Tuesday, 15 March 2016 09:00 Arrival of Attendees 10:00 Welcome Address and Keynotes 10:00 Welcome Prof. Peter Droege, President of EUROSOLAR Hans‐Werner Reinhard, Managing Director Messe Düsseldorf Prof. Eike R. Weber, Chairman of ESE‐conference Prof. Dr. Dirk‐Uwe Sauer, Chairman of IRES‐conference 10:20 Strategiy Thoughts: Setting the industrial context and perspective on the storage industry Anil Srivastava, CEO, Leclanche SA 10:30 Welcome Address and Status Quo in NRW Johannes Remmel, Minister of the Environment in NRW 10:45 Welcome Address H.E. Marie Gervais‐Vidricaire, Ambassador of Canada to Germany 11:10 Questions and Answers 11:20 Coffee break and visit of the exhibition 12:00 Session 1: Regulatory Frameworks Dr. Klaus Peter Röttgen, President, EASE European Association for Storage of Energy (tbc) Dr. Florian Valentin, Partner, vbvh ‐ vonBredow Valentin Herz Dr. Martin Altrock, Partner, bbh, Becker Büttner Held Dr. Stefan Nykamp, Westnetz 13:00 Discussion 13:35 Lunch break and press conference 15:00 Session 2: Research and Science Prof. Dr. Dirk‐Uwe Sauer, ISEA RWTH Aachen, Germany Climate Change and Energy Storage: the Importance of Research for a Renewable World Dr. Jose Etcheverry, Assistant Professor, York University, Canada Energy storage in 100% Renewable Smart Energy Systems Prof. Brian Vad Mathiesen, Aalborg University, Aalborg, Denmark Questions and Answers 16:20 Coffee break and visit of the exhibition 17:00 Session: Global Projects Energy Storage changing the energy supply system: the end of the beginning Heiko Ross, Vice President Utilities & Grid Solutions, Leclanché SA Utility scaled applications for storage technologis: examples from Redox‐Flow‐Systems Bengt Stahlschmidt, Head of global Sales, Gildemeister Energystorage GE s hybrid power plant at Berlin Marienfelde ‐ sustainable energetic autarchy by integrating renewable and conventional power generation GE’s hybrid power plant at Berlin Marienfelde ‐ sustainable energetic autarchy by integrating renewable and conventional power generation Juan Villeda, BLS Energieplan GmbH / Michael Linek, Gepower Conversion GmbH Energy security with renewable energies ‐ taking the example of neW 4.0 Björn Spiegel, Head of Strategy and politics, ArGe Netz GmbH & Co. KG Questions and Answers 18:30 BVES Networking Reception Wednesday, 16 March 2016 Parallel Sessions 08:40 Room 26 (upstairs) Applications, Case Studies and Scenarios (A1) Room 27 (upstairs) Room 28 (upstairs) PV Home Storage (A2) Politics, Economics & Law (A3) Room 14 Batteries (A4) Moderator: Janne Kärki Moderator: Moderator: Philipp Blechinger Moderator: Verena Jülch The role, the potential and the benefits of various energy technologies will be discussed in this session. PV Home Storage Systems are rapid developing market. The session will discuss topologies, optimum sizing and field results of such systems. Legal barriers and tariffs are most relevant for the large‐ scale deployment of storage systems. We have specialist from industry, academia and law firms to discuss these hot topics. Latest developments in the area of battery technologies are presented in this session. Beside this we will have look to the ecological foot print and recycling options for batteries. 08:40 The Role of Energy Storage Solutions for a 100% Renewable Finnish Energy System Michael Child, Lappeenranta University of Technology, Finland Energy Autarky of Households by Sufficiency Measures Christian Brosig, Technische Hochschule Köln, Germany A Cross‐Sectoral Analysis of Climate Change Risk Drivers ‐ How the Energy Sector Compares to Other Sectors in Germany, Austria and Switzerland Markus Groth, Climate Service Center Germany (GERICS) ‐ Helmholtz‐Zentrum Geesthacht, Germany Recycling of Battery Technologies ‐ Ecological Impact Analysis Using Life Cycle Analysis Verena Jülch, Fraunhofer Institute for Solar Energy Systems ISE, Germany 09:00 India One 1 MWel Solar Thermal Power Plant for 24/7 Operation ‐ versus Photovoltaic Battery Systems Matthias Eichelbrönner, Hochschule Mannheim, Germany On the Influence of Electrity Demand Patterns, Battery Storage and PV System Design on PV Self‐Consumption Geert Litjens, Utrecht University, The Netherlands Legal Barriers for Storage Systems in Municipality Energy Supply An Advanced Bipolar Lead‐Acid Technology For Renewable Energy Applications Christiaan Beekhuis, Gridtential Energy Inc., USA 09:20 Investigation of the Economic Potential of a Hydrogen Production and Cogeneration (Electricity and Heat) System Benjamin Guinot, CEA‐Liten, France Optimization of PV Battery Systems Using Genetic Algorithms Dirk Magnor, RWTH Aachen University, Institute for Power Electronics and Electrical Drives (ISEA), Germany Electrification Planning with Focus on Hybrid Mini‐Grids ‐ A Comprehensive Planning Approach for the Global South Philipp Blechinger, Reiner Lemoine Institut gGmbH, Germany High‐Power Lithium‐Ion‐Technology for Improved Storage Solutions in Grid Appliactions Gerold Neumann, Liacon GmbH, Germany 09:40 The Most Promising Business Cases for P2X Deployment in Renewable Energy Systems Janne Kärki, VTT Technical Research Centre of Finland Ltd, Finland First year of smart metering with high time resolution‐ realistic autarky rates for households with PV Christoph Stegner, ZAE Bayern e. V., Germany Potential for Energy Storage in Latvian and Lithuanian Price Area in the Nord Pool Spot Karlis Baltputnis, Riga Technical University, Institute of Power Engineering, Latvia A Strategic Approach to Storage for 100% Renewable Energy Systems: Clean Energy Systems Need Clean Batteries Matthias Hermes, Aquion Energy, USA 10:00 Influence of Spatially Varying Costs on Structure and Operation on Energy Storage and Supply Facilities in a Local Energy System Andreas Bachmaier, Fraunhofer Institut for Solar Energy Systems ISE, Germany A Two Level Energy Management Architecture for Hybrid Photovoltaic‐Storage Systems Mansueto Rossi, University of Genoa, Italy A Scarcity‐Based Tariff for the 0.4 kV Distribution Grid Joachim Bagemihl, Alpiq AG, Switzerland Aqueous Polymer‐based Redox‐Flow Batteries Ulrich S. Schubert, Center for Energy and Environmental Chemistry Jena (CEEC Jena), Friedrich Schiller University Jena, Germany 10:30 Coffee Break 11:00 Parallel Sessions Room 26 (upstairs) Applications, Case Studies and Scenarios (B1) Room 27 (upstairs) PV Home Storage (B2) Moderator: Rico Wojanowksi Moderator: Kai‐Philipp Kairies Primary control energy is currently the most attractive market for storage systems. This session is dedicated to this most relevant market for storage system and different aspects will be discussed. PV Home Storage Systems have been supported by the German Government for three years within a market introduction program. The session will show some results and success as well as important questions such as efficiency definitions and energy management strategies. Room 28 (upstairs) Room 14 Decentralised Storage Solutions (B3) High‐Temperature TES for Electricity Production (B4) Storage systems are a key components in off‐grid applications such as autonomous micro grids or vehicles. The session also presents speakers from Japan and India to discuss these issues. A big advantage of thermal electricity generation is the option to use high temperature thermal energy storage to make the power generation dispatch‐able and time independent from the renewable source. The session will present the state of the art of high temperature storages and discuss examples Moderator: Dr. Hauer 11:00 A Large Scale Energy Storage Project for Providing Primary Control Reserve Rico Wojanowksi, Hochschule Darmstadt, Germany Scientific Evaluation of the German Funding Program for PV Battery Systems Kai‐Philipp Kairies, RWTH Aachen ISEA, Germany What is Stored, Why and How? Mental Models and Acceptance of Electrity Storage Technologies Barbara Sophie Zaunbrecher, Human‐Computer Interaction Center, RWTH Aachen University, Germany Operational Results of a Combined Thermal Energy Storage with Electricity Generation System Günter Schneider, STORASOL GmbH, Germany 11:20 Cost‐Benefit Analysis of Batteries for Voltage Compliance in Distribution Grids with High Distributed Generation Basem Idlbi, Fraunhofer IWES, Germany Development of the German Storage Market after the Expiration of the first Support Scheme by the Federal Ministry for Economic Affairs and Energy (BMWI) Martin Rothert, BSW‐Solar Chairman Working Group Storage, Germany Battery and Fuel Cell Electric Vehicles in the Energy System of German Communities Markus F. Felgenhauer, TU Munich / Stanford University / BMW Group, Germany Thermal Energy Storage in Molten Salts: Overview of Novel Concepts and the DLR Test Facility (TESIS) Nils Breidenbach, German Aerospace Center (DLR), Germany 11:40 Exploiting all Degrees of Freedom within Regulation to Optimally Provide Primary Control Reserve with Battery Systems Raphael Hollinger, Fraunhofer Institute for Solar Energy Systems ISE, Germany EU Efficiency Measurement for Storage Systems ‐ Theory and Practice Andreas Piepenbrink, E3DC GmbH, Germany Increase of Energy Efficiency and Profitability of Battery Storages in Complex, Self‐Sufficient Systems through Optimization Methods Klaus Nagl, OTH Regensburg ‐ FENES, Germany High‐Capacity Storage and Power Management for Industrial Cold Energy at ‐20 °C by Developing a Thermochemical Refrigeration Machine Kathrin Korhammer, Leuphana University Lüneburg, Faculty of Sustainability, Germany 12:00 Model‐Based Economic Assessment of Stationary Battery Systems Providing Primary Control Reserve Johannes Fleer, Forschungszentrum Jülich, IEK‐STE, Germany Potential and Optimal Sizing of Combined Heat and Electrical Storage in Private Households Evaluation of Electric Vehicle with Fast Charging Capacity in Medium‐Voltage and Low‐Voltage Distribution Networks Using Rooftop PV Hideharu Sugihara, Osaka University, Japan Kinectic Investigation of the Reaction Cycle CuO/Cu2O for the Thermochemical Energy Storage 12:20 Combining Primary Frequency Control and Renewable Power Leveling in Energy Storage Systems Stefan Henninger, University of Erlangen‐Nuremberg, Chair of Electrical Energy Systems, Germany Lithium‐based vs. Vanadium Redox Flow Batteries ‐ A Comparison for Home Storage Systems Sebastian König & Martin Uhrig, KIT, Germany Modelling and Simulation of PV Battery in an Autonomous Microgrid in India Ammu Susanne Jacob, IIT Bombay, India Moving Bed Heat Exchangers for High Temperature‐TES Application ‐ Continuous Model Approach and Experimental Comparison Philipp Bartsch, Institute of Engineering Thermodynamics, German Aerospace Center, Germany 12:50 Lunch Break 14:00 Parallel Sessions Room 26 (upstairs) ( p ) Room 27 (upstairs) ( p ) Room 28 (upstairs) ( p ) Room 14 Applications, Case Studies and Scenarios (C1) Moderator: Renata Varfolomejeva Flexibility Options (C2) Moderator: Prof. Dr. Stadler Large Scale Storage (C3) Moderator: Dr. Smolinka TES in Buildings (C4) Moderator: Peter Schossig Hydropower and batteries are the technologies, which are mature and in commercial operation today. Example and view‐points from France, Finland, Brazil and Latvia will be discussed in this session. Finally an energy system with high shares of renewable requires flexibility for balancing the energy system. Conventional power plants, biogas power plants or heat pumps as a measure of demand side management are presented as interesting flexibility options. Gas, thermal and compressed air energy storage systems are technologies with a potential für large scale storage systems. The session will discuss technology and applications of these technologies. The building energy demand still accounts for more than one third to the EU. Thermal energy storage in buildings can help to increase the share of renewable energy sources serving this demand as well as help to reduce peak power using demand side management. Different technologies for this purpose will be presented. 14:00 Li‐ion Energy Storage in Island‐ and Microgrids: Which Value for How Much Storage? Michael Lippert & Jesus Lugaro, SAFT, France Geological Energy Storage: Implications of the Heat or Gas Storage in the Subsurface Sebastian Bauer, Institute of Geosciences, Christian‐ Albrechts‐University Kiel, Germany Top‐down and Bottom‐up Analysis of the Economics of Thermal Energy Storages Christoph Rathgeber, ZAE Bayern, Germany 14:20 The Impact of Cost Dynamics of Lithium‐Ion Batteries on the Economics of Hybrid PV‐Battery‐Gas Turbine Plants and the Consequences for Competitiveness of Coal and Natural Gas‐ Fired Power Plants Svetlana Afanasyeva, Lappeenranta University of Technology, Finland Hydropower and Power‐to‐Gas Storage Options: The Brazilian Energy System Options Larissa de Souza Noel Simas Barbosa, VTT /Technical Research Centre of Finland) / USP (University of Sao Paulo), Brazil Decision‐Making in the Development of Small Hydropower Plants Considering Energy Storage Capacity Renata Varfolomejeva, Riga Technical University, Institute of Power Engineering, Latvia Perspectives for an Intelligent Flexibilisation of the Energy System by Cross‐Sectoral Use of Power‐to‐X in the Case of North Rhine‐Westphalia Johannes Schaffert & Klaus Görner, Gas‐ und Wärme‐ Institut Essen e.V., Germany Comparison of Centralized Market‐Based Dispatch of Flexibility Options at Distribution Network Level with Regional Balancing Strategies in the German Power System Matthias Koch, Öko‐Institut e.V., Germany The Potential of North African CSP to Reduce Storage Needs in a Highly Renewable European Power System Lueder von Bremen, University Oldenburg, ForWind, Center for Wind Energy Research, Germany Demonstration of a Real‐scale Hardware‐in‐the‐loop Seasonal Solar Sorption Storage System Georg Engel, AEE ‐ Institute for Sustainable Technologies, Austria Hydrogen/Oxygen Fuelled Flexible Green Power Plant Joshua Partheepan, West Texas A&M University, USA Intelligent Thermal Energy Storage as Switchable Loads for Grid Stress Reduction Peter Hennemann, ZAE Bayern, Germany Characterisation and Enhancement of Phase Change Slurries Sophia Niedermaier, Fraunhofer Institute for Solar Energy Systems, Germany Improve Flexibility for Heat Pumps in Smart‐Grids by the Integration of a Thermal Storage System Philipp Schütz, Lucerne University of Applied Sciences and Arts, Switzerland High‐Density, Portable, Thermomechanical CAES: Three Business Cases Richard Boudreault, Sigma Energy Storage Inc, Canada Quasi‐Stationary Modelling of Melting and Solidification Inside a Latent Heat Storage System Felix Eckl, Lucerne University of Applied Sciences and Arts, Switzerland 14:40 15:00 15:30 Coffee Break Postersession (Wintergarten) 16:00 18:45 Networking Dinner Thursday, 17 March 2016 Parallel Sessions 08:40 Room 26 (upstairs) Applications, Case Studies and Scenarios (D1) Room 27 (upstairs) Room 28 (upstairs) TES for Efficiency Increase in Industry (D2) Power‐to‐Gas / Power to Liquids (D3) Room 14 Netze & Speicher Moderator: Caroline Möller Moderator: Dr. Van Helden Moderator: Dr. Smolinka Begrüßung: Irm Scheer‐Pontenagel How much storage capacity is required in the future and how can the energy system evolve from todays' power plant mix towards a sustainable future energy supply system? Follow presentations on technologies and scenario calculations. Storages for process heat in industry can help to increase the so far minor use of renewable energies in industrial production processes as well as secure the security of supply. Several examples for different technologies to store heat at an industrial scale and temperature will be presented. d Power‐to‐gas technology is known as the most likely long‐ term and seasonal storage technology. Within this session business cases and technologies are presented as well as efficiency data from a field installation. Prospective Integration of Renewable Energies with High Capacities Using Combined Heat and Power Plants (CHP) with Thermal Storages Tim Schmidla, Technische Hochschule Köln, Germany Battery Energy Storage in Europe´s New Energy Regulatory Framework: Overcoming Barriers and Creating Opportunities Alfons Westgeest, EUROBAT, Belgium Dual‐media High Temperature Thermal Energy Storage for Industrial Waste Heat Recovery Richard Gurtner, ZAE Bayern, Germany Business Case Analysis for Power‐to‐Gas in California Joshua Eichmann, National Renewable Energy Laboratory, USA Die englischsprachigen und überwiegend technischen Vorträge zum Thema Energiespeicherung werden am 17. März mit einer Reihe deutschsprachiger Vorträge ergänzt. Dabei sollen die Potenziale von Speichern thematisiert und die Hürden dieser Technologien in Deutschland diskutiert werden. Experten präsentieren ihre Einschätzungen der bisherigen und zukünftigen Entwicklung von h d b h d k f kl Speichern aufgrund ihrer Erfahrungen in Expertengruppen, Verbänden, Stadtwerken und Ministerien. Transient simulation and comparison of different thermal energy storage systems for energy intensive industrial applications Impulsvortrag Stephan Grüger, MdL, EUROSOLAR e.V. 09:20 RESTORE 2050 – Recommendations for the Integration of Renewable Energy and Storage viewed from a European Perspective Thomas Vogt, NEXT ENERGY ‐ EWE Research Centre for Energy Technology, Germany High Temperature Latent Heat Storage with Direct Electrical Charging ‐ Second Generation Design Ulrich Nepustil, University of applied Sciences Esslingen, Germany Automatic Operation of a Power‐to‐Gas Plant Based on Simulated Timetables in Scenarios with High Shares of Renewable Power and the Development of Smart Gas Grid Injection Concept Ulrich Zuberbühler, Zentrum für Sonnenenergie‐ und Wasserstoff‐Forschung, Germany Necessity and Impact of Windgas on Energy Transition in Germany Martin Thema, OTH Regensburg, Germany 09:40 Storage Demand in Interconnected Central and Residential Electrity Systems Caroline Möller, Hochschule Osnabrück, University of Applied Sciences, Germany Mixed Salts in Thermochemical Heat Storage Mona‐Maria Druske, Leuphana University Lüneburg, Germany INGRID Project: High‐capacity Hydrogen‐Based Green‐ Energy Storage Solutions for Grid Balacing Aurelio Diaz de Arcaya Lana, Tecnalia Research & Innovation Foundation, Spain Netzintegration für die Flexibilisierung des (europäischen) Energiemarktes Markus Merkel, EWE NETZ GmbH 10:00 An Adaptive Hybrid‐Energy‐Source Home Water Heating Unit Jalal Baghdadchi, Alfred University, USA Standard Procedure for PCM Characterization via DSC and Online Database for High Quality PCM‐Data Stefan Gschwander, Fraunhofer Institut für Solare Energiesysteme, Germany Conceptual Design and Economic Assessment of CO2 Methanation Process Mihaela‐Ramona Buga and Mihai Balan, ICSI ‐ Rm. Valcea, Romania Die Rolle von Speichern für die Energiewende in Deutschland: Eine Einschätzung des BMWi Dr. Ralf Sitte, BMWi 08:40 09:00 Energiespeicher ‐ was zu tun ist: Rahmenbedingungen für eine erfolgreiche Energiewende mit Speichern Prof. Dr. Michael Sterner, OTH Regensburg Diskussion 10:30 Coffee Break 11:00 Stadtwerke und Speicher Postersession Impulsvortrag Hans‐Josef Fell, Energy Watch Group Dezentral gesammelt, zentral gespeichert: Perspektiven der Quartiersspeicherung Dr. Holger Krawinkel, MVV Energie Verkehr und Erneuerbare Energien: Die Rolle von Stadtwerken für mehr Elektromobilität Dr. Christian Becker, Vorstand der Stadtwerke Aachen Aktiengesellschaft STAWAG (angefragt) Diskussion 12:30 14:00 Lunch Break Parallel Sessions Room 26 (upstairs) Applications, Case Studies and Scenarios (E1) Room 27 (upstairs) Large Scale Storage (E2) Room 28 (upstairs) Power‐to‐Gas / Power to Liquids (E3) Room 14 Speicher für die Energiewende Moderator: Marco Merlo Moderator: Prof. Dr. Stadler Moderator: Dr. Smolinka A large number of distributed storage systems can act as a large scale storage system. Potentials, control and placement of such distributed storage systems are discussed based on the experience from four different countries. Environment assessment of storage technologies are discussed together with more unusual technologies such as molten metal storage or carbon sources for bio fuel production in power‐to‐liquids processes. Power to liquids means one step beyond power to gas. Liquids are easier to handle compared with gas. This session will discuss applications, production processes and business cases for the power‐to‐liquid technology. Für die erfolgreiche Energiewende in Deutschland ist die Einführung von Speichern unabdingbar. Diese Session präsentiert die aktuellen Entwicklungen und reflektiert den Fortschritt von Speichertechnologien in den letzten zehn Jahren. 14:00 SWARM – Successful Provision of Frequency Containment Reserve with Distibuted Energy Storage Systems Claudia Leepa, N‐ENERGIE Aktiengesellschaft, Germany p , g , y Molten Metal Storage ‐ Large‐Scale Energy Storage for the Integration of Renewable Energies Florian Klumpp, FICHTNER GmbH & Co. KG, Germany pp, , y Green Hydrogen Supply for the Power and Mobility Sectors Jan Michalski, Ludwig‐Bölkow‐Systemtechnik GmbH, , g y , Germany Energiewende quo vadis ‐ Herausforderungen aktiv aufgreifen Univ. Prof. Dr. Manfred Fischedick, Wuppertal Institut für Klima, Umwelt, Energie GmbH , g 14:20 Distributed Storage for Provision of Ancillary Services to the Main Grid: Project PRESTO Marco Merlo, Politecnico di Milano, Italy Techno‐Economic and Environmental Assessment of Energy Storage Technologies for Different Storage Time Scales Andreas Abdon, University of Lucerne, Switzerland Techno‐Economic Assessment of Power‐to‐Liquids (PtL) Fuels Production and Global Trading Based on Hybrid PV‐ Wind Power Plants Mahdi Fasihi, Lappeenranta University of Technology, Finland Speicher als Rückgrat der erfolgreichen Energiewende: Die Rolle kommunaler Unternehmen als Nutzer und Förderer Michael Wübbels, Verband Kommunaler Unternehmen (VKU) 14:40 Hybrid Approaches for Municipal Future Energy‐Grids Thomas Kienberger, Montanuniversitaet Leoben / Chair of Energy Network Technology, Austria Sustainable Carbon Sources for Biofuel Production Hannu Karjunen, Lappeenranta University of Technology, Finland 10 Jahre IRES: Die Vielseitigkeit von Speichern als Reflektion und Ausblick Dieter Attig, Energieregion Kassel 15:00 Optimal Storage Placement in Power Network to Enhance Network Reliability Debarati Bhaumik, CWI, The Netherlands Power and Biomass‐to‐Liquid (PBtL): A New Promising Approach to Produce Precious Second Generation Biofuels Ralph‐Uwe Dietrich, German Aerospace Center (DLR), Germany Closing Energy Cycle: Power‐to‐Methanol and Methanol‐ to‐Power Francisco Vidal Vasquez, VTT Technical Research Centre of Finland Ltd, Finland 16:00 Summary of the conference Coffee Break Conclusion of IRES‐Sessions with focus on Research and Policy and Poster Award Ceremony Conclusion of ESE‐Sessions with focus on Business and Finance 11:20 Düsseldorf Declaration 16:45 Closing of the conference The organizers remain the right to change the conference program should circumstances require. Diskussion
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