NCP Widening Workshops - digital.csic.es
Transcript of NCP Widening Workshops - digital.csic.es
NCP Widening Workshops6th December 2018, Warsaw
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SUPREME INTRODUCTIONPart One
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Acronym: SuPREME „Twinning for a Sustainable Proactive Research partnership in distributed
Energy systems planning, Modelling and managEment”Call: H2020-TWINN-2015, Coordination and Support Actions
POLAND:IMP PAN
AUSTRIA:eseia
DENMARK:Aalborg Universitet
NETHERLANDS:Universiteit Twente
4 partners3 RESEARCH INSTITUTIONS1 PARTNER FROM POLAND
Total budget: 1 047 551,25 €IMP PAN budget 488 750 €
While Polish research now has expertise in many of the technologies needed for energy transition, it lacks critical knowledge in modelling,planning, integrating, and managing large-scale renewable energy systems in a flexible and effective manner. The SuPREME project twinsone of Poland’s best energy research centres, the Instytut Maszyn Przeplywowych im. Roberta Szewalskiego Polskiej Akademii Nauk withneeded expertise in Denmark (Aalborg University), the Netherlands (University of Twente), and Austria (European Sustainable EnergyInnovation Alliance). Focusing on needed knowledge transfer in integrating energy technologies, the project’s well-formulated mix ofextended staff exchanges, joint work, Summer Schools, and other events will create a long-lasting and effective partnership that will have avery significant impact on Poland’s energy systems infrastructure and climate footprint.
IMP PAN is the projectco-ordinator
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KEZO Centre- Test-side for devices producing and storing heat,
cold and electrity from RES as well as test side of software for management of generation and consumption of energy
Installations play roles of:-Demonstrators of modern technologies (majority of them is not yet available at the Polish market) - research object (metering, data acquisition and analysis, control)- functional systems supplying building of the Center in heat, cold and electricity
Production of electricity
Wind turbines:- with horizontal axis- with vertical axis- 2 Darrieus turbines
Production of electricity
Photovoltaics:- monocrystalline cells - policrystalline cells- PVT panels- thin-film cells- transparent panelsTracker, sheds, BIPV
Heat Production
Solar collectors:- vacuum-tube „heat pipe” type- direct- flow type- flat-plate type
Boilers:- biomass-fired- gas condensing
Heat pumps:- ground- source high-temperature with CO2
- air-source- absorption heat pump air/water suppliedwith gas
Production of heat and power in cogeneration
Biomass systems:- biomass gasifier with CHP unit coupled with ignition engine30kWe/80kt- CHP unit coupled with pellet-firedStirling engine
Gas systems:- fuel cell- Stirling engines- ignition engines- gas microturbine 100kWe/165kWt
PVT type photovoltaic panels
Cold Production
Waste heat utilizing systems:- Absorption chillers utilising heatfrom solar collectors and waste heatfrom testing rigs
Heat pumps:- ground- source high-temperature withCO2
- absorption heat pump air/water suppliedwith gas
Heat, cold and electricity storages
Cold storage:- Ice water accumulation tank 5m3
Heat storages:- high and low temperature accumulation tank 2x 5m3
- TTES (Tank Thermal Energy Storage 50m3)- BTES (Borehole Thermal Energy Storage )- LHTES (Latent Heat Thermal Energy Storage utilising PCM 2x1 m3)
Electricity storage system:- accumulator- EV charging stations- electric vehicle
Education
RES Educational Path
Educational stands:- Set of two gas microturbines- Axial gas microturbine- Steam microturbine- Stirling engine- Steering and regulation of power generators
• Monitoring of local heat and power network• Development of different types of work
scenarios for particular real or virtual approaches/solution
• Development of management algorithms • Regulation of demand and supply of energy• EV infrasturcture integration
Source: http://solutions.3m.com/wps/portal/3M/en_EU/SmartGrid/EU-Smart-Grid/
Smart Energy System
BMS
Intelligent management of Energy flows in the Centre – local Smart Energy System
Planned evolution:
Micro scale:office building,
home
Macro scale:municipality, citi
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• Integration of EV into Smart Energy System
• Development of management algorithms
• Regulation of demand and supply of energy
Intelligent management of Energy flows in the Centre – local Smart Energy System and EV
Research plans: • Power quality anaysis• Infuenece of EV on the stability of „island
“ energy system • Bi-directional energy flow (V2G, VTH)
• Utilisation of e-vehicles as mobile energy storage
• New grid services• Efficency of Smart Energy Systems
utilising RES and EV• Planning • Modeling• Management
• Hybrid systems• Charging control and monitoring
• When, Where, How?• New services
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Specific project objectives (1)
• To understand Poland‘s unique energy requirements and develop a technical transition plan coherent with EU and national guidelines and targets
• IMP PAN team participates actively in activities of the working group in the Ministry of Energy in the field of „energy clusters“ (new RES Act)
• Basing on experience of Denmark, the Netherlands and Austria
• They attend the proccess of establishing a national programme on „micro-energy clusters“
• IMP PAN has access to the online platform of MoE on energy clusters
• IMP PAN participates in the meetings of the parliamentary Committee on Energy and State Treasury
• IMP PAN team is involved in e-mobility topic – new very important issue for the Ministry of Development and the Ministry of Energy
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Meeting in the Ministry of Energy regarding local energy clusters (LME)
Specific project objectives (2)
• To create sets of technical scenarios optimised with respect to the management of production and consumption of different energy forms in energy systems able to be easily customised for flexible local or regional development within Poland
• Supervision of AAU
• KEZO as the first virtual energy system – living lab
• Initiation of the energy cluster around KEZO together
with external partners from local minicipalities
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Specific project objectives (3)
• To transfer all needed necessary knowledge for IMP PAN tobe able to lead Poland in energy system integrationtechniques and to greatly enhance the research capacity ofIMP PAN and its staff
• all partners involved
• Through events fostering knowledge tranfer
• Long-term stays of IMP PAN researchers at partner universities
• Short-term visits of partners in Poland
• Summer school
• Individual trainings
• Preparing joint articles
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Specific project objectives (4)
• To develop close, long-term relationships with SuPREME partners
• Submitting joint project proposals
• Working on joint publications
• Extension of research cooperation to other topics and other research teams (e-mobility, diagnostics of small energy units, involving SuPREME partners into projects conducted by IMP PAN team on national level)
• Private contacts
• To develop a Europe-wide network of relationships with key research groupsand stakeholders in the field of energy systems integration to addressnetworking gaps and deficiences between the research institutions of the lowperforming Member States and internationally-leading counterparts at the EUlevel
• EERA (JP Energy Systems Integration) and eseia membership
• Building international network around KEZO research centre: AAU, UT, CEA, E.ON Energy Research Center
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SuPREME in relation to TWINNING objectives
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Twinning Goals Contribution of SUPREME
Significantly strengthening a defined field of research in a
particular knowledge institution (...) by creating a link between
this institution and at least two internationally-leading
research institutions in other Member States
Through SuPREME, critically needed knowledge in the field of
energy system integration is transferred from Denmark, the
Netherlands and Austria to Poland through staff exchanges,
events, and long-term collaboration.
Enhance the S&T capacity of the linked institutions Technical expertise is shared in Poland through collaborative
research activities and exchanges, greatly increasing S&T
capacity.
Help raise staff’s research profile as well as the one of the
institutions involved
Through staff exchanges and long-term collaborations, IMP-
PAN’s scientists are exposed to new environments and levels
of excellence, raising their research profiles and capacities.
Address networking gaps and deficiencies between the
research institutions of the low performing Member States and
regions and internationally-leading counterparts at EU level
By joining together with three anchors of EU excellence in
Denmark, the Netherlands and Austria, IMP-PAN is better
integrated into the international research community.
IMPACT MEASURESPart Two
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WP1 Energy Systems in Macro Scale – Reaching Objectives
• IMP PAN researches will gain crucial expertise in the fields of energyscenario design and simulation on the macro level through mobility
• IMP PAN researchers are able to work with new tools (EnergyPLAN, energyPRO, Homer, MATLab SimuLink)
• IMP PAN is using these tools now in a high-budget project in the field, won in a competition within a strategic B+R programme on the national level
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WP2 Energy Systems in Micro Scale – Reaching Objectives (1)
• IMP PAN researches will be helped to broaden their REStechnology profile into ICT supported systemsmanagement and related domains in public governance,law and the humanities
• IMP PAN researchers have learned how ICT issues in energymanagement are approached at UT
• IMP PAN researchers have been introduced to social science aspectsthat should be considered together with development of technologysolutions
• Development of an ICT tool for a local energy system is one the maintasks in the new strategic project that will be coordinated by IMPPAN
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WP2 Energy Systems in Micro Scale – Reaching Objectives (2)
• Help in building relevant networks with industry, methods for localvalorisation and global outreach
• IMP PAN team has been introduced by UT to different forms of cooperationbetween science and industry and other types of external stakeholders
• Active participation in eseia members network
• Invitation by the group of Mechanics of Solids, Surfaces and Systems fromUT to join two international consortia and submission of two H2020proposals
• Initial valorisation for KEZO research centre has been done and a draftdevelopment strategy has been prepared
• A conference abstract on introducing RES technologies to the market inPoland
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WP3 Knowledge implementation – Reaching Objectives
• Increase the research capacity of IMP PAN in the area of RES and smart energysystems planning, modelling, simulation and management through:
• Strenghtening the role of IMP PAN as the leading institution in Poland in the area ofRES and smart energy systems
• Cooperation with the Ministry of Energy in the area of micro-energy clusters
• National e-mobility programme (Ministry of Development, Ministry of Energy)
• Facility sharing agreements with 5 leading Polish universities and research institutions
• BIOSTRATEG project
• Winning national grants for team extention and infrastructure for smart energy systems
• Bilateral research cooperation agreements with enterprises, schools
• Goal to become a recognised Center of Excellence in clean technologies
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WP3 Knowledge implementation – Reaching Objectives
• Increase the research capacity of IMP PAN in the area of RES and smart energysystems planning, modelling, simulation and management through:
• Widening cooperation of IMP PAN with internationally leading institutions
• AAU and UT within the SuPREME project
• E.ON Energy Research Center RWTH Aachen
• CEA, France
• Internal knowledge transfer conducted by IMP PAN
• Internal trainings
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Key Preformance Indicators – research collaboration between project partners
• Research collaboration between project partners will be strengthenedthrough joint publications and research project preparation
• KPI: Number of conferences, and other events attended in the interest on the various topics covered by SuPREME
• 21 international conference papers;
• 29 conferences and 17 networking meetings attended
• KPI: Number of scientific publications in peer reviewed international journals
• 1 publication plus 8 under revision with project results;
• 1 citation
• KPI: Number of written proposals for H2020 projects and forms of other cooperation
• 10 project proposals submitted;
• 4 cooperation agreements signed and 5 expected
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1. Raising the research profile of IMP PAN within the country and abroad
• through staff exchanges and long-term collaborations, IMP-PAN’s scientists are exposed to new environments and levels of excellence, raising their research profiles and capacities
• participation in the summer schools, exchange visits - IMP PAN researchers had opportunity to get better/in depth knowledge in the field of smart energy systems and to have a clearer view of how is research conducted in well known scientific institutions
• new topics within the research of smart energy systems have been included at IMP PAN
• awareness raising of what a research institution needs to be in order to be an attractive partner for acknowledged scientific organisations, business entities and other stakeholders
• internally - IMP PAN researchers have defined/narrowed their individual research profiles and defined what they want to do in the field and are more aware of their strengths, goals etc.
• externally – vision how IMP PAN wants to be considered by external partners
• invitations to partcipate in other projects/consortia/proposals from institutions outside the consortium
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2. Raising the research excellence of IMP PAN in the chosen field of smart energy systems
• IMP PAN research team has captured the amount of ca. 1.362.380 EUR of competitivefunding in European and national projects related to the topic of SuPREME
• IMP PAN researchers attended and held presentations at 21 international thematicconferences
• Established research cooperation in the field with four industrial actors
• Growth in staff – 8 new researchers joined the SuPREME team
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3. A leap forward in terms of reputation, attractiveness and opening of newnetworks of IMP PAN as a result of the Twinning exercise
• New international research collaborations – CEA, France and E.ON Energy Research Center, Germany
• Five facility sharing agreements signed with top scientific institutions in Poland
• KEZO as recognised research centre by the Ministry of Energy, Ministry of Development, Mazovia Region and companies (PSE, ENERGA, NISSAN, TOYOTA, ORLEN, LOTOS…)
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• IMP PAN research team has captured the amount of ca. 1.362.380 EUR of competitivefunding in European and national projects related to the topic of SuPREME
• one of them was submitted in frame of the Polish strategic R&D programme BIOSTRATEG; IMPPAN is the coordinator; the total budget for IMP PAN is ca. 2.260.000 EUR, including ca. 588.640EUR for research works on energy planning and management system in rural areas
• national funding for restructuring of IMP PAN in order to enhance its research performance in thefield of distributed energy systems planning, design and management; total budget ca. 589.640EUR (for enlargement of the research group, equipment)
• COSME programme – project facilitating collaboration among European clusters in the field ofrenewable energy; total budget for IMP PAN is ca. 54.000 EUR, IMP PAN participates in the projectas the leader of Baltic-Eco Energy Cluster
• INTERREG South Baltic Programme – project increasing innovativeness of blue and green tourismcompanies by integrating elements of circular economy; total budget for IMP PAN is ca. 130.100EUR
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4. An improvement in terms of being able to attract more competitiveresearch funding (national/EU/international) by IMP PAN as a result of theTwinning exercise
• AAU, through PhD courses and summer school, have shared their knowledge and expertisein the energy systems analysis and simulation model EnergyPLAN regarding design,simulation and analysis of energy systems from a city scale perspective up to national andsupra-national energy systems, and in advanced electrical systems analysis and controlmethods. The supervisor from AAU participated in preparing of abstracts andpresentations for the 4DH conference. There has been also one joint abstract submittedfor RESRB conference
• UT has shared their knowledge in dedicated courses on ICT control and Smart Grids,transition management and legal issues, human technology systems, evaluation of energytechnologies and building collaboration in energy research. The supervisor from UTparticipated in preparing an abstract on the role of research institutes and user-centeredcooperation in renewable technologies for RESRB conference on
• eseia has contributed logistical infrastructure for knowledge transfer through connectingIMP PAN with RES stakeholders and research organisations through networking events,access to their membership base.
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5. Contribution of the non-Widening consortium beneficiaries, and theireffecting and optimising IMP PAN
6. The main measures applied during the implementation of the Action, whichhave significantly enhanced the expected impacts of the project
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• 38 long- and short term staff exchanges from IMP PAN to AAU and UT
• 15 experts visits from AAU
• 4 onsite trainings/workshops (UT)
• 10 participations in PhD courses at AAU and UT
• 29 conference abstratcs and presentations
• 17 networking meetings
• 3 summer schools
Thank You!Ewa Domke
Deputy Director for International Relations and Project Administration
Institute of Fluid Flow Machinery Polish Academy of Sciences
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