126 Li, Di 23116 98 Li, Dong 22209 86 Li, Dong 22244 84 Li, Dong 22276 86 Li, Dong 22448 70 Li, Dongyang 23299 104 Li, Entian 22348 42 Li, Fan 22486 39

179

Author Index Name ID Page Li, Fengchen 22279 74 Li, Fengchen 23299 104 Li, Fengchen 23495 50 Li, Gensheng 23171 121 Li, Gensheng 23269 83 Li, Gesheng 23341 41 Li, Gesheng 23352 140 Li, Guohua 22753 81 Li, Guoqing 22561 136 Li, Haibo 23480 53 Li, Hailong 23992 113 Li, Haiwang 22645 100 Li, Hang 21787 53 Li, Hao 23338 96 Li, He-Ping 23119 98 Li, Hongru 23797 101 Li, Hongxu 23162 130 Li, Hongyou 23219 81 Li, Huafeng 22828 96 Li, Hui-Xiong 22294 118 Li, Jia 22572 49 Li, Jiacheng 23171 121 Li, Jiacheng 23177 95 Li, Jiankang 23314 84 Li, Jianye 24137 96 Li, Jiaqi 22417 54 Li, Jiayu 23420 131 Li, Jing 22103 70 Li, Jing 23389 42 Li, Jing 23392 144 Li, Jing 23499 140 Li, Jinjing 23687 53 Li, Jun 22319 98 Li, Jun 22616 44 Li, Jun 23539 139 Li, Junye 23622 108 Li, Kai 22294 118 Li, Ke 23906 100 Li, Lei 24121 68 Li, Lei 24162 38 Li, Like 23650 121 Li, Lingtong 24178 113 Li, Liyan 23047 59 Li, Long 21898 84 Li, Longjian 22319 98

Name ID Page Li, Longnan 21787 53 Li, Longnan 22157 88 Li, Man 23204 39 Li, Man 23680 48 Li, Mengying 23041 131 Li, Mingjia 22234 104 Li, Mingjia 22244 84 Li, Min-Shan 23757 145 Li, Minxia 23338 96 Li, Mo 23044 48 Li, Panpan 23846 143 Li, Peihua 23382 54 Li, Penglai 23296 144 Li, Penglai 23405 140 Li, Qiang 22222 107 Li, Qiang 22314 91 Li, Qiang 22592 138 Li, Qiang 23692 137 Li, Qiang 24122 63 Li, Qing 23701 137 Li, Qinglian 24048 137 Li, Qinyi 21756 67 Li, Ran 21812 48 Li, Ran 21891 36 Li, Ri 22303 80 Li, Ri 22853 72 Li, Ruiyang 22405 145 Li, Ruiyang 22461 144 Li, Sha 23692 137 Li, Shang 22480 95 Li, Shaodan 24630 128 Li, Shaodan 24631 107 Li, Shen 22081 100 Li, Shen 22100 56 Li, Shijie 23539 139 Li, Shijie 22616 44 Li, Shouhang 22971 83 Li, Shuang-Fei 20651 36 Li, Tian-Fu 23349 93 Li, Tie 22167 110 Li, Wei 23153 54 Li, Wei 23170 41 Li, Wei 23176 89 Li, Wei 23622 108 Li, Wei 24252 44

180

Author Index Name ID Page Li, Weizhong 23803 108 Li, Weizhong 23890 66 Li, Wendong 22503 109 Li, Wenlong 24137 96 Li, Wenming 22198 37 Li, Wenqiang 22340 112 Li, Wenye 22417 54 Li, Wenying 22462 79 Li, X. Y. 23845 109 Li, Xiang 22566 54 Li, Xiaobo 22175 67 Li, Xiaobo 22419 87 Li, Xiaobo 22484 145 Li, Xiaobo 22725 38 Li, Xiaodong 24021 82 Li, Xiao-Lei 22501 131 Li, Xiao-Lei 22512 134 Li, Xiaowei 22511 76 Li, Xiaowei 23534 103 Li, Xin 22492 60 Li, Xingbo 22893 142 Li, Xinlong 23422 125 Li, Xuefang 22025 127 Li, Xuefang 24186 59 Li, Xueqiang 23992 113 Li, Xujun 23203 75 Li, Yan 23238 98 Li, Yang 22103 70 Li, Yang 22501 131 Li, Yang 23192 96 Li, Yansong 22713 137 Li, Yansong 24191 143 Li, Yantao 23064 137 Li, Yanxia 23047 59 Li, Yazi 22562 127 Li, Yiang 22319 98 Li, Yiang 22840 101 Li, Yifei 22250 144 Li, Yihuai 23392 144 Li, Yingling 23338 96 Li, Yinshi 23917 119 Li, Yinxiao 23387 91 Li, Yiqin 23859 104 Li, Yong 24631 107 Li, Yongtong 22760 72

Name ID Page Li, Yourong 21899 80 Li, Yourong 23748 142 Li, Yuanping 23525 80 Li, Yuhua 22167 110 Li, Yuhua 22335 73 Li, Yun 23396 119 Li, Z. 22200 137 Li, Zehuan 22175 67 Li, Zeng-Yao 22117 64 Li, Zeng-Yao 23115 126 Li, Zeng-Yao 23116 98 Li, Zeng-Yao 23119 98 Li, Zhen 23227 142 Li, Zhen-Huan 22512 134 Li, Zhigang 22167 110 Li, Zhixin 20788 36 Lian, Zisheng 21898 84 Liang, Jialin 22740 63 Liang, Junjie 23341 41 Liang, Junjie 23352 140 Liang, Li 22873 56 Liang, Lu 23918 51 Liang, Peng 23173 125 Liang, Peng 23231 42 Liang, Y.T. 22466 82 Liang, Yongfu 23584 101 Liang, Yongtu 22713 137 Liang, Yongtu 24191 143 Liao, Mengyin 21459 70 Liao, Qiang 22457 139 Liao, Qiang 22989 47 Liao, Qiang 23053 136 Liao, Qiang 23184 80 Liao, Qiang 24049 69 Liao, Yuxuan 22406 145 Liao, Zhouyi 23041 131 Liao, Zihao 23910 78 Lim, Byung-Ju 23778 71 Lim, Hyunjeong 23922 69 Lim, Hyunjeong 23935 58 Lim, Jonghyun 24013 127 Lim, Junyub 23100 129 Lim, Kihoon 23816 118 Lin, Chai 22247 91 Lin, Jian 22699 67

181

Author Index Name ID Page Lin, Kuan-Ting 24222 60 Lin, M. H. 22713 137 Lin, Tsiang-Fa 20805 35 Lin, Wenxian 22953 50 Lin, Yuyu 23167 139 Lin, Zhimin 22031 45 Linares, Cristina Martin 21435 117 Lindqvist, Karl 24036 42 Ling, Jiazhen 22642 44 Ling, Kong 22172 37 Ling, Ziye 22613 102 Lipinski, Wojciech 22800 115 Lipinski, Wojciech 22948 70 Liu, B.K. 24195 131 Liu, Bin 21477 76 Liu, Bin 22247 91 Liu, Bin 24321 64 Liu, Bo 23538 116 Liu, C. 22001 80 Liu, C. 22001 80 Liu, Changyu 22448 70 Liu, Chao 22502 125 Liu, Chuanping 22648 106 Liu, Di 23694 127 Liu, Dong 21785 126 Liu, Dong 23692 137 Liu, Dongdong 24033 107 Liu, Dongdong 24043 142 Liu, Fang 21819 105 Liu, Feng 22717 75 Liu, Fengshan 24249 131 Liu, Guangxu 23552 110 Liu, Guoqing 23543 48 Liu, Hang 23971 107 Liu, Huan 22335 73 Liu, Huaqiang 23570 136 Liu, Jian 22151 44 Liu, Jian 22153 104 Liu, Jiaping 23724 112 Liu, Jing 22097 124 Liu, Jing 22493 72 Liu, Jing 22573 128 Liu, Jing 23103 73 Liu, Jing 23394 87 Liu, Jing 23575 75

Name ID Page Liu, Jinhui 23847 66 Liu, Ji-Ping 22628 53 Liu, Joseph 22214 93 Liu, Jun 22484 145 Liu, Jun 22524 49 Liu, L. 22466 82 Liu, L. H. 24135 116 Liu, L. H. 24195 131 Liu, Lande 23612 41 Liu, Lande 24177 67 Liu, Lei 22454 140 Liu, Lei 22494 57 Liu, Lei 23142 84 Liu, Lin 22616 44 Liu, Linhua 23288 38 Liu, Linhua 23933 136 Liu, M. Q. 22395 144 Liu, Minghou 23422 125 Liu, Minshan 23607 93 Liu, Naian 23660 139 Liu, Peng 22294 118 Liu, Peng 23479 45 Liu, Q. 23845 109 Liu, Qi 22566 54 Liu, Qiancheng 24152 53 Liu, Qiao 23083 39 Liu, Qiao 23096 67 Liu, Qingming 23918 51 Liu, Qiusheng 21556 51 Liu, Qiusheng 23064 137 Liu, Qiwei 22457 139 Liu, Rui 22268 138 Liu, Rui 22471 106 Liu, Shang-Qing 23170 41 Liu, Sheng 21989 70 Liu, Shengchun 21983 58 Liu, Shenghui 23552 110 Liu, Shezhan 23501 41 Liu, Shuyang 23501 41 Liu, Tenghui 21954 124 Liu, Wei 22962 42 Liu, Wei 23215 129 Liu, Wei 23479 45 Liu, Wei 23729 106 Liu, Wei 24042 66

182

Author Index Name ID Page Liu, Weiguo 23453 140 Liu, Weiqiang 23486 107 Liu, Weitong 22480 95 Liu, Xiang 23049 144 Liu, Xiangdong 23676 119 Liu, Xianglei 23295 130 Liu, Xiaobing 23271 106 Liu, Xiaokang 23729 106 Liu, Xiaokang 23886 145 Liu, Xicheng 23030 60 Liu, Xin 23531 81 Liu, Xin 24001 47 Liu, Xunliang 22691 47 Liu, Ya 22717 75 Liu, Yan 23724 112 Liu, Yang 22812 101 Liu, Yang 24137 96 Liu, Yanghe 22763 73 Liu, Yi 22043 35 Liu, Yiwen 24104 75 Liu, Yu 22893 142 Liu, Yu 23191 139 Liu, Yu 23743 76 Liu, Yuanbin 23288 38 Liu, Yun 22167 110 Liu, Yuyang 21397 61 Liu, Yuyang 22829 72 Liu, Zaixing 23453 140 Liu, Zeqin 23097 76 Liu, ZhanBin 22234 104 Liu, Zhenhua 20651 36 Liu, Zhenyu 23710 39 Liu, Zheyuan 23416 100 Liu, Zhichun 22962 42 Liu, Zhichun 23215 129 Liu, Zhichun 23479 45 Liu, Zhichun 23729 106 Liu, Zhigang 23342 81 Liu, Zhigang 23840 119 Liu, Zhongliang 23047 59 Liu, Zhongyi 22226 83 Liu, Zunchao 23607 93 Lobanov, Pavel 23942 104 Longo, Giovanni A. 22819 116 Longo, Giovanni A. 22820 91

Name ID Page Longo, Giovanni A. 22500 88 Longo, Giovanni A. 22844 118 Longtin, Jon P. 22884 129 Longtin, Jon P. 23393 110 Lorreyte, C. 24163 116 Lou, Chun 23571 100 Lougou, Bachirou Guene 22293 95 Lounes, Tadrist 22585 35 Lounes, Tadrist 23654 63 Lounes, Tadrist 24466 107 Lounes, Tadrist 24595 90 Low, Zhenghua 23264 125 Lowry, Michael 22471 106 Lozano, Francesc Madrid 21801 36 Lu, Hong 24121 68 Lu, Hong 24162 38 Lu, Hui 22762 126 Lu, Jia 23513 131 Lu, Jianfeng 22170 36 Lu, Jianfeng 23386 127 Lu, Jiaxin 23159 48 Lü, Jingtao 22406 145 Lu, Jin-You 23117 131 Lu, Jin-You 24171 122 Lu, Mingchang 21165 110 Lu, Mingchang 22043 35 Lu, Ming-Hui 24121 68 Lu, Ming-Hui 24162 38 Lu, Pei 22657 118 Lu, Pei 24113 107 Lu, Tao 23079 83 Lu, Tao 23124 47 Lu, Tianjian 22563 116 Lu, Tingyu 22484 145 Lu, Xiaochen 23445 48 Lu, Xiaochen 23870 95 Lu, Xing 23673 61 Lu, Yi 23904 94 Lu, Yi 23911 60 Lu, Yongfeng 22721 56 Lu, Yuanshu 23079 83 Lu, Z.Y. 21923 86 Lu, Zelong 22605 51 Lu, Zhao 23749 124 Lu, Zhengmao 23305 119

183

Author Index Name ID Page Lu, Zhengmao 23315 91 Lu, Zhengmao 23656 89 Lu, Zijian 22427 123 Luan, Yong-xian 23446 124 Lubner, Sean 21085 145 Luchinkin, N. A 22919 75 Lucio Araneo 23952 80 Luczynski, Piotr 21874 47 Lukose, Leo 23017 50 Luo, Chenglong 21459 70 Luo, Feng 24186 59 Luo, Jiali 23974 90 Luo, Jiu 24115 84 Luo, Jun 23586 91 Luo, Kang 23349 93 Luo, Kui 23232 140 Luo, Lingai 23118 112 Luo, Lingai 24279 122 Luo, M. G. 24135 116 Luo, Xiaobing 22857 125 Luo, Xiaobing 22859 125 Luo, Xiaobing 22861 113 Luo, Xiaobing 22863 90 Luo, Xiaobing 23345 49 Luo, Xiaobing 23681 48 Luo, Xiaowei 22511 76 Luo, Xing 22878 88 Luo, Xing 24079 89 Luo, Yu 22462 79 Luo, Zhuqing 22442 113 Lushchik, Valery 24138 93 Lv, Fengyong 23496 89 Lv, Jinyi 23479 45 Lv, Mingming 23840 119 Lv, Shuchen 23890 66 Lv, Yan 22560 146 Lv, Yang-Yang 24162 38 Lv, Yuanwei 23030 60 Lyu, Shushen 23974 90 Lyu, Shushen 23757 145 Lyu, Shushen 24115 84 Lyu, Yongkang 22562 127 Ma, Chaoqun 23243 50 Ma, Chongfang 23719 143 Ma, Danping 24350 59

Name ID Page Ma, Dengke 22405 145 Ma, Dengke 22429 144 Ma, Fei 22207 70 Ma, Guoyuan 22726 58 Ma, Haibo 22471 106 Ma, Hao 23173 125 Ma, Hao 23231 42 Ma, Hongbin 22227 35 Ma, Hongbin 23704 61 Ma, Hongbin 23885 111 Ma, Hongbin 24263 64 Ma, Jiaxuan 22198 37 Ma, Niya 23173 125 Ma, Niya 23231 42 Ma, Qianli 22226 83 Ma, Rong 23445 48 Ma, Rong 23870 95 Ma, T. 23845 109 Ma, Ting 22639 129 Ma, Ting 23673 61 Ma, Ting 23839 58 Ma, Weigang 22026 56 Ma, Weigang 22345 101 Ma, Weigang 22617 55 Ma, Weigang 23447 38 Ma, Xiang 24252 44 Ma, Xiaofan 22690 73 Ma, Xuehu 23396 119 Ma, Xuehu 24152 53 Ma, Yongmei 23159 48 Ma, Yupu 23681 48 Ma, Zhongyu 22227 35 Macchietto, Sandro 23965 125 Madamopoulos, Nicholas 21877 70 Madanan, Umesh 21359 52 Madhumitha, R. 21811 86 Maeda, Yota 23496 89 Magagnoto, Franco 21429 104 Mahfouz, F. M. 21477 76 Mahmoud, Mohamed 20879 136 Maillet, Denis 21381 110 Maillet, Denis 24557 65 Maire, Jeremie 23703 39 Maitra, Tanmoy 24032 137 Makarov, Maksim 22710 133

184

Author Index Name ID Page Makarova, Mariia 24138 93 Malen, Jonathan A. 23055 39 Mallya, Nithin 24556 45 Mameli, Mauro 24202 101 Mameli, Mauro 24215 45 Manca, Oronzio 23990 128 Manca, Oronzio 23991 112 Manca, Oronzio 24016 96 Mancin, Simone 22500 88 Mancin, Simone 22819 116 Mancin, Simone 22820 91 Mancin, Simone 22844 118 Mandal, Deepak Kumar 21961 143 Mangini, Daniele 23891 127 Mangini, Daniele 23952 80 Manglik, Raj M. 24221 45 Manglik, Raj M. 24222 60 Manna, Rafiq 22634 75 Mao, Chenkun 21297 67 Mao, Jianhui 23392 144 Mao, Jiani 24144 57 Mao, Yi 22200 137 Marco, Paolo Di 24202 101 Marco, Paolo Di 24215 45 Marengo, M. 23891 127 Marengo, Marco 23596 108 Marengo, Marco 23952 80 Markides, Christos N. 24142 81 Marocco, Luca 24226 76 Marri, Girish Kumar 22999 73 Marsh, Charles 22270 76 Martínez-Cuenca, Raul 22834 51 Martins, Nelson 24190 97 Martucci, Alessandro 24208 53 Maruyama, Shigenao 21869 122 Maruyama, Shigenao 23460 106 Maruyama, Shigenao 23691 55 Maruyama, Yushi 23780 125 Masaaki, Hashimoto 23497 86 Matar, Omar K. 24179 35 Matsubara, Hiroki 23336 39 Matsubara, Koji 23436 122 Matsubara, Koji 23502 114 Matsubara, Koji 23665 107 Matsuda, Yu 21918 63

Name ID Page Matsui, Kenshiro 23792 39 Matsumoto, Hiroaki 23417 39 Matsumoto, Koji 22416 98 Matsumoto, Mitsuhiro 22230 64 Matsumoto, Ryosuke 23774 133 Matsumoto, Ryosuke 23967 80 Maulbetsch, John 23649 121 Mayer, Joseph 24237 89 Medale, Marc 23515 83 Mehendale, Sunil 22945 63 Mehrabi, Mehdi 23147 54 Mehrizi, Abbasali Abouei 23083 39 Mehrizi, Abbasali Abouei 23096 67 Mehta, Balkrishna 23439 124 Mei, Renwei 22255 47 Mei, Renwei 23650 121 Meinicke, Sebastian 23409 116 Meitzner, Claudia 22104 100 Melnikov, Ivan 22920 103 Ménézo, Christophe 23383 75 Ménézo, Christophe 23859 104 Meng, Fanlong 22742 86 Meng, Han 22405 145 Meng, Hua 23542 93 Meng, Ji'an 20788 36 Meng, Xiangzhao 23749 124 Meyer, Josua Petrus 23235 76 Meyer, Josua Petrus 23262 83 Meyer, Josua Petrus 23927 61 Meyer, Josua Petrus 24154 52 Meyer, Josua Petrus 21949 82 Meyer, Josua Petrus 23020 77 Meyer, Josua Petrus 23021 103 Meyer, Josua Petrus 23022 50 Meyer, Josua Petrus 23024 133 Meyer, Josua Petrus 23113 138 Meyer, Josua Petrus 23213 109 Meyer, Josua Petrus 23461 76 Meyer, Josua Petrus 23587 127 Meyer, Josua Petrus 24010 97 Meyer, Josua Petrus 23147 54 Miao, Yuan 22716 58 Miao, Yubo 22442 113 Miao, Yufeng 23339 71 Miao, Yufeng 23362 40

185

Author Index Name ID Page Miao, Z. 22001 80 Miché, Nicolas 23891 127 Miché, Nicolas 23952 80 Miljkovic, Nenad 21787 53 Miljkovic, Nenad 22157 88 Miljkovic, Nenad 22264 119 Miljkovic, Nenad 22637 54 Miljkovic, Nenad 24237 89 Millan, Pierre 24117 48 Milman, Oleg 23150 89 Min, Jingchun 23531 81 Min, Jingchun 24001 47 Minami, Naoki 23336 39 Minamoto, Yuki 23975 139 Minamoto, Yuki 24155 139 Mine, Tomosuke 23482 118 Miner, Mark 24207 143 Minko, Konstantin 23150 89 Miranda, Jose Ordonez 23810 49 Mirnov, Sergey V. 23894 117 Mishra, Pankaj Kumar 23932 134 Miskiv, Nikolay 23583 82 Mitoma, Ryoya 23856 66 Mitsuishi, Akihiko 22661 51 Mitsuo, Maho 23351 70 Mityakov, Andrey V. 22633 56 Mityakov, S. Z. S. V. Y. 22633 56 Miyara, Akio 24353 109 Miyazaki, Koji 23810 49 Miyazaki, Koji 23962 36 Mo, Dongchuan 23757 145 Mo, Dongchuan 23974 90 Mo, Dongchuan 24115 84 Mo, Shenqiu 22406 145 Mo, Shenqiu 22436 144 Mo, Songping 22840 101 Mo, Songping 23901 66 Mo, Yang 23068 43 Mo, Zhengyu 23094 72 Mobarakeh, Hooman 24207 143 Mobedi, Moghtada 22702 60 Moghaddam, Sina Talebi 21927 57 Mohammadian, S. 24145 79 Mohanty, Rajiva L. 23769 64 Mohanty, Rajiva lochan 23998 119

Name ID Page Mohr, Wolfgang 21874 47 Moita, Ana 22252 37 Moita, Ana 23596 108 Molina, Antonio E. 24002 128 Moll, Wilhelm 23262 83 Mondal, Pranab Kumar 23439 124 Monier-Vinard, Eric 22515 84 Montazeri, Kimia 24267 116 Moon, Seok Hwan 22037 109 Mooney, Arun 23938 76 Moore, Matt 22268 138 Morales, Ken 22268 138 Mordkovich, Vladimir 22368 140 Moreira, Antonio 22252 37 Moreira, Antonio 23596 108 Moreira, Antonio 24165 133 Moreira, Tiago 21908 36 Morimoto, Takashi 23186 113 Morita, Hideyuki 23693 129 Morita, Hideyuki 23716 137 Morokuma, Takayuki 23417 39 Moronuki, Tatsuya 23975 139 Mou, Linwei 22417 54 Moya, José D. 24002 128 Mozdianfard, M. R. 23965 125 Mu, Yu-Tong 23786 78 Mu, Zhiyu 23710 39 Mukasa, Shinobu 23225 69 Mukherjee, Ranit 23745 88 Mulford, Rydge B. 23600 130 Muñoz, José 23268 61 Murata, Akira 23228 94 Murata, Akira 23780 125 Murphy, Kevin 23742 53 Murphy, Kevin 23745 88 Murray, Darina 23938 76 Musakulova, Gulderayim 23947 81 Mutailipu, Meiheriayi 23191 139 Muto, Masaya 22496 139 Myers, Corey 22437 139 Myoga, Arata 23674 96 Na, Sun-Ik 23955 58 Naess, Erling 24036 42 Nagano, Hosei 24446 128 Nagao, Tadaaki 24220 143

186

Author Index Name ID Page Nagasaka, Keisuke 23004 55 Nagasawa, Yoshiki 23967 80 Nagata, Harunori 24007 112 Nagayama, Gyoko 21498 67 Nagayama, Gyoko 22886 38 Nagayama, Gyoko 23856 66 Nagayama, Gyoko 23953 35 Nakabe, Kazuyoshi 22842 86 Nakabe, Kazuyoshi 23287 45 Nakabeppu, Osamu 23004 55 Nakabeppu, Osamu 23077 101 Nakagaki, Takao 22437 139 Nakagawa, Masamichi 23381 83 Nakakura, Mitsuho 23436 122 Nakamura, Hajime 22949 104 Nakamura, Kohei 22545 112 Nakamura, Tomohiko 23156 119 Nakamura, Yuto 23004 55 Nakano, Takeo 22176 145 Nakanouchi, Minori 23823 78 Nakao, Yuki 22935 128 Nakayama, Akira 21758 115 Nakayama, Akira 22702 60 Nakoryakov, V. E. 22710 133 Nalbandian, Hamid 22298 91 Nam, Youngsuk 23832 35 Nam, Youngsuk 23833 73 Narato, P. 23884 93 Nardini, Sergio 23990 128 Nardini, Sergio 24016 96 Nariai, Toshifumi 23693 129 Nariai, Toshifumi 23716 137 Nascimento, Francisco 21908 36 Natarajan, Ganesh 23267 131 Nath, Saurabh 23732 81 Naumkin, Viktor 22710 133 Navarro, Maria Elena 23451 73 Naveira-Cotta, Carolina P. 24583 42 Nawaz, Kashif 22297 93 Nawaz, Kashif 24160 117 Naylor, David 21349 50 Nazarov, Alexandr 23903 137 Nemoto, Mitsuru 23336 39 Nenarokomov, Aleksey 23443 48 Nenarokomov, Aleksey 23667 49

Name ID Page Nerovny, Nikolay 21534 130 Neshumayev, Dmitri 24075 93 Nesreddine, Hakim 21542 70 Neveu, Alain 22515 84 Neveu, Pierre 21341 51 Ng, Tiniao 21262 41 N'guessan, Hartmann E. 23567 101 Nguyen, Binh Thien 24033 107 Nguyen, Binh Thien 24043 142 Nguyen, Huuduy 23204 39 Ni, Mingjiu 23207 94 Nieckele, Angela 24401 137 Niimi, Tomohide 21918 63 Nikulin, Artem 24165 133 Ning, Jinghong 21983 58 Ning, Xiaoru 23173 125 Ning, Xiaoru 23231 42 Nir, Amit 23580 113 Niro, Alfonso 23149 94 Nishida, Keisuke 23335 113 Nishijima, Keisuke 23376 61 Nishijima, Keisuke 24129 50 Nishikawa, Yoshito 23716 137 Nishiwaki, Shinji 24060 74 Nishiyama, Takashi 22210 39 Niu, Jianlei 22442 113 Niu, Xiaojuan 24352 107 Noguchi, Atsushi 24037 60 Noh, Hyung Yun 23835 110 Nomura, Masahiro 23703 39 Nomura, Masahiro 24037 60 Nomura, Shinfuku 23225 69 Nonneman, Jasper 23925 41 Nonneman, Jasper 24132 124 Norris, Stuart 23382 54 Norris, Stuart 23413 103 Nouar, C. 23950 77 Nourafkan, Ehsan 24447 140 Nowak, Andrzej 22900 86 Nuntadusit, Chayut 23884 93 Obayopo, Sirajudeen 24154 52 Oda, Yutaka 23774 133 Ogawa, Keita 22230 64 Ogbonna, Nkem 20761 104 Oh, Dong-Wook 23155 83

187

Author Index Name ID Page Oh, Jinho 23424 75 Oh, Jong-Taek 23549 91 Oh, Junho 22157 88 Oh, Junho 22264 119 Oh, K. C. 23858 42 Ohadi, Michael M. 23685 110 Ohara, Takashi 23417 39 Ohara, Taku 22176 145 Ohara, Taku 23336 39 Ohata, Toshiya 23920 66 Ohnishi, Masato 23752 145 Oho, Katsumi 23228 94 Ohtake, Hiroyasu 23658 119 Ohtaki, Takuma 23351 70 Ohtomi, Koichi 24060 74 Ojo, Anthony 23986 57 Okajima, Junnosuke 22825 133 Okajima, Junnosuke 23460 106 Okajima, Junnosuke 23691 55 Okano, Yasunori 23335 113 Okazaki, Yuki 21817 104 Okita, Yoji 23780 125 Okubo, Hiroji 23590 121 Okumura, Yukihiko 22290 121 Okuno, Yousuke 24286 100 Okutucu, Ozyurt H.Tuba 21973 67 Olakoyejo, Olabode 24154 52 Oliveira, Monica 24190 97 Ong, Kian Soo 23441 142 Ong, Wee-Liat 23055 39 Oosthuizen, E. 23262 83 Oosthuizen, Patrick H. 22634 75 Ophoff, Cédric 24296 122 Oprins, Herman 22144 72 Orejon, Daniel 22096 64 Orejon, Daniel 23430 101 Orejon, Daniel 23496 89 Orlande, Helcio R. B. 22069 87 Orlande, Helcio R. B. 22947 86 Ormiston, Scott 22818 136 Oron, Alexander 22105 139 Osaka, Yugo 22616 44 Osakabe, Masahiro 23082 82 O'Shaughnessy, Seamus 23938 76 Osman, Sohaib 23235 76

Name ID Page Ostrowski, Ziemowit 22900 86 Otanicar, Todd 23330 96 Otsubo, Takumu 22579 113 Otsuka, Yoshihiko 24328 76 Ou, Cuiyun 23277 87 Ou, Guobiao 23672 136 Ou, Zhisong 23252 81 Oura, Kazuki 23921 103 Ouyang, Li 22163 115 Oyabu, Tomoya 22135 56 Oyediran, Ayowole 20761 104 Ozalp, Nesrin 24296 122 Pabiou, Hervé 23859 104 Pacheco, César C. 22069 87 Pacheco, César C. 22737 98 Padilha, Ricardo 22009 48 Pagnoni, Fillippo 23529 111 Pakhomov, Maksim 22131 106 Palchekovskaya, N. V. 22881 84 Paley, Daniel 23055 39 Pallares, Jordi 23469 66 Pan, Jiahui 24162 38 Pan, Liang 23666 125 Pan, Liangming 23971 107 Pan, Liangming 24101 134 Pan, Qinghui 23869 67 Pan, Ruming 23869 67 Pan, Shuai 24350 59 Pan, Ting 23901 66 Pan, Zhihao 22413 113 Pandey, Manmohan 23961 122 Pandey, Vinod 23937 106 Pandey, Vivek 24078 128 Pang, Liping 24021 82 Papavassiliou, Dimitrios 22977 99 Paradis, Pierre-Luc 21542 70 Parin, Riccardo 24208 53 Park, Chang-Dae 23778 71 Park, Goon-Cherl 23867 133 Park, Haechan 23044 48 Park, Hyun Sun 24128 51 Park, Il Seouk 23424 75 Park, Jae Wan 22385 78 Park, Jeongmoon 22270 76 Park, Jin Young 24123 119

188

Author Index Name ID Page Park, Joonhwi 24155 139 Park, Jun-Yub 23155 83 Park, Sehjin 23397 72 Park, Yeongcheol 23723 47 Park, Yong Gap 23234 104 Parmananda, Mukul 23267 131 Parmigiani, Simone 24111 69 Paruya, Swapan 23509 92 Patel, Meet 24230 134 Pattamatta, Arvind 22871 98 Paul, Soumyadeep 23850 59 Paul, Soumyadeep 23853 58 Pavlenko, Aleksandr 22930 36 Pavlenko, Aleksandr 22936 118 Pecherkin, Nikolay 22930 36 Pei, Gang 22440 122 Pekdogan, Tugce 23321 132 Peles, Yoav 22002 93 Peng, Bo 23753 146 Peng, Guilong 22436 144 Peng, Kui 23162 130 Peng, Yu-Hang 22483 61 Peng, Zhan 22397 38 Peng, Zhan 22419 87 Peng, Zhan 22725 38 Peremans, Bart 23248 74 Pérez-García, Jose 23268 61 Petrocelli, Domenico 24111 69 Petrov, Leonid 24068 54 Pham, Anh Duc 23071 118 Phankhoksoong, Siriluk 23628 128 Phelan, Patrick 24207 143 Philipp, Christian 21456 88 Philipp, Christian 22052 53 Piau, Jean-Michel 23896 42 Pierson, Jean-François 24557 65 Pietrasanta, Luca 23891 127 Pietrasanta, Luca 23952 80 Pihu, Tõnu 24075 93 Piskunov, Maxim 22803 36 Planquart, Philippe 22376 133 Polikarpov, Alexey 24466 107 Polonini, Luigi 24111 69 Pomeroy, J.W 23451 73 Ponomarenko, Tatyana 24707 108

Name ID Page Pontes, Pedro 22252 37 Popov, Igor 22874 61 Popovich, Sergey 21244 75 Portnikov, Dmitry 23580 113 Pottas, Johannes 22948 70 Pradère, C. 23069 68 Pramuanjaroenkij, Anchasa 23628 128 Prasher, Ravi 21085 145 Preger, Calle 23071 118 Premachandran, B. 23412 35 Premachandran, B. 24055 76 Preston, Daniel J. 23305 119 Preston, Daniel J. 23315 91 Preston, Daniel J. 23656 89 Preston, Daniel J. 24136 63 Preußer, Niklas 23300 109 Pribaturin, Nikolay 23942 104 Prokop, Tomasz 24211 38 Pron, H. 24163 116 Pu, Jian 23446 124 Punathil, Lineesh 23423 143 Pyatnickaya, Natalia 22920 103 Qi, Baojin 22274 90 Qi, Bo 23410 121 Qi, Dong 22658 131 Qi, Hanbing 22560 146 Qi, Hong 23551 130 Qi, Hong 23557 132 Qi, Jingwei 23701 137 Qi, Xingang 23203 75 Qi, Yingxia 24350 59 Qi, Yu 22275 93 Qian, Jin-Yuan 23132 68 Qian, Pei 23355 45 Qian, Peng 23422 125 Qiao, Hongtao 23630 83 Qiao, Yuhao 23724 112 Qin, Caiyan 23677 96 Qin, Fei 22340 112 Qin, Jiang 22492 60 Qin, Jiang 22836 76 Qin, Zhen 23264 125 Qin, Zhen 23426 64 Qin, Zhi 23933 136 Qiu, Huihe 24287 65

189

Author Index Name ID Page Qiu, Jun 23288 38 Qiu, Lin 22127 56 Qiu, Lin 24018 101 Qiu, Lu 22748 118 Qiu, Lu 23426 64 Qiu, Qinggang 22592 138 Qiu, Qinggang 22612 135 Qiu, Qinggang 23707 107 Qu, Jingguo 23458 72 Qu, Xiaohang 23480 53 Qu, Zhiguo 23128 48 Qu, Zhiguo 23129 69 Qu, Zhiguo 23592 116 Quan, Chen 24352 107 Quan, Wenpeng 24144 57 Quan, Xiaojun 23687 53 Qubeissi, Mansour 20772 136 Quintard, Michel 22601 136 Rabbi, Kazi 24237 89 Radermacher, Reinhard 22642 44 Rahim, Ismail 23225 69 Ramadan, Zaher 23782 43 Ramana, M. K. 22878 88 Ramanathan, Shriram 23680 48 Ramiere, Aymeric 23703 39 Ramissetti, Srinivasa 24443 43 Rammal, Mohammad 24428 40 Randhir, Kelvin 23650 121 Randrianalisoa, J. 24163 116 Rangarajan, Srikanth 22999 73 Rangarajan, Srikanth 23145 45 Rao, Sameer R. 23152 35 Rao, Wei 23394 87 Rao, Yu 21397 61 Rao, Yu 22829 72 Rao, Zhonghao 22704 73 Rao, Zixiong 23960 39 Rath, Prasenjit 24196 125 Raza, Aikifa 23117 131 Raza, Aikifa 24171 122 Razuvanov, N. G. 22919 75 Redmond, Matthew 21973 67 Reinecke, Arne 20732 140 Reizes, John A. 23383 75 Remy, Benjamin 21381 110

Name ID Page Ren, Changsheng 23252 81 Ren, Changsheng 23672 136 Ren, Chengqin 21890 128 Ren, Fei 24249 131 Ren, Junheng 23441 142 Ren, Luyang 23294 43 Ren, Qinlong 22742 86 Ren, Quanyao 23971 107 Ren, Tingting 24262 69 Ren, Wei 22996 100 Ren, Xing-Jie 21979 55 Ren, Zhenhua 23232 140 Ren, Zhenhua 23672 136 Reulet, Philippe 24117 48 Reviznikov, Dmitry 21209 123 Reviznikov, Dmitry 23443 48 Reviznikov, Dmitry 23830 137 Ribatski, Gherhardt 21908 36 Ribatski, Gherhardt 24247 107 Rieck, Albert 23204 39 Rieks, Sebastian 23300 109 Righetti, Giulia 22819 116 Righetti, Giulia 22500 88 Righetti, Giulia 22820 91 Righetti, Giulia 22844 118 Riofrio, Maria Cristina 21801 36 Ris, Vladimir 23638 109 Rittmeier, Tim 20902 36 Rivi`ere, Ph. 22943 131 Rizk-allah, R. M. 21477 76 Robbins, Shane 23262 83 Roberts, C. 21923 86 Rodiet, Christophe 24428 40 Rodio, Maria Giovanna 23148 95 Rodriguez-Sanchez, David 23963 99 Rodríguez-Sánchez, David 24002 128 Roh, Chang Jae 23785 66 Rojczyk, Marek 22900 86 Rong, Yiming 21385 67 Rongione, Nicolas 23204 39 Rosengarten, Gary 22833 94 Rosengarten, Gary 23838 108 Rosengarten, Gary 23963 99 Roseveare, Matthew 23736 64 Rosis, Alessandro De 22464 42

190

Author Index Name ID Page Rossetto, Luisa 22467 89 Rousse, Daniel R. 21542 70 Rousse, Daniel R. 22452 121 Rousseau, Pieter 22766 109 Roux, Willem Gabriel 24010 97 Roux, Willem Le 23587 127 Roux, Willem Le 24185 122 Roy, Xavier 23055 39 Roychowdhury, Somasree 23931 140 Ruan, Li-Ming 22518 130 Ruan, Li-Ming 23551 130 Ruan, Li-Ming 23557 132 Ruan, Xiulin 22539 144 Rüdiger, Frank 22377 121 Ruzgas, Tautgirdas 23071 118 Ryu, Seunggeol 23832 35 Ryu, Seunggeol 23833 73 Ryzhkov, Sergei V. 20916 121 Sadeghpour, Abolfazl 22112 95 Sadfi, Hosein 22819 116 Sadhal, Satwindar 25156 90 SÁEnz, Pedro J. 24179 35 Sagaut, Pierre 23912 42 Saghir, M. Z. 24664 144 Saha, Suvash C. 24276 51 Sahoo, Santosh 24196 125 Saito, Motohiro 23640 78 Saito, Shimpei 22464 42 Saito, Yasushi 23967 80 Saito, Yukiko 23502 114 Sakama, Satoru 23381 83 Sakamoto, Junnki 22416 98 Sakashita, Hiroto 22954 91 Sakurai, Atsushi 24220 143 Salenbien, Robbe 24074 83 Salosina, Margarita 23667 49 Sano, Yoshihiko 21758 115 Santos, Hugo F. L. 22737 98 Saraceno, Luca 24247 107 Sarker, Debasish 23121 64 Satake, K. 23510 78 Satake, Shin-Ichi 23674 96 Satake, Shin-ichi 24100 64 Sato, Toru 23784 84 Sato, Yoshiaki 24153 116

Name ID Page Satoh, Koyu 23660 139 Saury, Didier 22812 101 Saury, Didier 23273 134 Sazhin, Sergei 20772 136 Sazhin, Sergei 22138 108 Schatte, Gerrit A. 24209 119 Schick, Vincent 21381 110 Schlimpert, Stephan 23925 41 Schlüter, Michael 22301 51 Scholl, Stephan 20902 36 Schulte, Helen 21874 47 Scoletta, Edoardo 23529 111 Scotto, Piero 23763 101 Seetharaman, S. 21811 86 Sefiane, K. 22247 91 Sefiane, Khellil 22096 64 Sefiane, Khellil 23136 90 Sefiane, Khellil 23512 88 Sefiane, Khellil 23953 35 Sefiane, Khellil 24179 35 Segal, Vered 22002 93 Seidenbecher, Jakob 22104 100 Seinosuke, Azuma 23693 129 Seinosuke, Azuma 23716 137 Seki, Yohji 23674 96 Semenov, Sergey 23515 83 Sen, Dipak 22891 94 Senda, Tomohiro 22579 113 Seo, Seok Bin 24127 37 Seol, Jae Hun 23723 47 Seppälä, Ari 22834 51 Serdyukov, Vladimir 22936 118 Sergeant, Peter 23925 41 Sergent, Anne 23273 134 Seroshtanov, Vladimir V. 22633 56 Serov, Anatoly 23903 137 Sett, Soumyadip 21787 53 Sett, Soumyadip 22157 88 Sett, Soumyadip 22264 119 Sett, Soumyadip 22637 54 Shah, Mirza M. 22823 37 Shamim, Jubair 23850 59 Shamim, Jubair Ahmed 23853 58 Shamirzaev, Alisher S. 22906 91 Shang, Bofeng 22857 125

191

Author Index Name ID Page Shang, Bofeng 22859 125 Shang, Bofeng 22861 113 Shang, Bofeng 22863 90 Shang, Bofeng 23345 49 Shang, Wei 22566 54 Shang, Yuhe 23476 53 Shang, Yuhe 23481 88 Shankar, Daya 23961 122 Shao, Hezhu 23753 146 Shao, Xue-Feng 22421 56 Shao, Yawei 22657 118 Shao, Yawei 24113 107 Sharif, Asal 23530 51 Sharif, Syed 21240 81 Sharifpur, Mohsen 23235 76 Sharifpur, Mohsen 23927 61 Sharma, Ram Vinoy 24371 134 Shcherbakov, Dmitry 22228 54 Sheikhnejad, Yahya 24190 97 Shen, Biao 23482 118 Shen, Du 22237 38 Shen, Jiadong 23295 130 Shen, Jun 23906 100 Shen, Shengqiang 22612 135 Shen, Shengqiang 23219 81 Shen, Shengqiang 23707 107 Shen, Yaju 23229 79 Sheng, Qiang 23031 38 Sheremet, Mikhail 23642 76 Sherif, S.A. 24252 44 Shi, Dantong 24221 45 Shi, Hao-ning 23839 58 Shi, Jianxin 22191 119 Shi, Juan 23846 143 Shi, Lei 22613 102 Shi, Li 23669 55 Shi, Meng 22563 116 Shi, Shaoyi 22617 55 Shi, Wanyuan 22860 75 Shi, Weiwei 23736 64 Shi, Xuguo 22617 55 Shi, Yanni 23571 100 Shi, Yixiang 22462 79 Shi, Yixiang 24118 78 Shi, Yong 22331 80

Name ID Page Shi, Youan 22494 57 Shi, Youan 23142 84 Shi, Yu 23171 121 Shi, Yu 23177 95 Shibahara, Makoto 21556 51 Shibahara, Masahiko 22135 56 Shibahara, Masahiko 23792 39 Shibata, Hiroki 24328 76 Shiga, Takuma 22461 144 Shim, Dong Il 23399 91 Shimada, Takashi 23823 78 Shimizu, Makoto 23877 96 Shimura, Masayasu 23975 139 Shimura, Masayasu 24155 139 Shin, Chang-Hwan 23697 99 Shin, Dong Hwan 23199 110 Shin, Dong-Ho 23867 133 Shiomi, Junichiro 22406 145 Shiomi, Junichiro 22461 144 Shiomi, Junichiro 23482 118 Shiomi, Junichiro 23752 145 Shiomi, Junichiro 23928 67 Shirakawa, Hidemi 23957 73 Shirizly, Amnon 22738 98 Shishkova, Irina 23474 64 Shockner, Tomer 23580 113 Shoji, Eita 23691 55 Shooshtari, Amir 23685 110 Shou, Binan 25307 100 Shu, Liangsuo 23729 106 Shu, Liangsuo 23886 145 Shuai, Yong 22293 95 Shuai, Yong 23869 67 Shyam, Sudip 23439 124 Siddhartha, Kumar 23975 139 Siirde, Andres 24075 93 Sikic, Ivan 23303 140 Silaen, Armin 22268 138 Silaen, Armin 22471 106 Silva Renata, Rendy 24318 122 Silvain, Jean-François 22721 56 Simonin, Olivier 22601 136 Simsek, Eylul 21973 67 Singer, Farah 23685 110 Singh, Atinder 23036 41

192

Author Index Name ID Page Singh, Nikhil Kumar 23412 35 Singh, Ramesh Kumar 21961 143 Slootweg, Marcel 23262 83 Smirnov, Evgueni M. 22916 94 Smith, Kirk 23330 96 Smorchkova, Yuliya V. 23894 117 Smulsky, Yaroslav 22580 44 Sohn, Ho-Seong 23397 72 Solano, Juan Pedro 23268 61 Soliman, Hassan 22818 136 Solomonik, Igor 22368 140 Soma, Shu 22238 91 Sommier, A. 23069 68 Song, Decai 22433 35 Song, He 23215 129 Song, Kewei 24304 44 Song, Kunqing 23078 60 Song, Kyeongsoo 23100 129 Song, MengXuan 22956 69 Song, Qichen 22397 38 Song, Qichen 22405 145 Song, Qinglu 22811 89 Song, Xianzhi 23171 121 Song, Xianzhi 23177 95 Song, Yindong 23226 58 Song, Yingru 22699 67 Song, Yongchen 22893 142 Song, Yongchen 23108 137 Song, Yongchen 23188 142 Song, Yongchen 23191 139 Song, Yongchen 23237 69 Song, Yongchen 23416 100 Song, Yongchen 23453 140 Song, Yongchen 23501 41 Song, Yongchen 23525 80 Song, Yongchen 23743 76 Song, Youngsup 23315 91 Song, Zhihang 24170 83 Sood, Aditya 22782 56 Sora, Jeon 22520 127 Sorokin, Andrey 21371 69 Soto, Jerome 23118 112 Soufiani, A. 22943 131 Sousa Martins, R. 22943 131 Specht, Eckehard 22136 89

Name ID Page Spliethoff, Hartmut 24209 119 Sposobin, Andrey 23830 137 Srikanth, Vishal 23328 104 Srinivasan, S. 24664 144 Srivastava, Ankur 24433 61 Stanley, Cameron 22833 94 Steinhoff, Ruben 24079 89 Stephan, Peter 22242 137 Stephan, Peter 23300 109 Stetsyuk, Viacheslav 22466 82 Stetsyuk, Viacheslav 23612 41 Stetsyuk, Viacheslav 24177 67 Storch, Thomas 23089 56 Strizhak, Pavel 22803 36 Strobach, Elise 22236 96 Stroh, Alexander 22961 65 Strongin, Mark 21244 75 Strongin, Mark 21878 127 Strongin, Mark 23015 60 Studennikov, Eugeni S. 20918 98 Su, Fengmin 22227 35 Su, Guanghui 23180 71 Su, Hao 23916 115 Su, Liangbin 23173 125 Su, Liangbin 23231 42 Su, Ruixia 22345 101 Su, Timothy S. 23328 104 Su, Yan 21262 41 Su, Yanchen 22348 42 Su, Yu 23197 59 Subbarao, P. M. V. 24055 76 Subhash, Chordia Jayesh 24371 134 Suga, Kazuhiko 21817 104 Suga, Kazuhiko 22401 104 Suga, Kazuhiko 23050 134 Sugita, Naoko 22842 86 Sui, Yang 24273 79 Sun, Baozhi 22191 119 Sun, Chuan 22518 130 Sun, Chuang 22501 131 Sun, Chuang 22512 134 Sun, Chuang 23538 116 Sun, Chuang 23566 35 Sun, Dan 21459 70 Sun, Donghan 23553 69

193

Author Index Name ID Page Sun, Dongliang 22743 90 Sun, Dongliang 23917 119 Sun, Fangyuan 22798 101 Sun, Fangyuan 22993 56 Sun, Fangyuan 23159 48 Sun, Fangyuan 23584 101 Sun, Feiyang 23422 125 Sun, Fengxian 23566 35 Sun, Fengxian 22518 130 Sun, Hai-Feng 22512 134 Sun, Jianfei 22713 137 Sun, Jie 22859 125 Sun, Jie 23031 38 Sun, Jie 23345 49 Sun, Jingli 23452 84 Sun, Li 23119 98 Sun, Licheng 23094 72 Sun, Liying 24191 143 Sun, Mingman 22572 49 Sun, Qie 22549 96 Sun, Quan 24168 96 Sun, Shanyouming 22563 116 Sun, Xiangyu 22600 109 Sun, Xing 23542 93 Sun, Yuanzhi 21910 63 Sun, Zhi-chuan 23135 88 Sun, Zhi-chuan 23176 89 Sun, Zhiwei 23202 142 Sun, Zhizhong 23294 43 Sundararajan, T. 23931 140 Sunden, Bengt 22151 44 Sunden, Bengt 22153 104 Sunden, Bengt 22502 125 Sunden, Bengt 22834 51 Sunden, Bengt 23071 118 Sunden, Bengt 23111 84 Sunden, Bengt 23132 68 Surtaev, Anton 22936 118 Susa, Masahiro 23438 55 Suzaki, Kai 23186 113 Suzuki, Fumiya 22864 50 Suzuki, Hiroshi 22545 112 Suzuki, Hiroshi 22579 113 Suzuki, Hiroshi 22594 113 Suzuki, Koichi 24100 64

Name ID Page Suzuki, Takahiro 24076 142 Suzuki, Takahiro 24274 78 Suzuki, Takashi 22661 51 Suzuki, Yutaka 23163 54 Sviridov, Evgeniy 22920 103 Sviridov, Valentin 22920 103 Swain, Abhilas 23769 64 Swain, Abhilas 23998 119 Szel, Attila 24314 124 Szmyd, Janusz 24211 38 Tabe, Yutaka 23510 78 Tada, Shigeru 24087 100 Tadmor, Rafael 23567 101 Tagawa, Masato 22864 50 Tagawa, Masato 23921 103 Tagawa, Toshio 24328 76 Takahashi, Koji 21756 67 Takahashi, Koji 22118 40 Takahashi, Koji 22210 39 Takahashi, Koji 23136 90 Takahashi, Koji 23482 118 Takai, Kio 23683 115 Takamatsu, Hiroshi 22118 40 Takamatsu, Hiroshi 24286 100 Takata, Yasuyuki 22096 64 Takata, Yasuyuki 22210 39 Takata, Yasuyuki 23136 90 Takata, Yasuyuki 23430 101 Takata, Yasuyuki 23482 118 Takata, Yasuyuki 23496 89 Takata, Yasuyuki 23512 88 Takata, Yasuyuki 23953 35 Takeda, Tetsuaki 23415 95 Takeda, Tetsuaki 23590 121 Takenaka, Kenichiro 22496 139 Takeuchi, Shintaro 23828 48 Takeyama, Mao 23750 119 Tamaura, Yutaka 23794 71 Tan, Gang 23770 131 Tan, Guofeng 23607 93 Tan, Guofeng 23616 110 Tan, Heping 22293 95 Tan, Heping 23869 67 Tan, Heping 22501 131 Tan, Jian 23352 140

194

Author Index Name ID Page Tan, Sichao 23299 104 Tan, Sicong 22493 72 Tan, Si-Cong 23103 73 Tan, Yu 22989 47 Tan, Zhikai 23701 137 Tanahashi, Mamoru 24155 139 Tanaka, Hozutaka 23225 69 Tanaka, Shigeru 24153 116 Tanaka, Takanori 23962 36 Tang, Dawei 22127 56 Tang, Dawei 22167 110 Tang, Dawei 22335 73 Tang, Dawei 22798 101 Tang, Dawei 23044 48 Tang, Dawei 23159 48 Tang, Dawei 23582 146 Tang, Dawei 23584 101 Tang, Dawei 23960 39 Tang, Guihua 22250 144 Tang, Hui 22933 51 Tang, Jiguo 23094 72 Tang, Jinchen 22487 60 Tang, Liangliang 21742 66 Tang, Longsheng 23577 73 Tang, Ni 22419 87 Tang, Ni 22725 38 Tang, Sirui 23567 101 Tang, Wei 22454 140 Tang, Wei 23094 72 Tang, Weiyu 24252 44 Tang, Xiaoli 23528 106 Tang, Xinchun 23919 42 Tang, Xing 23904 94 Tang, Xing 23911 60 Tang, Yingchun 23188 142 Tang, Yong 21385 67 Tang, Yuanliang 22959 86 Tang, Yuanzheng 23543 48 Taniguchi, Jun 23674 96 Tao, Mo 24631 107 Tao, Wenquan 21979 55 Tao, Wenquan 22117 64 Tao, Wenquan 22172 37 Tao, Wenquan 22200 137 Tao, Wenquan 22234 104

Name ID Page Tao, Wenquan 22244 84 Tao, Wenquan 23786 78 Tao, Yang 23420 131 Tao, Yubing 23690 68 Tao, Zhi 22645 100 Tao, Zhi 23866 83 Tapio, Ala-Nissilä 22834 51 Tatsumi, Kazuya 22842 86 Tatsumi, Kazuya 23287 45 Teigler, Christian 23000 134 Teimouri, Hamid 22478 77 Teng, Ying 23743 76 Teo, Hang Tong Edwin 23977 73 Teodori, Emanuele 22252 37 Teodori, Emanuele 23596 108 Teramoto, Katsuyuki 23640 78 Terauchi, Takayuki 23351 70 Terekhov, Victor I. 23057 94 Terekhov, Viktor I. 22131 106 Terekhov, Viktor I. 22580 44 Terekhov, Viktor I. 23888 51 Terekhov, Viktor I. 23903 137 Terekhov, Vladimir 23583 82 Terekhov, Vladimir V. 23057 94 Tervo, Eric 23143 130 Teshima, Hideaki 22210 39 Thebault, Martin 23383 75 Thome, John 23648 134 Tian, Bohan 23704 61 Tian, Bohan 24263 64 Tian, Chunping 24104 75 Tian, Ke 22502 125 Tian, Maocheng 23480 53 Tian, Rui 23468 106 Tian, Shuaiqi 22415 55 Tian, Xing 23368 81 Tian, Yuan 25099 80 Timchenko, Victoria 21240 81 Timchenko, Victoria 23383 75 Timchenko, Victoria 23394 87 Tiwari, Manish 24032 137 Tiwari, Manish 24061 100 Tiwari, Sumit 24207 143 T'jollyn, Ilya 23925 41 T'Jollyn, Ilya 24132 124

195

Author Index Name ID Page Tkachenko, Egor 24435 63 Toebben, Dennis 21874 47 Tokuda, Jumpei 23225 69 Tomimura, Toshio 24153 116 Tomo, Yoko 23136 90 Tong, Lige 22648 106 Tong, Wei 23426 64 Tong, Wei 23586 91 Tong, Zhen 22971 83 Tongkratoke, Amarin 23628 128 Torii, Shuichi 22733 77 Toriyama, Koji 24087 100 Toriyama, Koji 24116 110 Totani, Tsuyoshi 24007 112 Totani, Tsuyoshi 24220 143 Tougri, Inoussa 22009 48 Tov, Idan Shem 22002 93 Tran, Tuan 24033 107 Tran, Tuan 24043 142 Tranchant, Laurent 23810 49 Tranchant, Laurent 24037 60 Travancic, Sead 23498 124 Tregan, Jean-Marc 23662 115 Trinca, Cosimo 23314 84 Trojanowski, Rebecca 22884 129 Trojanowski, Rebecca 23393 110 Tsang, Tony Siu Hon 23977 73 Tschur, Nikolay 23638 109 Tsuchiya, Tomohiro 23004 55 Tsuda, Koji 23928 67 Tsukahara, Takahiro 23930 103 Tsuruta, Takaharu 21498 67 Tsuruta, Takaharu 22886 38 Tsuruta, Takaharu 23856 66 Tsushima, Shohji 24076 142 Tsushima, Shohji 24274 78 Tu, Jiyuan 22353 95 Udayraj 23455 130 Uechi, Takuma 23967 80 Ueda, Jun 22416 98 Ueda, Mitsutoshi 23438 55 Ueda, Osamu 23397 72 Ueki, Yoshitaka 22135 56 Ueki, Yoshitaka 23792 39 Uemura, Suguru 23088 110

Name ID Page Ullmann, Amos 22002 93 Unno, Noriyuki 23674 96 Unno, Noriyuki 23683 115 Unno, Noriyuki 24100 64 Unno, Noriyuki 24140 124 Unno, Noriyuki 24153 116 Upot, Nithin Vinod 24237 89 Usami, Koji 24037 60 Utaka, Yoshio 23120 63 Utaka, Yoshio 23417 39 Vadasz, Peter 21435 117 Vadasz, Peter 22265 70 Vadasz, Peter 22266 97 Valluri, Prashant 24179 35 Van Antwerpen, Herman J. 22139 51 Van der Meer, Theo H. 23615 94 Van Ghele, Loïc 24117 48 Van-Wachem, Berend 23986 57 Varava, Alexander N. 23894 117 Vare´, T. 23950 77 Varonl, Leonardo A. B. 22069 87 Vasiliev, Nikolay V. 23598 64 Vass-VarnaiAndras 24314 124 Venkatesan, Muniyandi 21811 86 Vera, Karine 22515 84 Verant, Jean-Luc 24117 48 Verissimo, Gabriel L. 22737 98 Vessakosol, P. 23884 93 Vidya, Mahening Citra 23615 94 Viegas, Domingos 23660 139 Vieitez, Joshua 23736 64 Vieitez, Joshua 23745 88 Viglione, Alessandro 24215 45 Vincarevich, Artem V. 22633 56 Vinod, Appu 23567 101 Vinogradov, Yurii 21244 75 Vinogradov, Yurii 21878 127 Vinogradov, Yurii 23015 60 Vishnevetsky, Irina 22002 93 Vitali, Luigi 23149 94 Vitovsky, Oleg 22710 133 Vlaskin, Mikhail 22357 95 Volkov, Roman 22803 36 Volodin, Oleg 22930 36 Volz, Sebastian 23810 49

196

Author Index Name ID Page Volz, Sebastian 24037 60 Von Wachem, B. G. M. 24142 81 Vu, Pham Quang 23549 91 Wae-hayee, M. 23884 93 Wagner, Robert 23000 134 Wagner, Timothy 22884 129 Wagner, Timothy 23393 110 Waisbord, Nicolas 24239 142 Wakita, Masashi 24007 112 Walas, Wojciech 22900 86 Wald, Anna 23886 145 Walker, Simon 23319 64 Wan, Hao 22340 112 Wan, Yangda 21890 128 Wang, Ao 21871 70 Wang, B. X. 22395 144 Wang, Baoying 22713 137 Wang, Baoying 24191 143 Wang, Bo 22948 70 Wang, Boxiang 22390 145 Wang, Changhong 23918 51 Wang, Chao 23445 48 Wang, Chao 23870 95 Wang, Chen 23771 112 Wang, Chichuan 21165 110 Wang, Chunyang 22702 60 Wang, D. 22141 59 Wang, Dayong 23191 139 Wang, Di 22560 146 Wang, Evelyn N. 22236 96 Wang, Evelyn N. 23152 35 Wang, Evelyn N. 23305 119 Wang, Evelyn N. 23307 70 Wang, Evelyn N. 23315 91 Wang, Evelyn N. 23384 45 Wang, Evelyn N. 23656 89 Wang, Evelyn N. 24136 63 Wang, Faming 23455 130 Wang, Fang 24606 141 Wang, Fei 22925 115 Wang, Feng 22612 135 Wang, Feng 23296 144 Wang, Feng 23405 140 Wang, Feng 23410 121 Wang, Fengnan 23511 56

Name ID Page Wang, Gang 22355 45 Wang, Gaosheng 23171 121 Wang, Gaosheng 23177 95 Wang, Ge 23771 112 Wang, Hai 22427 123 Wang, Haidong 22118 40 Wang, Haidong 24286 100 Wang, Han 22658 131 Wang, Hao 23083 39 Wang, Hao 23096 67 Wang, Heng 23763 101 Wang, Hong 22348 42 Wang, Hong 22989 47 Wang, Hong 23053 136 Wang, Hongzhao 24287 65 Wang, Hua 23807 129 Wang, Huasheng 23031 38 Wang, Jiabing 24102 116 Wang, Jiacheng 22319 98 Wang, Jianhua 23446 124 Wang, Jianhua 23577 73 Wang, Jianhua 23916 115 Wang, Jianjun 24104 75 Wang, Jianli 21297 67 Wang, Jian-Ping 23044 48 Wang, Jiansheng 22502 125 Wang, Jifen 22485 112 Wang, Jin 22502 125 Wang, Jingtao 23110 110 Wang, Jingyu 23355 45 Wang, Jinshan 23968 59 Wang, Jinshan 24161 86 Wang, Jun 22486 39 Wang, Jun 22956 69 Wang, Junbo 22962 42 Wang, Junfeng 23552 110 Wang, Kai 22857 125 Wang, Kai 23396 119 Wang, Ke 22415 55 Wang, Ke 23607 93 Wang, Ke 23616 110 Wang, Lei 22151 44 Wang, Lei 22153 104 Wang, Li 22648 106 Wang, Liangbi 22630 43

197

Author Index Name ID Page Wang, Liangbi 24304 44 Wang, Liangbi 22031 45 Wang, Liangbi 22631 94 Wang, Liping 24207 143 Wang, Liqiu 21819 105 Wang, Liwei 22182 128 Wang, Long 23296 144 Wang, Long 23405 140 Wang, Long 23410 121 Wang, Lu 23708 125 Wang, Luying 21985 107 Wang, Mingshuang 23553 69 Wang, Moran 23080 39 Wang, Moran 23174 115 Wang, Naihua 23342 81 Wang, Nan 23727 74 Wang, Ping-Yang 20651 36 Wang, Qi 22956 69 Wang, Qian 22411 105 Wang, Qian 23014 45 Wang, Qiang 22996 100 Wang, Qiliang 21898 84 Wang, Qinggong 23870 95 Wang, Qingyang 23390 63 Wang, Qiuwang 22639 129 Wang, Qiuwang 23190 78 Wang, Qiuwang 23355 45 Wang, Qiuwang 23368 81 Wang, Qiuwang 23528 106 Wang, Qiuwang 23673 61 Wang, Qiuwang 21386 42 Wang, Qiuwang 23839 58 Wang, Qiuwang 23845 109 Wang, Ran 24170 83 Wang, Robert 24207 143 Wang, Ruzhu 22600 109 Wang, Ruzhu 22686 58 Wang, Ruzhu 22701 142 Wang, Ruzhu 23403 142 Wang, Ruzhu 23713 93 Wang, Shixue 22925 115 Wang, Shuangfeng 22966 73 Wang, Shuangfeng 23343 125 Wang, Shuangfeng 23373 84 Wang, Sijia 23743 76

Name ID Page Wang, Tao 22335 73 Wang, Tao 23632 91 Wang, Tengyue 22873 56 Wang, Tianshi 22860 75 Wang, Wei 22757 61 Wang, Wei 23265 134 Wang, Wei 23324 41 Wang, Wei 23446 124 Wang, Weibin 22674 103 Wang, Wen 23031 38 Wang, Xiaofei 24237 89 Wang, Xiaohui 22477 113 Wang, Xiaojia 23044 48 Wang, Xinwei 22798 101 Wang, Xinwei 22993 56 Wang, Xinwei 23584 101 Wang, Xueli 22274 90 Wang, Xueli 22678 118 Wang, Xuwen 23874 88 Wang, Yabo 23968 59 Wang, Yabo 23992 113 Wang, Yabo 24161 86 Wang, Yan 22312 116 Wang, Yan 23602 113 Wang, Yangang 21962 125 Wang, Yanning 23917 119 Wang, Yaqiao 23974 90 Wang, Ye 22630 43 Wang, Yi 22315 66 Wang, Yi 22630 43 Wang, Yifei 23700 121 Wang, Ying 23273 134 Wang, Ying 23511 56 Wang, Yingying 22002 93 Wang, Yongqing 23607 93 Wang, Yuan 21762 81 Wang, Yuan 23486 107 Wang, Yuan 24048 137 Wang, Yuanyuan 23392 144 Wang, Yuhe 24350 59 Wang, Yu-Sheng 24121 68 Wang, Yushu 22573 128 Wang, Z. 22001 80 Wang, Z. H. 22295 50 Wang, Zenglin 24219 42

198

Author Index Name ID Page Wang, Zepeng 23500 143 Wang, Zeyu 22873 56 Wang, Zhao 21890 128 Wang, Zhaoliang 22572 49 Wang, Zhaolong 23717 68 Wang, Zhen 22996 100 Wang, Zhenchuan 22567 50 Wang, Zhen-guo 21762 81 Wang, Zhenying 22096 64 Wang, Zhi 23116 98 Wang, Zhibin 23184 80 Wang, Zhifeng 23602 113 Wang, Zhi-Hong 23115 126 Wang, Zhiyun 23068 43 Wang, Zongyu 23704 61 Wang, Zuankai 22314 91 Wang, Kai 24102 116 Wasnik, Priyanka 23567 101 Watanabe, Hirotatsu 23823 78 Watanabe, Ippei 22594 113 Watanabe, Noriyuki 24446 128 Watanabe, Takuya 22864 50 Wei, Dong 21851 80 Wei, Dong 22454 140 Wei, Dong 22494 57 Wei, Dong 23142 84 Wei, Gaosheng 22355 45 Wei, Jingya 23524 143 Wei, Jinjia 22274 90 Wei, Jinjia 22678 118 Wei, Jinjia 22743 90 Wei, Jinjia 24321 64 Wei, Li 23135 88 Wei, Lichuan 23749 124 Wei, Lin 23910 78 Wei, Min 23480 53 Wei, Min 24279 122 Wei, Tiwei 22144 72 Wei, Tongzhou 23495 50 Wei, X. L. 23289 142 Wei, Xiang 23748 142 Wei, Zhiguo 24631 107 Weibel, Justin 22684 37 Weibel, Justin 22820 91 Weibel, Justin 23666 125

Name ID Page Weinstein, Lee A. 22236 96 Weinstein, Oleg 23868 130 Weise, Sonja 23421 90 Wen, Bao 22836 76 Wen, Boyao 24360 144 Wen, Dongsheng 22127 56 Wen, Dongsheng 24438 113 Wen, Dongsheng 24442 97 Wen, Dongsheng 24443 43 Wen, Dongsheng 24447 140 Wen, Dongsheng 24495 114 Wen, Jennifer 23303 140 Wen, Qingmei 23277 87 Wen, Qingmei 23339 71 Wen, Rongfu 23634 90 Wen, Shuang 23557 132 Wen, Zhi 22691 47 Weng, Jianhua 21954 124 Wennersten, Ronald 22549 96 Wetzel, Thomas 23409 116 Wetzel, Thomas 23421 90 Wetzel, Thomas 23485 54 Wetzel, Thomas 24226 76 Whang, Seokwon 24128 51 Wheeler, Vincent M. 22800 115 Wheeler, Vincent M. 22948 70 Wieland, Christoph 24209 119 Wiesche, Stefan Aus Der 23000 134 Wilde, LisaM. 21821 61 Wilke, Kyle 23305 119 Wilke, Kyle 23384 45 Wilke, Kyle 23656 89 Wilke, Kyle 24136 63 Williams, Adam G. L. 24179 35 Williamson, Nicholas 22953 50 Williamson, Nicholas 23413 103 Winterbach, T.J. 23262 83 Wirsum, Manfred 21874 47 Wirtz, Siegmar 22104 100 Wlazlak, Agnieszka 21821 61 Wolf, Ingrid De 22144 72 Wolff, Tamryn 24010 97 Wong, Shwin-Chung 22988 128 Wong, Teck Neng 23874 88 Wong, Teck Neng 23977 73

199

Author Index Name ID Page Worek, William 22884 129 Worek, William 23393 110 Wright, John 21349 50 Wu, Alex 22637 54 Wu, Bohao 22893 142 Wu, Bohao 23191 139 Wu, Chenlong 23426 64 Wu, Chuansong 23238 98 Wu, Chunmei 23748 142 Wu, Di 24121 68 Wu, Guozhong 22560 146 Wu, Hao 22353 95 Wu, Hongwei 22645 100 Wu, Hongwei 23866 83 Wu, Huan 23204 39 Wu, Huiying 23710 39 Wu, Jian 23349 93 Wu, Junjun 22996 100 Wu, Ke 22294 118 Wu, Qingyu 24273 79 Wu, Rui 22414 115 Wu, Ruikang 22859 125 Wu, Ruikang 22861 113 Wu, Ruikang 22863 90 Wu, Ruikang 23345 49 Wu, Ruikang 23681 48 Wu, Shenghao 22731 78 Wu, Shuai 24304 44 Wu, Suchen 23676 119 Wu, Tao 22363 127 Wu, Wanze 22191 119 Wu, Wei 23343 125 Wu, Wei 23373 84 Wu, Weixiong 23343 125 Wu, Weixiong 23373 84 Wu, Xiang 22031 45 Wu, Xiaohu 22525 131 Wu, Xiaomin 22346 58 Wu, Xiaomin 23531 81 Wu, Xiaomin 23594 107 Wu, Xinghui 23111 84 Wu, Xinxin 22511 76 Wu, Xinxin 23534 103 Wu, Yiyang 24118 78 Wu, Yong-He 22031 45

Name ID Page Wu, Yu 22411 105 Wu, Yunhui 24037 60 Wu, Yuting 22189 57 Wu, Yuting 23719 143 Wu, Zan 22834 51 Wu, Zan 23071 118 Wu, Zan 23132 68 Wu, Zhenqun 23452 84 Wu, Zhiyu 21910 63 Wu, Zhizheng 21297 67 Wu, Zihua 22103 70 Wu, Zihua 23392 144 Wu, Zitian 23078 60 Wulf, Rhena 23089 56 Xi, Guannan 23354 75 Xia, Ao 24049 69 Xia, Dawei 22977 99 Xia, Guodong 22486 39 Xia, Liang 21985 107 Xia, Tian 22829 72 Xia, Xin-Lin 22501 131 Xia, Xin-Lin 22512 134 Xia, Xin-Lin 22518 130 Xia, Xin-Lin 23538 116 Xia, Xintong 22630 43 Xia, Xu 22828 96 Xia, Yudong 22716 58 Xian, Yaoqi 23131 56 Xiang, Mengru 23711 45 Xiang, Mengru 23714 127 Xiang, Siyi 22121 48 Xiang, Xiong 24042 66 Xiao, Chunhua 22048 136 Xiao, Guangming 22454 140 Xiao, Guangming 22479 94 Xiao, Guangming 22494 57 Xiao, Guangming 23142 84 Xiao, Heng 23271 106 Xiao, Hui 22962 42 Xiao, Min 23229 79 Xiao, Min 24311 96 Xiao, Qi 24630 128 Xiao, Qi 24631 107 Xiao, Qingtai 23807 129 Xiao, Siyang 23400 143

200

Author Index Name ID Page Xiao, Xin 24438 113 Xiao, Xuan 24085 89 Xiao, Zong 22628 53 Xie, Bin 22857 125 Xie, Bin 22859 125 Xie, Bin 22861 113 Xie, Bin 22863 90 Xie, Bin 23345 49 Xie, Danmei 21905 134 Xie, Gongnan 22153 104 Xie, Gongnan 22565 68 Xie, Gongnan 24183 103 Xie, Guo 23094 72 Xie, Huaqing 22103 70 Xie, Huaqing 22275 93 Xie, Huaqing 22485 112 Xie, Huaqing 23392 144 Xie, Jian 22566 54 Xie, Jianfei 20599 134 Xie, Jingzhe 22565 68 Xie, Jinlong 23977 73 Xie, Quan 23400 143 Xie, Xiaoyun 23775 45 Xie, Yanqi 23968 59 Xie, Yanqi 24161 86 Xie, Zehua 21906 143 Xie, Zehua 22432 56 Xin, Gongming 23797 101 Xin, Hui 22308 59 Xin, Shengchao 22713 137 Xin, Shihe 23541 103 Xin, Shihe 23562 50 Xing, Haifeng 22529 140 Xing, Jiaojiao 23392 144 Xing, Wei 22002 93 Xiong, Chao 23269 83 Xiong, Mengya 23771 112 Xiong, Ping 23124 47 Xiong, Wei 23208 81 Xiong, Xue 23584 101 Xiong, Yangheng 21905 134 Xiong, Yaxuan 22189 57 Xu, Ao 22694 115 Xu, Chang 21742 66 Xu, Chao 22355 45

Name ID Page Xu, Chao 22477 113 Xu, Dike 22230 64 Xu, Dongyan 22043 35 Xu, Fei 22558 116 Xu, Feng 22563 116 Xu, Feng 24276 51 Xu, Guoqiang 22529 140 Xu, Hongtao 22442 113 Xu, Huijin 22312 116 Xu, Jiahui 23354 75 Xu, Jianxin 23807 129 Xu, Jin 23543 48 Xu, Jingren 24562 136 Xu, Jinliang 21785 126 Xu, Jinliang 21910 63 Xu, Jinliang 22309 116 Xu, Jinliang 22566 54 Xu, Jiujun 24263 64 Xu, Keke 23542 93 Xu, Lijie 21459 70 Xu, Minghai 22760 72 Xu, Minghai 22762 126 Xu, Peng 22189 57 Xu, Qiaobian 22623 39 Xu, Ruina 22423 142 Xu, Ruina 22567 50 Xu, Shanshan 23634 90 Xu, Shen 24273 79 Xu, Shuo 22573 128 Xu, Wei 24152 53 Xu, Weidong 22993 56 Xu, Xin-Lin 22097 124 Xu, Xu 22415 55 Xu, Yanru 21906 143 Xu, Yanru 22432 56 Xu, Yantong 22371 63 Xu, Yu 22753 81 Xu, Yuanpei 22285 145 Xu, Zhenyuan 23384 45 Xu, Zhiguo 22409 64 Xu, Zhiming 23110 110 Xu, Zhiming 23282 60 Xuan, Yimin 21871 70 Xuan, Yimin 22285 145 Xue, B. 23289 142

201

Author Index Name ID Page Xue, Dengshuai 22475 122 Xue, Hanwen 22811 89 Xue, Juan 23543 48 Xue, Rong 22674 103 Yabuki, Tomohide 23962 36 Yadav, Ashwini Kumar 23697 99 Yadav, Preeti 23567 101 Yadav, Sakshi B. 23567 101 Yagi, Takashi 23438 55 Yagov, Victor 22327 92 Yagov, Victor V. 22322 36 Yamada, Hikaru 23460 106 Yamada, Masayuki 23482 118 Yamada, Shunsuke 22949 104 Yamada, Takayuki 24060 74 Yamada, Yutaka 21496 134 Yamada, Yutaka 22231 36 Yamaguchi, Hiroki 21918 63 Yamamoto, Shohei 23228 94 Yamamoto, Shohei 23780 125 Yamamoto, Takashi 23794 71 Yamamoto, Yusuke 21498 67 Yamamoto, Yusuke 22842 86 Yamazaki, Tatsuro 23774 133 Yan, Changqi 24104 75 Yan, Changqi 24262 69 Yan, Hongbin 22565 68 Yan, Hongjie 23701 137 Yan, Huilong 23704 61 Yan, Jun 22413 113 Yan, Junjie 23265 134 Yan, Junjie 23324 41 Yan, Junjie 22628 53 Yan, Meiyue 24262 69 Yan, Rungang 24101 134 Yan, Terry 24230 134 Yan, Wei-Mon 20805 35 Yan, Xianghui 22726 58 Yan, Xiao 21787 53 Yan, Xiao 22157 88 Yan, Xue-Jun 24121 68 Yan, Xue-Jun 24162 38 Yan, Y.Y. 21923 86 Yan, Yuying 21763 84 Yan, Yuying 21911 00

Name ID Page Yan, Yuying 21916 118 Yan, Yuying 21962 125 Yan, Yuying 21964 112 Yan, Yuying 21985 107 Yan, Yuying 21989 70 Yan, Yuying 22331 80 Yan’kov, Georgij 23150 89 Yanagihara, Jurandir Itizo 24301 46 Yanagisawa, Ryoto 24037 60 Yanamoto, Atsunori 22842 86 Yang, Baohai 23053 136 Yang, Bei 23602 113 Yang, Bo 21763 84 Yang, Charles 22451 88 Yang, Chen 21865 122 Yang, Cheng-Shi 22628 53 Yang, Chien-Yuh 22298 91 Yang, Chun 23985 53 Yang, Dong 23528 106 Yang, Fei 22549 96 Yang, Haie 24447 140 Yang, Huachao 22731 78 Yang, Huiyun 23904 94 Yang, Jiajia 22457 139 Yang, Jian 23190 78 Yang, Jian 23355 45 Yang, Jian 23368 81 Yang, Juekuan 21297 67 Yang, Kuan 24262 69 Yang, Kun 24102 116 Yang, Lei 23108 137 Yang, Lijun 22477 113 Yang, Liu 23724 112 Yang, Luopeng 23219 81 Yang, Mingjun 23237 69 Yang, Mingjun 23416 100 Yang, Mingjun 23453 140 Yang, Mingjun 23525 80 Yang, Minlin 21937 44 Yang, Nuo 22397 38 Yang, Nuo 22405 145 Yang, Nuo 22406 145 Yang, Nuo 22419 87 Yang, Nuo 22429 144 Yang, Nuo 22436 144

202

Author Index Name ID Page Yang, Nuo 22458 62 Yang, Nuo 22461 144 Yang, Nuo 22725 38 Yang, Qing-Qing 24115 84 Yang, Ronggui 23044 48 Yang, Ronggui 23634 90 Yang, Ronggui 23673 61 Yang, Ronggui 23770 131 Yang, Shuai 23683 115 Yang, Sungwoo 22236 96 Yang, Wenbin 22977 99 Yang, Xiao 22081 100 Yang, Xiao 22100 56 Yang, Xiaofeng 22454 140 Yang, Xiaofeng 22494 57 Yang, Xiaofeng 23142 84 Yang, Xiaohong 23468 106 Yang, Xiao-Hu 22097 124 Yang, Xiao-Hu 23103 73 Yang, Xiao-Hu 23575 75 Yang, Xiaoxi 21937 44 Yang, Xingtuan 22353 95 Yang, Yan 23219 81 Yang, Yang 21890 128 Yang, Yang 22091 114 Yang, Yanping 22355 45 Yang, Yanxia 23499 140 Yang, Yong-Jian 22421 56 Yang, Yongping 24021 82 Yang, Yongyong 24262 69 Yang, Yuankai 23080 39 Yang, Yuanru 23438 55 Yang, Yueting 23775 45 Yang, Zhen 23111 84 Yang, Zhi 23901 66 Yang, Zhiqiang 22811 89 Yang, Zhiqiang 23906 100 Yao, Bowei 24168 96 Yao, Guice 24447 140 Yao, Huan 23389 42 Yao, Ling 23296 144 Yao, Shouguang 23226 58 Yao, Shouguang 23229 79 Yao, Shouguang 24311 96 Yao, Shu-Hua 24162 38

Name ID Page Yao, Shuhuai 22314 91 Yao, Shuhuai 23476 53 Yao, Shuhuai 23481 88 Yao, Wei 23445 48 Yao, Wei 23870 95 Yap, Yit Fatt 22466 82 Yap, Yit Fatt 24177 67 Yassin, Khalil 23888 51 Yates, Luke 22782 56 Yates, Stephen 23938 76 Ye, S. 23289 142 Ye, Yanyong 23389 42 Ye, Zi 22862 66 Yee, Jingzu 23780 125 Yeoh, Guan 21240 81 Yeoh, Guan Heng 22832 126 Yi, Baokui 23797 101 Yi, Hong-Liang 23349 93 Yin, Junshan 22275 93 Yin, Pengbo 21557 88 Yin, Qian 21255 109 Yin, Shaowu 22648 106 Yin, Shimou 22476 134 Yin, Xiaobo 23770 131 Yin, Ying 23592 116 Yin, Yonggao 23283 143 Ying, He 22959 86 Yoda, Osamu 23590 121 Yoichi, Murakami 24412 144 Yokomine, Takehiko 22238 91 Yokomine, Takehiko 23750 119 Yokomori, Takeshi 23975 139 Yokomori, Takeshi 23975 139 Yoo, Jee-Min 23966 53 Yoon, Aejung 24072 128 Yoshida, Hideo 23640 78 Yoshida, Tatsuya 23670 94 Yoshihiro, Taguchi 23497 86 Yoshimura, Shozo 23088 110 Yoshinaga, Yuki 24562 136 You, Ruquan 22645 100 You, Xinyu 23031 38 Yu, Bin 23971 107 Yu, Bo 22315 66 Yu, Bo 22743 90

203

Author Index Name ID Page Yu, Bo 24178 113 Yu, Chunrong 23885 111 Yu, Dengmei 23571 100 Yu, Hanru 24562 136 Yu, Jia-Jia 21899 80 Yu, Junjie 21910 63 Yu, Lei 21890 128 Yu, Shengzhi 24262 69 Yu, Tao 23784 84 Yu, Ting 22274 90 Yu, Wei 22275 93 Yu, Xiang 22191 119 Yu, Xiaoling 23749 124 Yu, Xiaolong 23919 42 Yu, Xiaoxiang 22405 145 Yu, Xiaoxiang 22458 62 Yu, Xiaoxiang 22461 144 Yu, Xingjian 22857 125 Yu, Xingjian 22859 125 Yu, Xingjian 22861 113 Yu, Xingjian 22863 90 Yu, XingJian 23345 49 Yu, Yang 22182 128 Yu, Yaojie 22717 75 Yu, Yingying 22487 60 Yu, Yinsheng 23690 68 Yu, Zitao 22255 47 Yu, Zitao 22415 55 Yuan, Biao 22340 112 Yuan, Chao 23451 73 Yuan, Huaijie 24352 107 Yuan, Kunpeng 22798 101 Yuan, Kunpeng 23582 146 Yuan, Kunpeng 23960 39 Yuan, Lei 23511 56 Yuan, Peng 23131 56 Yuan, Xiaoyan 22387 122 Yuan, Xigang 21341 51 Yuan, Yanping 22479 94 Yuan, Yinnan 24085 89 Yuan, Yuliang 22753 81 Yuan, Zhiping 23594 107 Yuan, Zhong-Xian 22336 122 Yuasa, Tomohisa 23107 74 Yue, Peng 22081 100

Name ID Page Yue, Qiang 24170 83 Yue, Yanan 21905 134 Yue, Yanan 21906 143 Yue, Yanan 22121 48 Yue, Yanan 22432 56 Yugami, Hiroo 23877 96 Yuki, Kazuhisa 23674 96 Yuki, Kazuhisa 23683 115 Yuki, Kazuhisa 24100 64 Yuki, Kazuhisa 24140 124 Yuki, Kazuhisa 24153 116 Yun, Byong-Jo 23966 53 Yun, Rin 23852 110 Zabelinsky, Igor E. 23491 130 Zabirov, Arslan 22327 92 Zabirov, Arslan 22322 36 Zaepffel, C. 22943 131 Zaitsev, Dmitry 24306 119 Zaitsev, Dmitry 24435 63 Zajaczkowski, Bartosz 21821 61 Zak, Anton 22738 98 Zakharenkov, A. V. 23894 117 Zamengo, Massimiliano 22952 96 Zamengo, Massimiliano 23335 113 Zamoum, Mohammed 24595 90 Zan, Yuanfeng 23552 110 Zang, Jianfeng 22397 38 Zang, Jianfeng 22419 87 Zang, Jianfeng 22725 38 Zang, Jinguang 23552 110 Zasimova, Marina 23638 109 Zaynullina, Elza R. 22633 56 Zditovets, Andrey 21878 127 Zditovets, Andrey 23015 60 Zeigarnik, YuryA. 23598 64 Zeiny, Aimen 24442 97 Zeng, Kecheng 22423 142 Zeng, Min 23528 106 Zeng, Yi 22420 67 Zeng, Zezhi 22112 95 Zeng, Zezhi 22381 124 Zhai, Siping 23131 56 Zhai, Yao 23770 131 Zhang, Aifeng 23153 54 Zhang, Aili 22590 87

204

Author Index Name ID Page Zhang, Aiping 23282 60 Zhang, Beichen 24048 137 Zhang, Bin 22480 95 Zhang, Bo 21785 126 Zhang, Chengbin 23676 119 Zhang, Chengcheng 21891 36 Zhang, Chengcheng 23269 83 Zhang, Cun 23960 39 Zhang, Dejian 23953 35 Zhang, Delin 23044 48 Zhang, Dongxiang 21819 105 Zhang, Duo 22340 112 Zhang, F. 22141 59 Zhang, Fangfang 23958 84 Zhang, Fushun 23500 143 Zhang, Gan 23451 73 Zhang, Guang 22371 63 Zhang, Guohua 23869 67 Zhang, Guohua 24183 103 Zhang, Guojun 22448 70 Zhang, Guoyu 22853 72 Zhang, H. 23845 109 Zhang, Haiyan 22968 109 Zhang, Haiyan 23711 45 Zhang, Haiyan 23714 127 Zhang, Hang 21954 124 Zhang, Hang 23584 101 Zhang, Hanlin 23692 137 Zhang, Hao 23753 146 Zhang, Haochun 22529 140 Zhang, Hengyun 24273 79 Zhang, Hong 24049 69 Zhang, Hongna 22279 74 Zhang, Hongna 23299 104 Zhang, Huacheng 23953 35 Zhang, Hui 23985 53 Zhang, Ji 22455 88 Zhang, Jiajia 23129 69 Zhang, Jianfei 23458 72 Zhang, Jianfei 23592 116 Zhang, Jianqiang 24048 137 Zhang, Jing 23807 129 Zhang, Jingzhou 23030 60 Zhang, Kangwei 22590 87 Zhang, L. S. 23289 142

Name ID Page Zhang, L. Y. 22295 50 Zhang, Lei 22335 73 Zhang, Lei 23632 91 Zhang, Lenan 23152 35 Zhang, Lenan 23384 45 Zhang, Li 24178 113 Zhang, Liang 22255 47 Zhang, Liang-Heng 21865 122 Zhang, Litong 22494 57 Zhang, Liyu 23749 124 Zhang, Mingjie 23727 74 Zhang, Nan 22479 94 Zhang, Pei 22648 106 Zhang, Pei 23566 35 Zhang, Peng 22207 70 Zhang, Peng 23496 89 Zhang, Peng 24048 137 Zhang, Ping 23131 56 Zhang, Qian 22561 136 Zhang, Qian 23501 41 Zhang, Qiang 24304 44 Zhang, Qunli 23553 69 Zhang, Renchang 22862 66 Zhang, Rongzhang 22691 47 Zhang, Shasha 21905 134 Zhang, Shengbao 22363 127 Zhang, Shigang 24061 100 Zhang, Shikun 23269 83 Zhang, Shun-De 22518 130 Zhang, Silong 22492 60 Zhang, Silong 22836 76 Zhang, Tao 23803 108 Zhang, Tiejun 23117 131 Zhang, Tiejun 23602 113 Zhang, Tiejun 24171 122 Zhang, Tongyun 21954 124 Zhang, Wei 21910 63 Zhang, Wenbo 22613 102 Zhang, Wenjun 23354 75 Zhang, Wen-Kai 21937 44 Zhang, Wenwen 23551 130 Zhang, Xiang 23685 110 Zhang, Xiangrong 23724 112 Zhang, Xiaoliang 23582 146 Zhang, Xiaoliang 23960 39

205

Author Index Name ID Page Zhang, Xiaosong 23283 143 Zhang, Xiaoyu 22863 90 Zhang, Xiaoyue 23227 142 Zhang, Xin 23173 125 Zhang, Xin 23231 42 Zhang, Xing 21756 67 Zhang, Xing 21992 70 Zhang, Xing 22026 56 Zhang, Xing 22118 40 Zhang, Xing 22345 101 Zhang, Xing 22617 55 Zhang, Xing 23447 38 Zhang, Xing 23847 66 Zhang, Xinni 22387 122 Zhang, Xinrong 22654 103 Zhang, Xinxin 22127 56 Zhang, Xinxin 23238 98 Zhang, Xinxin 23771 112 Zhang, Xinxin 24018 101 Zhang, Xiaocui 23707 107 Zhang, Xiuhai 23128 48 Zhang, Xu 23524 143 Zhang, Xuan 22704 73 Zhang, Xuan 23531 81 Zhang, Xuan 24001 47 Zhang, Xudong 23103 73 Zhang, Xuefeng 23511 56 Zhang, Yaning 22558 116 Zhang, Yi 22429 144 Zhang, Yi 23097 76 Zhang, Yi 23501 41 Zhang, Yi 23511 56 Zhang, Ying 23282 60 Zhang, Yingying 22429 144 Zhang, Yinping 23202 142 Zhang, Yinping 23524 143 Zhang, Yonghai 22274 90 Zhang, Yonghai 24321 64 Zhang, Yongheng 22031 45 Zhang, Yongheng 22631 94 Zhang, Yue 22209 86 Zhang, Yue 23282 60 Zhang, Yun 23911 60 Zhang, Yuwen 21385 67 Zhang, Yuwen 23283 143

Name ID Page Zhang, Yuwen 24145 79 Zhang, Zhen 21989 70 Zhang, Zhen 23680 48 Zhang, Zhengguo 22613 102 Zhang, Zhenhao 23229 79 Zhang, Zhihui 24376 79 Zhang, Zhongnong 23571 100 Zhang, Zhongwei 22180 61 Zhang, Zhongwei 22184 145 Zhang, Zhongyin 22798 101 Zhang, Zhongyin 22993 56 Zhang, Zhongyin 23582 146 Zhang, Zhongyin 23584 101 Zhang, Zhuomin 22392 145 Zhang, Zhuomin 23143 130 Zhang, Zhuomin 23717 68 Zhang, Zunhua 23341 41 Zhang, Zunhua 23352 140 Zhao, Bin 22440 122 Zhao, Changying 22312 116 Zhao, Changying 22390 145 Zhao, Changying 22392 145 Zhao, Changying 22393 131 Zhao, Changying 22395 144 Zhao, Changying 22399 145 Zhao, Changying 22409 64 Zhao, Changying 22411 105 Zhao, Changying 22413 113 Zhao, Changying 22414 115 Zhao, Changzhong 23501 41 Zhao, Changzhong 23511 56 Zhao, Chaofan 23866 83 Zhao, Chuangyao 22117 64 Zhao, Dan 20732 140 Zhao, Dan 22953 50 Zhao, Dongliang 23673 61 Zhao, Dongliang 23770 131 Zhao, Dongpeng 24113 107 Zhao, Ertao 22117 64 Zhao, H. 22141 59 Zhao, Hangyu 23097 76 Zhao, He 20732 140 Zhao, J. M. 24135 116 Zhao, J. M. 24195 131 Zhao, Jiafei 23108 137

206

Author Index Name ID Page Zhao, Jiafei 23453 140 Zhao, Jianfu 22294 118 Zhao, Jianfu 24321 64 Zhao, Jiaqing 22511 76 Zhao, Jin 24443 43 Zhao, Jinping 23339 71 Zhao, Jinping 23362 40 Zhao, Jiuyun 23203 75 Zhao, Jiyun 23302 122 Zhao, Jiyun 23570 136 Zhao, Jiyun 23790 106 Zhao, Jun 21819 105 Zhao, Jun 23338 96 Zhao, Junlong 22901 103 Zhao, Junming 23933 136 Zhao, Li 22657 118 Zhao, Li 24113 107 Zhao, Liang 24352 107 Zhao, Lin 22236 96 Zhao, Lin 23152 35 Zhao, Lingqian 23047 59 Zhao, Nannan 22227 35 Zhao, Nannan 24263 64 Zhao, Qiang 23433 121 Zhao, Ran 22832 126 Zhao, Shuaishuai 22090 38 Zhao, Shupei 23607 93 Zhao, T. S. 22694 115 Zhao, Tian 21771 112 Zhao, Yajing 23656 89 Zhao, Yao 22600 109 Zhao, Yaohua 22095 70 Zhao, Yaohua 22873 56 Zhao, Yibo 22276 86 Zhao, Yuanbin 22503 109 Zhao, Yuechao 23108 137 Zhao, Yuechao 23188 142 Zhao, Yufeng 21297 67 Zhao, Yugang 22451 88 Zhao, Yugang 23985 53 Zhao, Yulong 22925 115 Zhao, Yunhui 23229 79 Zhao, Z. 22001 80 Zhao, Zhenxing 24630 128 Zhao, Zhirui 22191 119

Name ID Page Zhao, Zongxiang 23500 143 Zhdanov, Valery 22580 44 Zheng, Feifei 23958 84 Zheng, Hongfei 24137 96 Zheng, Jianan 23525 80 Zheng, Kun 23159 48 Zheng, Mei 21851 80 Zheng, Mei 22363 127 Zheng, Mengyi 24367 72 Zheng, Rui 23171 121 Zheng, Rui 23177 95 Zheng, Shaofei 21456 88 Zheng, Shaofei 22052 53 Zheng, Xinghua 22081 100 Zheng, Xinghua 22100 56 Zheng, Yi 23396 119 Zheng, Ying 22260 112 Zheng, Yuan 21742 66 Zhong, Dawen 20788 36 Zhong, Jingjun 22348 42 Zhong, Wei 22884 129 Zhong, Wei 23393 110 Zhong, Xin 23281 36 Zhong, Xin 23441 142 Zhou, Bingcheng 22637 54 Zhou, Binkan 23339 71 Zhou, Chenn 22268 138 Zhou, Chenn 22471 106 Zhou, Chunpeng 22116 110 Zhou, D. 25099 80 Zhou, Feng 22726 58 Zhou, Feng 22763 73 Zhou, Hang 23237 69 Zhou, Hang 23525 80 Zhou, Huaichun 23513 131 Zhou, Jian 24162 38 Zhou, Jie 23354 75 Zhou, Jingwei 24144 57 Zhou, Jun 22484 145 Zhou, Kan 23622 108 Zhou, Leping 22623 39 Zhou, Liliang 23681 48 Zhou, Meiling 22993 56 Zhou, Ping 23701 137 Zhou, Shengjun 22645 100

207

Author Index Name ID Page Zhou, Shuling 23681 48 Zhou, Wen 23119 98 Zhou, Wenxiong 23971 107 Zhou, Xingxing 24311 96 Zhou, Xun 23890 66 Zhou, Yan 21865 122 Zhou, Yang 23003 133 Zhou, Yang 23243 50 Zhou, Yang 24052 121 Zhou, Yipeng 22237 38 Zhou, Yixin 23103 73 Zhou, Yuanyuan 23669 56 Zhou, Zhifu 22308 59 Zhu, Cheng 22691 47 Zhu, Guiping 22476 134 Zhu, Heyuan 23753 146 Zhu, Jianqin 23866 83 Zhu, Jie 23044 48 Zhu, Jie 23159 48 Zhu, Jie 23622 108 Zhu, Kai 23968 59 Zhu, Kai 23992 113 Zhu, Kai 24161 86 Zhu, Li 22091 114 Zhu, Li 22400 114 Zhu, Qunzhi 21819 105 Zhu, Qunzhi 24168 96 Zhu, Shixing 23252 81 Zhu, Tingting 22095 70 Zhu, Wanpeng 22726 58 Zhu, Xiaojing 22592 138 Zhu, Xiaojing 23707 107 Zhu, Xiule 23807 129 Zhu, Xun 22457 139

Name ID Page Zhu, Xun 22989 47 Zhu, Xun 23053 136 Zhu, Xun 23184 80 Zhu, Xun 24049 69 Zhu, Yangying 23152 35 Zhu, Yangying 23315 91 Zhu, Yangying 24136 63 Zhu, Yinhai 22605 51 Zhu, Zhiqiang 24104 75 Zhu, Ziqin 22420 67 Zhu, Ziqin 22421 56 Zhuang, Yafang 23159 48 Zhukovskaya, Varvara 22916 94 Zibart, Alexander 24081 106 Zilio, Claudio 22500 88 Zilio, Claudio 22820 91 Zilio, Claudio 22844 118 Zin, Htoo Kyaw 24353 109 Ziskind, Gennady 23580 113 Zou, Deyong 24219 42 Zou, Hanying 24018 101 Zou, Jian 23003 133 Zou, Jihang 22672 67 Zou, Jincheng 22590 87 Zou, Lei 23053 136 Zou, Lulu 23719 143 Zou, Qifan 24630 128 Zou, Yu 22315 66 Zsembinszki, Gabriel 23939 74 Zu, Yingqing 22978 74 Zummo, Giuseppe 24247 107 Zuo, Jiaqiang 24219 42 Zuo, Jingying 22836 76

208

Statistics Statistics Abstracts and Papers submitted and presented at IHTC-16

Region Member(s) Abstract submitted

Full paper submitted

Finally accepted

Papers presented

Australia* Australia, New Zealand, Indonesia, Malaysia, Singapore 40 31 26 25

Brazil* Brazil, other South American countries not specified elsewhere 26 15 8 8

Canada* Canada 12 11 10 10

China* China, Chinese Taipei 891 615 487 461

France* France, African countries not specified elsewhere 53 43 33 32

Germany* Germany, Austria 42 29 27 27

India* India, other South Asian countries not specified elsewhere 93 49 31 30

Israel* Israel 7 6 6 6

Italy* Italy, Spain 32 27 19 19

Japan* Japan, Pakistan, other East Asian countries not specified elsewhere 169 144 123 120

Korea* Korea 64 47 43 42

Portugal* Portugal 6 6 6 6

Russia* Russia, Ukraine, Republic of Belarus, Moldova, Georgia, Armenia, Azerbaijan 74 62 55 53

South Africa* South Africa 36 22 20 20

Switzerland* Switzerland 2 2 2 2 The

Netherlands* The Netherlands, Belgium, Luxembourg, Norway, Sweden, Finland and Denmark 25 20 19 19

UK*

UK, Ireland, Greece, Turkey, Egypt, Other Middle East countries not specified elsewhere, Serbia, Croatia, Slovenia, Bosnia and other Balkan countries, Estonia, Latvia and Lithuania, Czech Republic and Slovakia, Hungary, Romania, Poland, Bulgaria and Albania

81 50 40 40

USA* USA, Mexico, other Central American countries 165 113 87 80

Total 1818 1292 (71%)

1042 (57%)

1000 (55%)

China National Convention Center 1st Floor

(Registration, Opening ceremony, Plenary lectures, Lunch on August 12-14, Banquet on August 14)

(Lunch on August 11 in the Exhibition Hall 4A, 1st floor and Gallery Café & Gallery Foyer, 2nd floor)

(Lunch on August 15 in the Gallery Café & Gallery Foyer, 2nd floor)

3rd Floor (Keynotes, Posters, Meetings, Coffee Breaks, Exhibition Areas, Closing Ceremony, Panel Sessions)

(Welcome Reception on August 10 in the Plenary Hall A, 4th floor)