The 1st Regional GEOS-Chem
Asia Meeting
(GCA1)
Meeting Program
May 21-23, 2018
Nanjing, Jiangsu, China
1
Introduction
The first regional GEOS-Chem Asia meeting (GCA1) will be held on May 21-23,
2018 at Nanjing University of Information Science and Technology (NUIST).
GEOS-Chem is a global model of atmospheric composition used by a large
research community worldwide for a very wide range of applications. GCA1 will
provide an opportunity for GEOS-Chem users and the broader atmospheric
chemistry community to share scientific results, initiate collaborations, and stay
informed of model developments. It will supplement the flagship International
GEOS-Chem meetings (IGC) held at Harvard every two years. We plan to
conduct GCA meetings in alternate years with IGC meetings.
Organizer
Nanjing University of Information Science and Technology (NUIST)
Harvard University
Venue
Nanjing University of Information Science and Technology (NUIST)
No.219, Ningliu Road, Nanjing, Jiangsu, China (Postcode: 210044)
Contact Information
Muning Cheng, [email protected], +8613912921430
Zhenxin Liu, [email protected]), +8618502557009
Hong Liao, [email protected], +8613552282261
Huan Yu, [email protected], +8615852910830
Haijun Wang, [email protected], +8613851723965
2
Notice
Registration Arrangement
Participants who stay at the Jinling New Town Hotel and Yilai Hotel are recommended
to register and get meeting material between 16:00 pm and 20:00 pm on May 20,
2018 in the hotel lobby. Participants can also register outside the Lecture Hall (1st
Floor) of Meteorology Building between 8:00 am and 8:30 am on May 21, 2018.
Meeting Time
May 21-23, 2018 (please refer to the Agenda for more details)
Meeting Location
Lecture Hall (1st Floor), Meteorology Building (the main venue)
Lecture Hall (Rooms 413, 825, and 1115), Meteorology Building (working group
breakouts)
Lecture Hall (Room N201), No.1 Disciplinary Building (model clinic)
Date Time Meeting Session Location
May 21
8:30-12:00 GEOS-Chem presentations
Lecture Hall, Meteorology
Building (1st Floor) 13:00-15:50
16:00-17:00
WG breakouts: Data
Assimilation and Adjoint
WG
Meteorology Building (Room
413)
16:00-17:00
WG breakouts:
GEOS-Chem High
Performance WG
Meteorology Building (Room
825)
16:00-17:00
WG breakouts:
Chemistry-Ecosystems-Cli
mate WG
Meteorology Building (Room
1115)
17:00-18:00 Poster Session A Meteorology Building (1st
Floor)
May 22
8:30-12:00 GEOS-Chem presentations
Lecture Hall, Meteorology
Building (1st Floor) 13:00-15:30
15:45-16:45 WG breakouts: Sources
and Surface Sinks WG
Meteorology Building (Room
413)
15:45-16:45 WG breakouts: Transport
WG
Meteorology Building (Room
825)
15:45-16:45 WG breakouts: Nested
model
Meteorology Building (Room
1115)
3
16:45-17:45 Poster Session B Meteorology Building
(1st Floor)
May 23
8:30-10:00 GEOS-Chem presentations
Lecture Hall, Meteorology
Building (1st Floor) 10:15-12:00
12:30-14:00 Model clinic No.1 Disciplinary Building
(Room N201)
Transportation Arrangement
21 May Shuttle bus departs at 8:00 am from Jinling New Town Hotel to the
Meteorology Building.
Shuttle bus departs at 18:00 pm from Meteorology Building to Jinlin
New Town Hotel.
22 May Shuttle bus departs at 8:00 am from Jinling New Town Hotel to the
Meteorology Building.
Shuttle buses depart at 18:00 pm from Meteorology Building to Jinling
New Town Hotel for reception. Buses will bring participants who stay at
Yilai and Nanqi Hotels back to their hotels after the reception.
23 May Shuttle bus departs at 8:00 am from Jinling New Town Hotel to the
Meteorology Building.
4
Dining Arrangement
Date Time Location Remark
21 May Breakfast (06:30-08:00)
Jinling New Town Hotel,
Yilai Hotel
Free breakfast
at hotel by
showing your
room key
Lunch (12:00-13:00) DongYuan Cafeteria Meal Coupon
22 May
Breakfast (06:30-08:00) Jinling New Town Hotel,
Yilai Hotel
Free breakfast
at hotel by
showing your
room key
Lunch (12:00-13:00) DongYuan Cafeteria Meal Coupon
Dinner (18:00-20:00) Reception at Jinling New
Town Hotel Reception
23 May Breakfast (06:30-08:00)
Jinling New Town Hotel,
Yilai Hotel
Free breakfast
at hotel by
showing your
room key
Lunch (12:00-12:30) DongYuan Cafeteria Meal Coupon
5
GCA1 Agenda
Day1: Monday, May 21
8:00 Set up posters for Poster Session A
8:30-10:40 GEOS-Chemoverview and invited talks (Chair: Hong Liao)
8:30 Welcome Daniel Jacob,Harvard
Hong Liao, NUIST
8:40 GEOS-Chem model overview Daniel Jacob, Harvard
9:00 Atmospheric chemistry and anthropogenic
influence over the Amazon tropical forest
Scot T. Martin, Harvard
9:20 Overview of J3 regional campaign on heavy air
pollution in winter
Yuanhang Zhang,
Peking U.
9:40 Evolution and impacts of anthropogenic
emissions in China
Kebin He, Tsinghua U.
10:00 New particle formation in China Min Hu, Peking U.
10:20 Bridging the gap between modeled and observed
SOA: Implication from field campaigns and
chamber simulation
Xinming Wang,
Guangzhou Institute of
Geochemistry, CAS
10:40 Group photo and break
11:00-12:00 GEOS-Chem working group introductions (Chair: Daniel Jacob)
11:00 Adjoint Model and Data Assimilation Working
Group
Daven Henze,
U. Colorado-Boulder
Jun Wang, U. Iowa
11:10 Transport Working Group Hongyu Liu,
NIA / NASA Langley
11:20 Chemistry-Ecosystems-Climate Working Group Hong Liao, NUIST
11:30 Emissions and Deposition Working Group Jintai Lin, Peking U.
11:40 Nested model Yuxuan Wang, U.
Houston; Lin Zhang,
Peking U.
11:50 High-performance GEOS-Chem and cloud
computing
Jiawei Zhuang, Harvard
6
12:00 Lunch
13:00-14:00 Aerosols (Chair: Daven Henze)
13:00 Source attribution of PM2.5 in Korea during the
KORUS-AQ campaign
Hyung-Min Lee,
Seoul National U
13:10 Observation and simulation of fine particulate
matter pollution during G20 conference in
Hangzhou
Huan Yu, NUIST
13:20 Seasonal variations of model bias in simulations
of major PM2.5 chemical components in China
Ruqian Miao,
Peking U.
13:30 Investigation of new particle formation events in
China using Chemical Ionization Mass
Spectrometry
Jun Zheng, NUIST
13:40 Effect of aging on cloud nucleating properties of
atmospheric aerosols
Yan Ma, NUIST
13:50 Efficacy of dust aerosol forecasts for East Asia
using the adjoint of GEOS-Chem with
ground-based observations
Jaein Jeong,
Seoul National U.
14:00 Poster introductions (1minute, 1 slide):
A1. The impact of increasing atmospheric oxidation capacity on
organic aerosol in Beijing-Tianjin-Hebei (BTH), China: A case
study
Tian Feng, IEE/CAS
A2. Spatiotemporal variations of severe haze episodes in China Jiandong Li, IAP/CAS
A3. Heterogeneous sulfate aerosol formation mechanisms in
Chinese haze events: Air quality model assessment using
observations of sulfate Δ17
O in Beijing
Jingyuan Shao,
Peking U.
A4. The diagnosis of Taylor’s power law relationship between mean
and variance of PM2.5 in China
Zhongjing Jiang,
Peking U.
A5. Climate effects of sulfate and carbon aerosols Yunman Han,
Peking U.
A6.Effects of different types of precipitation on aerosol particles in
Beijing
Jin Wu, BJ
Meteorological Service
A7. Observation and simulation of fine particulate matter pollution
during G20 conference in Hangzhou
Wei Dai, NUIST
A8. Impact of mixing states on aerosol direct radiative forcing and
heating rate based on GEOS-Chem-APM
Hailing Jia, NUIST
14:15 Break
14:30-15:40 Chemistry (Chair:Rokjin Park)
14:30 Modeling of tropospheric halogen chemistry:
cycling, uncertainty, and impact
Lei Zhu, Harvard U.
14:40 Assessing cloud radiative effects on photolysis Hongyu Liu, NIA /
7
rates during aircraft campaigns using satellite
cloud observations and GEOS-Chem
NASA Langley
14:50 Simulation of NH3 in the UTLS Jun Wang, U. lowa
15:00 Impact oflightning NOx on tropospheric ozone
over South China in spring
Yiqiang Zhang,
SCIES.MEP
15:10 Simulating chloride chemistry in GEOS-Chem Xuan Wang, Harvard U.
15:20 Simulation of the effect of multi-scale interactions
on OH
Hongjian Weng,
Peking U.
15:30
POMINO: Explicit aerosols corrections on NO2
satellite retrieval of OMI and Tropomi by using
GEOS-Chem and satellite observation
Mengyao Liu,
Peking U.
15:40 Poster introductions(1minute, 1 slide):
A9. GEOS-Chem CO data assimilation and comparison with the
EC-CAS model
Tailong He , U. Toronto
A10. Effects of cross-scale chemical interactions on tropospheric
ozone in a simplified 1D model
Hao Kong, Peking U.
A11. The variation trend of methane in China from observations and
modelling
Haiyue Tan, Peking U.
A12. Preliminary results on coupling GEOS-Chem with the WRF
Model
Haipeng Lin, Peking U.
A13. Global simulation of aerosol effects on tropospheric photolysis
frequencies and photochemistry
Rong Tian, NUIST
A14. Effects of changing meteorlogical on ozone in the YRD region
during the Clean Air Action Plan(2013-2017)
Rusha Yan, SAES
A15. Atmospheric emissions to socioeconomic impacts: Assessing
the changes in rice mercury contamination under policy
Sae Yun Kwon,
POSTECH
‘
15:50 Break
16:00-17:00 GEOS-Chem working group breakouts - Session 1
16:00-17:00 Data Assimilation and Adjoint WG Co-chairs:
Daven Henze,Jun Wang
16:00-17:00 GEOS-Chem High Performance WG Chair:
Jiawei Zhuang
16:00-17:00 Chemistry-Ecosystems-Climate WG Chair:
Hong Liao,
17:00-18:00 Poster Session A
Day 2, Tuesday, May 22
8:00 Set up posters for Poster Session B
8
8:30-10:10 Regional and global air quality (Chair: Jun Wang)
8:30 Trend of air quality in China constrained
by observations and models
Lulu Shen, Harvard U.
8:40 China and globalizing air pollution Jintai Lin, Peking U.
8:50 Enhanced air pollution health effects
studies using source-oriented chemical
transport models
Jianlin Hu, NUIST
9:00 Simulations of aerosol and trace gases in
Beijing during the APHH campaign
Matthew Jolleys,
U. Edinburgh
9:10 Modeling regional air quality using the
near-explicit master chemical mechanism
Jingyi Li, NUIST
9:20 Air quality over India in 2030: Avoided
premature mortality from emissions
reductions
Alex Karambelas,
Columbia U.
9:30 Fine resolution wind field simulated in the
low layer of urban area by a multi-scale
urban canopy model
Zhenxin Liu,
NUIST
9:40 Local meteorological drivers of summer
surface ozone variability in China:
Implications for interannual variations of
ozone air quality
Ke Li, Harvard U.
9:50 Simulation of severe winter haze in China
over 1985-2015 and the roles played by
meteorological parameters
Ruijun Dang,
IAP/CAS
10:00 Impacts of relative humidity on a heavily
polluted event over North China Plain in
February 2014
Shujing Shi, NUIST
10:10 Poster introductions(1minute, 1 slide):
B1. Short-term weather patterns modulate air pollution in
Eastern China during 2015-2016 winter
Shuyu Zhao,
IEE/CAS
B2.Globalizing air pollution via atmosphere transport and
international trade
Lulu Chen,
Peking U.
B3.Socioeconomic and atmospheric factors affecting
aerosol radiative forcing: Production-based versus
consumption-based perspective
Jingxu Wang,
Peking U.
B4. The impact of aerosol-meteorology interactions on the
effectiveness of emission control measures
Mi Zhou,
Peking U.
B5. Impacts of PBL parameterization on ozone
concentration and dry deposition in the WRF-Chem
model—a case study of Beijing-Tianjin-Hebei region
Yuanhong Zhao,
Peking U.
B6. The uncertainty of the terrestrial carbon fluxes and its
impacts on GEOS-Chem
Shan Zhang,
IAP/CAS
9
B7.Analysis on the impacts of straw burning on air quality
in Beijing-Tianjin-Hebei region
Xiaohui Ma, BJ
Meteorological
Service
B8. Influence of air quality control measures on ozone
during G20 Summit in Hangzhou
Ye Wang, NUIST
10:30 Break
10:45-11:55 Organics & Mercury (Chair: Yuxuan
Wang)
10:45 Atmospheric aqueous-phase SOA
formation:laboratory investigations and
field observations
Xinlei Ge, NUIST
10:55 Space-based constraints on Chinese
non-methane volatile organic compound
emissions and impacts on regional air
quality
Tzung-May Fu,
Peking U.
11:05 Simulations of organic aerosol in China Qi Chen, Peking U.
11:15 Light absorption and chemical
composition of primary and secondary
organic aerosol
Minjie Xie, NUIST
11:25 An online coupled model for air-sea
exchange of mercury
Yanxu Zhang,
Nanjing U.
11:35 Mercury inputs to Chinese marginal seas -
Impact of industrialization and
development of China
Runsheng Yin,
GIG/CAS
12:00 Lunch
13:00-14:00 Transport, sources and sinks (Chair:Jintai Lin)
13:00 The importance of Asia as a source of
black carbon to the Arctic constrained by
aircraft and surface measurements
Junwei Xu,
Dalhousie U.
13:10 NOx emission trends for China derived
from OMPS
Yuxuan Wang,
Tsinghua U.
13:20 Unexpected slowdown of US pollutant
emission reduction in the past decade
Zhe Jiang,
U. Sci. & Tech.China
13:30 Transatlantic transport of pollution from
Africa to South America
Qiaoqiao Wang,
Jinan U.
13:40 Impacts of biogenic and anthropogenic
emissions on summertime ozone formation
in the Guanzhong Basin, China
Nan Li, NUIST
13:50 Characteristics and sources of aerosols on Heng Tian,
10
the western Coast ofTaiwan Strait in
spring 2015
Peking U.
14:00 Poster introductions (1 minute, 1 slide):
B10. The impacts of long-range transport on the spatial and
temporal distribution of black carbon in the Tibetan
Plateau
Yue Wu,
Nanjing U.
B11. GEOS-Chem modeling of long-range transport of
global tropospheric ozone to China
Jane Liu,
Nanjing U./U. Toronto
B12. The impact of long-range transport of African ozone
on tropospheric ozone over Asia
Han Han,
Nanjing U.
B13. Changes in ammonia agricultural emissions and their
impact on surface PM2.5 pollution in China during
2005-2015
Youfan Chen,
Peking U.
B14. Trends of surface ozone and NMVOC emissions in
China inferred from ground and space-based
observations
Hansen Cao,
Peking U.
B15. Top-down estimate of isoprene emissions in East Asia
using inverse modeling: implication of satellite
retrievals from GOME-2 and OMI formaldehyde with
KORUS-AQ aircraft observations
Hyung-Min Lee,
Seoul National U.
B16. Impacts of Anthropogenic Emissions on Springtime
Mesoscale Convective Systems in South China
Lijuan Zhang,
Peking U.
B17. Strategic reduction of anthropogenic emissions to
alleviating severe haze events in Northern China
Yaping Ma,
Peking U.
14:15 Break
14:30-15:30 Transport, sources and sinks (cont.,
Chair:Nadine Unger) 13:00-14:00
14:30 The importance of vertical resolution in
the free troposphere for modeling
intercontinental plumes
Jiawei Zhuang,
Harvard U.
14:40 Emissions and deposition of atmospheric
reactive nitrogen over China
Lin Zhang,
Peking U.
14:50 Long-term NOx and SO2 emissions over
East Asia simultaneously constrained by
OMI observations using GEOS-Chem
adjoint
Zhen Qu,
U. Colorado-Boulder
15:00 Neural network prediction of pollutant
emissions from agricultural waste burning
in Southern China and application to air
quality forecasts
Xu Feng,
Peking U.
15:10 Impact of Southeast Asian smoke on Jun Zhu, NUIST
11
aerosol properties in Southwest China:
comparison of model simulations with
satellite and ground observations
15:20 Modeling Impacts of Urbanization and
Urban Heat Island Mitigation on Boundary
Layer Meteorology and Air Quality in
Beijing Under Different Weather
Conditions.
Lei Chen, NUIST
15:30 Break
15:45-16:45 GEOS-Chem working group breakouts - Session 2
15:45-16:45 Sources and Surface Sinks WG Chair: Jintai Lin
15:45-16:45 Transport WG Chair: Hongyu Liu
15:45-16:45 Nested model Co-chairs:
Yuxuan Wang, Lin
Zhang
16:45-17:45 Poster Session B
18:00 Reception
Day 3, Wednesday, May 23
8:30-10:00 Chemistry-Ecosystems-Climate (Chair: Tzung-May Fu)
8:30 Implications of RCP emissions on future
concentration and direct radiative forcing of
secondary organic aerosol over China
Yu Zhang,
IAP/CAS
8:40 Ozone pollution impacts on crops and forests
in China
Nadine Unger,
U. Exeter
8:50 Aerosol climatic and environmental effects:
modeling studies
Xiaoyan Ma,
NUIST
9:00 Impact of fire air pollution on global
ecosystem productivity
Xu Yue,
IAP/CAS
9:10 Impacts of meteorological parameters and
emissions on decadal and interannual
variations of black carbon in China for
1980-2010
Yuhao Mao, NUIST
9:20 Development of the China National Climate
Center Climate-Chemistry Model
(BCC-CSM-GEOS-Chem): model
development and evaluation for atmospheric
chemistry component
Xiao Lu,
Peking U.
12
9:30 Observed and GEOS-Chem simulated ozone
and PM2.5 change under recent droughts in
China
Yuanyu Xie,
Tsinghua U.
9:40 A typical meteorological circulation of
severe summertime ozone pollution events
in Huabei Plain, China
Cheng Gong,
IAP/CAS
9:50 Effects of afforestation on haze pollution in
BTH
Xin Long, IEE/CAS
10:00 Break
10:15-12:00 WG breakout reportsand discussion (Chair: Daniel Jacob)
10:15 Data Assimilation and Adjoint WG
10:25 GEOS-Chem High Performance WG
10:35 Nested Model
10:45 Sources and Surface Sinks WG
10:55 Transport WG
11:05 Chemistry-Ecosystems-Climate WG
11:15 Future directions for GEOS-Chem (Daniel Jacob, discussion leader)
12:00 Adjourn
12:30-14:00 GEOS-Chem model clinic (led by GEOS-Chem Support Team)
13
Participant List
No. Name Institution Email
1 Yang Cao Nanjing University of Information
Science and Technology [email protected]
2 Hansen Cao Peking University [email protected]
3 Lei Chen Nanjing University of Information
Science and Technology [email protected]
4 Qi Chen
School of environmental science
and engineering, Peking
University.
5 Lulu Chen
Department of atmospheric and
Marine Sciences, Peking
University
6 Youfan Chen
Department of atmospheric and
Marine Sciences, Peking
University
7 Lulu Cui Fudan University [email protected]
8 Huibing Dai Nanjing University of Information
Science and Technology [email protected]
9 Wei Dai Nanjing University of Information
Science and Technology [email protected]
10 Ruijun Dan
Institute of Atmospheric Physics,
Chinese Academy of Sciences
11 Xu Feng
Department of atmospheric and
Marine Sciences, Peking
University
12 Tian Feng Institute of Earth Environment,
Chinese Academy of Sciences [email protected]
13 Tzung-May Fu
Department of atmospheric and
Marine Sciences, Peking
University
14 Xinlei Ge Nanjing University of Information
Science and Technology [email protected]
15 Lei Geng Peking University [email protected]
16 Cheng Gong Institute of Atmospheric Physics,
Chinese Academy of Sciences [email protected]
17 Jing Gu Nanjing University
18 Kebin He Tsinghua University [email protected]
19 Rui Han Institute of Atmospheric Physics, [email protected]
14
Chinese Academy of Sciences
20 Han Han School of Atmospheric Sciences,
Nanjing University [email protected]
21 Yunman Han
College of Urban and
Environmental Sciences,Peking
University
22 Tao He Changzhou Environmental
monitoring Center [email protected]
23 Tailong He University of Toronto [email protected]
24 Daven Henze University of Colorado Boulder [email protected]
25 Min Hu Peking University [email protected]
26 Jianlin Hu Nanjing University of Information
Science and Technology [email protected]
27 Daniel Jacob Harvard University [email protected]
28 Jaein Jeong
School of Earth
and Environmental Sciences,
Seoul National University
29 Hailing Jia Nanjing University of Information
Science and Technology [email protected]
30 Zhongjing Jiang
Department of atmospheric and
Marine Sciences, Peking
University
31 Zhe Jiang University of Science and
Technology of China [email protected]
32 Matthew Jolleys University of Edinburgh [email protected]
33 Alex
Karambelas
The Earth Institute, Columbia
University [email protected]
34 Yawen Kong
Institute of Geographic Sciences
and Natural Resources Research,
CAS
35 Hao Kong
Department of atmospheric and
Marine Sciences, Peking
University
36 Sae Yun Kwon Pohang University of Science and
Technology (South Korea) [email protected]
37 Hyung-Min Lee
School of Earth
and Environmental Sciences,
Seoul National University
38 Ke Li Havard University [email protected]
39 Jiandong Li
Institute of Atmospheric Physics,
Chinese Academy of Sciences
40 Jingyi Li Nanjing University of Information [email protected]
15
Science and Technology
41 Nan Li Nanjing University of Information
Science and Technology [email protected]
42 Rui Li Fudan University [email protected]
43 Junlin Li Fudan University [email protected]
44 Chunyu Li Changzhou Environmental
monitoring Center [email protected]
45 Yichen Li School of Atmospheric Sciences,
Nanjing University [email protected]
46 Hong Liao Nanjing University of Information
Sciences and Technology [email protected]
47 Muxue Liang Nanjing University of Information
Science and Technology [email protected]
48 Jintai Lin
Department of atmospheric and
Marine Sciences, Peking
University
49 Haipeng Lin
Department of atmospheric and
Marine Sciences, Peking
University
50 Nan Lin Tsinghua University [email protected]
n
51 Hongyu Liu NIA / NASA Langley [email protected]
52 Jane Liu Nanjing University // University
of Toronto [email protected]
53 Zhenxin Liu Nanjing University of Information
Science and Technology [email protected]
54 Mengyao Liu
Department of atmospheric and
Marine Sciences, Peking
University
55 Xin Long Institute of Earth Environment,
Chinese Academy of Sciences [email protected]
56 Xiao Lu
Department of atmospheric and
Marine Sciences, Peking
University
57 Yaping Ma
Department of Atmospheric and
Oceanic Science, Peking
University
58 Yimian Ma
Institute of Atmospheric Physics,
Chinese Academy of Sciences
59 Xiaoyan Ma Nanjing University of Information
Science and Technology [email protected]
60 Yan Ma Nanjing University of Information [email protected]
16
Science and Technology
61 Mingchen Ma Ocean University of China [email protected]
62 Xiaohui Ma BJ Meteorological Service [email protected]
63 Yuhao Mao Nanjing University of Information
Science and Technology [email protected]
64 Scot T. Martin Harvard University-SEAS [email protected]
65 Ya Meng Fudan University [email protected]
66 Xianglai Meng Institute of Atmospheric Physics,
Chinese Academy of Sciences [email protected]
67 Ruqian Miao
School of environmental science
and engineering, Peking
University.
68 Yanlin Qi
School of environmental science
and engineering, Peking
University.
69 Jing Qian Nanjing University of Information
Science and Technology [email protected]
70 Zhen Qu University of Colorado Boulder [email protected]
71 Jingyuan Shao Peking University [email protected]
72 Lulu Shen Havard University [email protected]
73 Shujing Shi Nanjing University of Information
Science and Technology [email protected]
74 Haiyue Tan
Department of atmospheric and
Marine Sciences, Peking
University
75 Rong Tian Nanjing University of Information
Science and Technology [email protected]
76 Heng Tian
Department of atmospheric and
Marine Sciences, Peking
University
77 Nadine Unger University of Exeter [email protected]
78 Xinming Wang Guangzhou Institute of
Geochemistry, CAS [email protected]
79 Xuan Wang Harvard University [email protected]
80 Qiaoqiao
Wang
Jinan University Institute for
Environmental and Climate
Research
81 Jingxu Wang
Department of atmospheric and
Marine Sciences, Peking
University
82 Yuxuan Wang Tsinghua University [email protected];
83 Jun Wang University of lowa [email protected]
17
84 Ye Wang Nanjing University of Information
Science and Technology [email protected]
85 Hongjian Weng
Department of atmospheric and
Marine Sciences, Peking
University
86 Yue Wu Nanjing University [email protected]
87 Jin Wu BJ Meteorological Service [email protected]
88 Jing Xia Changzhou Environmental
monitoring Center [email protected]
89 Minjie Xie Nanjing University of Information
Science and Technology [email protected]
90 Yuanyu Xie Tsinghua University [email protected].
cn
91 Junwei Xu
Dalhousie University [email protected]
92 Rusha Yan Shanghai Academy of
Environmental Sciences [email protected]
93 Runsheng Yin Institute of Geochemistry,
Chinese Academy of Sciences [email protected]
94 Jiacheng Yu Nanjing University of Information
Science and Technology [email protected]
95 Huan Yu Nanjing University of Information
Science and Technology [email protected]
96 Xu Yue Institute of Atmospheric Physics,
Chinese Academy of Sciences [email protected]
97 Yuanhang
Zhang Peking University [email protected]
98 Jing Zhang Beijing Normal University [email protected]
99 Shan Zhang Institute of Atmospheric Physics,
Chinese Academy of Sciences [email protected]
100 Yu Zhang Institute of Atmospheric Physics,
Chinese Academy of Sciences [email protected]
101 Yanxu Zhang Nanjing University [email protected]
102 Lijuan Zhang
Department of Atmospheric and
Oceanic Science, Peking
University
103 Lin Zhang
Department of atmospheric and
Marine Sciences, Peking
University
104 Yiqiang Zhang South China Institute of
Environmental Science. MEP [email protected]
105 Ying Zhang Tsinghua University [email protected]
du.cn
106 Yunchen Zhang Fudan University [email protected]
18
107 Xun Zhang School of Atmospheric Sciences,
Nanjing University [email protected]
108 Shuyu Zhao Institute of Earth Environment,
Chinese Academy of Sciences [email protected]
109 Xincheng Zhao Nanjing University of Information
Science and Technology [email protected]
110 Yuanhong Zhao
Department of atmospheric and
Marine Sciences, Peking
University
111 Zhuzi Zhao Institute of Earth Environment,
Chinese Academy of Sciences [email protected]
112 Jun Zheng Nanjing University of Information
Science and Technology [email protected]
113 Xiang Zheng China University Of
Geosciences,wuhan [email protected]
114 Hao Zhou Nanjing University of Information
Science and Technology [email protected]
115 Mi Zhou
Department of atmospheric and
Marine Sciences, Peking
University
116 Jiamao Zhou Institute of Earth Environment,
Chinese Academy of Sciences [email protected]
117 Lei Zhu Harvard University [email protected]
118 Jun Zhu Nanjing University of Information
Science and Technology [email protected]
119 Jia Zhu Nanjing University of Information
Science and Technology [email protected]
120 Jiawei Zhuang Harvard University [email protected]
19
Additional Information
Transportation
If you take a taxi to Jinling New Town Hotel, please show the following to the Taxi
driver:
“Please take me to the Jinling New Town Hotel (No. 488,
DaChangYuanXiRoad, LiuHe District). Thank you.”
请带我去南京金陵新城饭店(南京市六合区大厂园西路 488 号),谢谢!
If you take a taxi to Yilai Hotel, please show the following to the Taxi driver:
“Please take me to the Yilai Hotel (No. 1, YangXin Road, PuKou District).
Thank you.”
请带我去南京浦口怡莱精品酒店(南京市浦口高新技术开发区杨新路 1 号),
谢谢!
If you take a taxi to NanQi Hotel, please show the following to the Taxi driver:
“Please take me to the NanQiHotel(No.219, Ningliu Road, PuKou District).
Thank you.”
请带我去南京信息工程大学南气宾馆(南京市浦口区宁六路 219 号),谢谢!
20
Sketch Map of Each Location
Campus Map
21
Money
Local currency is the Chinese Yuan (RMB), with the approximate value 1 Euro = 7.56
RMB, 1 USD = 6.34 RMB (Rates on May, 2018). The exchange rates are subject to
daily variations. Chinese currency is decimal. Notes come in 100, 50, 20, 10, 5, and 1
yuan denominations. Coins come in 10c, 50c denominations.
Major currencies can be exchanged at the hotels or banks nearby. The most common
credit cards (e.g., Visa, MasterCard) are accepted at major hotels and stores.
Electricity
The electric current in China is 220V, 50/Hz, and the plugs below can be used. If
your appliance’s plug has a different shape, you may need a plug adapter.
Weather and Climate
For information on the temperature during May, daily weather forecasts, etc, please
visit the websites either at: http://www.cma.gov.cn/en/.
Time
The China Standard Time (Beijing Standard Time) is eight hours ahead of UTC/GMT.
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