Parallel session 1
13:50 – 15:40
Session 1A: Lithium Ion Cells: Materials and Improvements on Properties
Location: Congress-Hall
Session chairs: Dr. Volker Hennige // Dr. Peter Pilgram
13:50 | Pure Silicon based Li-Ion-Cell with innovative 3D-Electrodes and porous cell architecture for Pre-Lithiation and Formation of a stacked Multilayer Cell | Dr. Peter Axmann | Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) |
14:20 | Influence of Nickel Content on the Electrochemical Performance and Safety of Ni-Rich Cathode Materials Synthesized by Couette–Taylor Flow Reactor | Dr.-Ing. Vassilios Siozios | MEET - Münster Electrochemical Energy Technology, WWU Münster |
14:40 | Composite electroforming as a production process for novel, structured and additive-free electrodes for Li-Ion-batteries | Joanna Komorowska | Aalen University |
15:00 | Stabilizing Capacity Retention in NMC811/Graphite Full Cells via TMSPi Electrolyte Additives | Dr. Ruben-Simon Kühnel | Empa |
15:20 | New flexible and cost efficient bipolar battery concept for Lithium and Nickel-Iron chemistry | Dr. Mareike Wolter | Fraunhofer-Institut für Keramische Technologien und Systeme IKTS |
24.3.2020 Session 1A 13:50 Uhr Dr. Peter Axmann Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) Pure Silicon based Li-Ion-Cell with innovative 3D-Electrodes and porous cell architecture for Pre-Lithiation and Formation of a stacked Multilayer Cell |
24.03.2020 Session 1A 14:20 Uhr Dr.-Ing. Vassilios Siozios MEET - Münster Electrochemical Energy Technology, WWU Münster Influence of Nickel Content on the Electrochemical Performance and Safety of Ni-Rich Cathode Materials Synthesized by Couette–Taylor Flow Reactor |
24.03.2020 Session 1A 14:40 Uhr Joanna Komorowska Aalen University Composite electroforming as a production process for novel, structured and additive-free electrodes for Li-Ion-batteries |
24.03.2020 Session 1A 15:00 Uhr Dr. Ruben-Simon Kühnel Empa Stabilizing Capacity Retention in NMC811/Graphite Full Cells via TMSPi Electrolyte Additives |
24.03.2020 Session 1A 15:20 Uhr Dr. Mareike Wolter Fraunhofer-Institut für Keramische Technologien und Systeme IKTS New flexible and cost efficient bipolar battery concept for Lithium and Nickel-Iron chemistry |
13:50 – 15:40
Session 1B: Battery Systems
Location: Roter Saal
Session chairs: Dr. Margret Wohlfahrt-Mehrens // Dr. Peter Weirich
13:50 | Statistical methodology for evaluating capacity degradation and lifetime of batteries based on aging tests | Prof. Dr. Maria Kateri | RWTH Aachen University |
14:20 | Predicting the onset of rapid battery degradation using data-drive approaches | Sam Greenbank | University of Oxford |
14:40 | Battery Cloud: Data-Powered Intelligent Battery Management for Mobile and Stationary Battery Systems | M. Sc. Weihan Li | Institut für Stromrichter und elektrische Antriebe (ISEA), RWTH Aachen |
15:00 | Accelerating Science – Software based Data Evaluation and Organisation | Dr. Markus Hagen | Fraunhofer ICT |
15:20 | Different Methods for Physically Motivated Parameterization of High Power Lithium-Ion Battery Cells over | Stephan Bihn | RWTH Aachen University |
24.03.2020 Session 1B 13:50 Uhr Prof. Dr. Maria Kateri RWTH Aachen University Statistical methodology for evaluating capacity degradation and lifetime of batteries based on aging tests |
24.03.2020 Session 1B 14:20 Uhr Sam Greenbank University of Oxford Predicting the onset of rapid battery degradation using data-drive approaches |
24.03.2020 Session 1B 14:40 Uhr M. Sc. Weihan Li Institut für Stromrichter und elektrische Antriebe (ISEA), RWTH Aachen Battery Cloud: Data-Powered Intelligent Battery Management for Mobile and Stationary Battery Systems |
24.03.2020 Session 1B 15:00 Uhr Dr. Markus Hagen Fraunhofer ICT Accelerating Science – Software based Data Evaluation and Organisation |
24/03/2020 Session 1B 15:20 Uhr Stephan Bihn RWTH Aachen University Different Methods for Physically Motivated Parameterization of High Power Lithium-Ion Battery Cells over |
13:50 – 15:40
Session 1C: Automotive and Mobile Applications
Location: Weisser Saal
Session chairs: Prof. Dr. Hans-Georg Schweiger // Dr.-Ing. Eckhard Karden
13:50 | Quantification of lithium plating with a validated physicochemical model | Prof. Dr. Wolfgang Bessler | Hochschule Offenburg |
14:20 | First and second degassing of automotive Lithium-Ion batteries at overtemperature experiments | Dipl.-Ing. Christiane Essl | Virtual Vehicle Research GmbH |
14:40 | The Cell Cooling Coefficient: A Standard to Define Heat Rejection from Lithium-Ion Batteries | Dr. Alastair Hales | Imperial College London |
15:00 | Charging Station Deployment and Usage in Germany and around the World | Christopher Olk | Institut für Stromrichtertechnik und Elektrische Antriebe, RWTH Aachen |
15:20 | Advanced cycle analysis as an integral part of the damage estimation of lithium-ion batteries in real vehicle applications | Dipl.-Ing. Lutz Morawietz | Institute of Automotive Mechatronics GmbH |
24.03.2020 Session 1C 13:50 Uhr Prof. Dr. Wolfgang Bessler Hochschule Offenburg Quantification of lithium plating with a validated physicochemical model |
24.03.2020 Session 1C 14:20 Uhr Dipl.-Ing. Christiane Essl Virtual Vehicle Research GmbH First and second degassing of automotive Lithium-Ion batteries at overtemperature experiments |
24.03.2020 Session 1C 14:40 Uhr Dr. Alastair Hales Imperial College London The Cell Cooling Coefficient: A Standard to Define Heat Rejection from Lithium-Ion Batteries |
24.03.2020 Session 1C 15:00 Uhr Christopher Olk Institut für Stromrichtertechnik und Elektrische Antriebe, RWTH Aachen Charging Station Deployment and Usage in Germany and around the World |
24.03.2020 Session 1C 15:20 Uhr Dipl.-Ing. Lutz Morawietz Institute of Automotive Mechatronics GmbH Advanced cycle analysis as an integral part of the damage estimation of lithium-ion batteries in real vehicle applications |
15:40 – 16:30
Parallel session 2
16:30 – 18:00
Session 2A: Lithium Ion Cells: Materials and Improvements on Properties
Location: Congress-Hall
Session chairs: Prof. Dr. Petr Novák // Prof. Egbert Figgemeier
16:30 | GD-OES Depth Profiling – A valuable new Technique to Study Aging Effects in Li-ion Cells | Dr.rer.nat. Thomas Waldmann | Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) |
17:00 | Optimization of Electrode Processing and Electrochemical Performance of LiFePO4 Based Electrodes for Stationary Energy Storage Applications | Anna Weichert | MEET Battery Research Center |
17:20 | Designer Electrolyte Additive Enabled High-Performance NMC622/Silicon-Graphite Pouch Cells | Dr. Gebrekidan Gebresilassie Eshetu | RWTH |
17:40 | Investigation of the influence of varying structure and material parameters on the effective thermal conductivity of porous electrodes | Dieter Oehler | Karlsruhe Institute of Technology (KIT) |
24.03.2020 Session 2A 16:30 Uhr Dr.rer.nat. Thomas Waldmann Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) GD-OES Depth Profiling – A valuable new Technique to Study Aging Effects in Li-ion Cells |
24.03.2020 Session 2A 17:00 Uhr Anna Weichert MEET Battery Research Center Optimization of Electrode Processing and Electrochemical Performance of LiFePO4 Based Electrodes for Stationary Energy Storage Applications |
24.03.2020 Session 2A 17:20 Uhr Dr. Gebrekidan Gebresilassie Eshetu RWTH Designer Electrolyte Additive Enabled High-Performance NMC622/Silicon-Graphite Pouch Cells |
24.03.2020 Session 2A 17:40 Uhr Dieter Oehler Karlsruhe Institute of Technology (KIT) Investigation of the influence of varying structure and material parameters on the effective thermal conductivity of porous electrodes |
16:30 – 18:00
Session 2B: Industry Session
Location: Roter Saal
Session chairs: Armin Warm // Dr. Thomas Hülshorst
16:30 | Batteries in A 48V system – requirements and challenges | Bastian Hartmann | Ford |
17:00 | 48V batteries, technical solutions to meet OEM requirements | Dr. Michael Stapelbroek | FEV Europe GmbH |
17:20 | 48V cell and pack development – the supplier view | Christoph Fehrenbacher | A123 |
24.03.2020 Session 2B 16:30 Uhr Bastian Hartmann Ford Batteries in A 48V system – requirements and challenges |
24.03.2020 Session 2B 17:00 Uhr Dr. Michael Stapelbroek FEV Europe GmbH 48V batteries, technical solutions to meet OEM requirements |
24.03.2020 Session 2B 17:20 Uhr Christoph Fehrenbacher A123 48V cell and pack development – the supplier view |
16:30 – 18:00
Session 2C: Stationary Battery Systems and Markets
Location: Weisser Saal
Session chairs: Prof. Dr.-Ing. Andreas Jossen // Dr. Alexander Warnecke
16:30 | Extended warranty for battery systems: forging a probabilistic view on battery degradation | Prof. Dr.-Ing. habil. Harry Hoster | Lancaster University |
17:00 | Technical Analysis of Peak Shaving and Load Smoothing in a Distribution Grid with Battery Energy Storage Systems | M.Sc. Daniel Kucevic | Technical University of Munich |
17:20 | Techno-Economic Optimization of Residential and Industry Scale Battery Storage Systems in a Sector Coupling Environment. | Dr. Holger Hesse | Technische Universität München |
17:40 | Ageing of PV Home Storage Systems based on High-Resolution Field Measurements | M.Sc. Jan Figgener | ISEA, RWTH Aachen University |
24.03.2020 Session 2C 16:30 Uhr Prof. Dr.-Ing. habil. Harry Hoster Lancaster University Extended warranty for battery systems: forging a probabilistic view on battery degradation |
24.03.2020 Session 2C 17:00 Uhr M.Sc. Daniel Kucevic Technical University of Munich Technical Analysis of Peak Shaving and Load Smoothing in a Distribution Grid with Battery Energy Storage Systems |
24.03.2020 Session 2C 17:20 Uhr Dr. Holger Hesse Technische Universität München Techno-Economic Optimization of Residential and Industry Scale Battery Storage Systems in a Sector Coupling Environment. |
24.03.2020 Session 2C 17:40 Uhr M.Sc. Jan Figgener ISEA, RWTH Aachen University Ageing of PV Home Storage Systems based on High-Resolution Field Measurements |
18:00
End of the first day
19:30 – 22:30
Evening event
Poster Award Ceremony
The poster award presentation is one of the traditional highlights of the conference „Advanced Battery Power“. This year poster prices of 1000.- €, 750.- € and 500.- € are awarded for the best three scientific posters and donated by Volkswagen AG, ISE – International Society of Electrochemistry and Haus der Technik.
Day 2 // March 25, 2020
09:00 – 09:35
Plenary talk 4
Research needs for a sustainable EV Li-Battery Recycling
Prof. Dr. Bernd Friedrich, IME, RWTH Aachen
09:35 – 10:10
Plenary talk 5
From materials research to sensing approaches for better batteries
Prof. Dr. Jean-Marie Tarascon, College de France
10:10 – 10:45
Plenary talk 6
Advanced next generation lithium battery and beyond
Dr. Khalil Amine, Argonne National Laboratory
10:45 – 11:20
Plenary talk 7
Development of electrolyte for lithium ion battery
Iwao Soga, Mitsubishi Chemical Corporation
11:20 – 13:00
Parallel session 3
13:00 – 14:50
Session 3A: Beyond and Beside Lithium Ion Technology
Location: Congress-Hall
Session chairs: Prof. Dr. Kristina Edström // Prof. Dr. Jürgen Janek
13:00 | Solvent-Free Preparation Of Sulfide Electrolyte Based Solid-State Batteries | Dr. Felix Hippauf | Fraunhofer Institute for Material and Beam Technology |
13:30 | Prospects of all-solid-state sodium batteries operated at room temperature | Laura Goodwin | Justus-Liebig-Universität Gießen |
13:50 | Comparing Lithiation and Sodiation of a Hard Carbon Anode Using In Situ Impedance Spectroscopy | Fabian Linsenmann | Technische Universität München |
14:10 | Origin of Capacity Fade of pure layered P2-NaxMnyNi1-yO2 Cathode Materials with Controlled Particle Architecture | M.Sc. Lukas Schick | Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) |
14:30 | Solid-State Lithium-Sulfur Battery enabled by Polymer-In-Ceramic Composite Electrolytes | Meirong Li | University Münster |
25.03.2020 Session 3A 13:00 Uhr Dr. Felix Hippauf Fraunhofer Institute for Material and Beam Technology Solvent-Free Preparation Of Sulfide Electrolyte Based Solid-State Batteries |
25.03.2020 Session 3A 13:30 Uhr Laura Goodwin Justus-Liebig-Universität Gießen Prospects of all-solid-state sodium batteries operated at room temperature |
25.03.2020 Session 3A 13:50 Uhr Fabian Linsenmann Technische Universität München Comparing Lithiation and Sodiation of a Hard Carbon Anode Using In Situ Impedance Spectroscopy |
25.03.2020 Session 3A 14:10 Uhr M.Sc. Lukas Schick Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) Origin of Capacity Fade of pure layered P2-NaxMnyNi1-yO2 Cathode Materials with Controlled Particle Architecture |
25.03.2020 Session 3A 14:30 Uhr Meirong Li University Münster Solid-State Lithium-Sulfur Battery enabled by Polymer-In-Ceramic Composite Electrolytes |
13:00 – 14:50
Session 3B: Production, 2nd Life and Recycling of Battery Systems and Cells
Location: Roter Saal
Session chairs: Prof. Dr. Jens Tübke // Prof. Dr. Bernd Friedrich
13:00 | Fully continuous processing of LIB electrode slurries: a highly versatile and cost-effective manufacturing method | Dr. Philipp Stoessel | Bühler AG |
13:30 | Potentials towards efficient recycling of valuable metals from spent Li ion batteries | Dr. Elsayed Mousa | Swerim AB |
13:50 | Microstructural defects in Li-ion batteries and their detection with imaging techniques as a tool for process development and quality evaluation | Andreas Kopp | Hochschule Aalen |
14:10 | A Joining Aspect in the Battery Production – Ultrasonic Welding of Thin Metal Sheets | Houssin Wehbe | TU Braunschweig, Institut für Füge- und Schweißtechnik |
14:30 | Cyber-physical system based data mining in battery production for multi-criterial quality prediction | Artem Turetskyy | TU Braunschweig, Institut für Werkzeugmaschinen und Fertigungstechnik |
25.03.2020 Session 3B 13:00 Uhr Dr. Philipp Stoessel Bühler AG Fully continuous processing of LIB electrode slurries: a highly versatile and cost-effective manufacturing method |
25.03.2020 Session 3B 13:30 Uhr Dr. Elsayed Mousa Swerim AB Potentials towards efficient recycling of valuable metals from spent Li ion batteries |
25.03.2020 Session 3B 13:50 Uhr Andreas Kopp Hochschule Aalen Microstructural defects in Li-ion batteries and their detection with imaging techniques as a tool for process development and quality evaluation |
25.03.2020 Session 3B 14:10 Uhr Houssin Wehbe TU Braunschweig, Institut für Füge- und Schweißtechnik A Joining Aspect in the Battery Production – Ultrasonic Welding of Thin Metal Sheets |
25.03.2020 Session 3B 14:30 Uhr Artem Turetskyy TU Braunschweig, Institut für Werkzeugmaschinen und Fertigungstechnik Cyber-physical system based data mining in battery production for multi-criterial quality prediction |
13:00 – 14:50
Session 3C: Battery Systems
Location: Weisser Saal
Session chairs: Dr. Eberhard Meissner // Prof. Dr.-Ing. Kai-Peter Birke
13:00 | Controlling module pressure evolution over lifetime with buffer layers: Design guidelines, prediction and validation for automotive systems | Severin Hahn | Daimler AG |
13:30 | Thermal runaway initiation and propagation in commercial automotive lithium-ion cells and modules | Andreas Podias | European Commission |
13:50 | Dynamic Electrochemical Impedance Spectroscopy as a versatile tool for battery characterization and diagnosis | Hendrik Zappen | ISEA RWTH Aachen / Safion GmbH |
14:10 | Mixed Ageing Modelling of Lithium Ion Batteries | M. Sc. Felix Hildenbrand | RWTH Aachen University |
14:30 | (Dis-) Advantages of different system connections and the importance of cross-connectors in serial and parallel connected systems. | Markus Schindler | Technical University Munich |
25.03.2020 Session 3C 13:00 Uhr Severin Hahn Daimler AG Controlling module pressure evolution over lifetime with buffer layers: Design guidelines, prediction and validation for automotive systems |
25.03.2020 Session 3C 13:30 Uhr Andreas Podias European Commission Thermal runaway initiation and propagation in commercial automotive lithium-ion cells and modules |
25.03.2020 Session 3C 13:50 Uhr Hendrik Zappen ISEA RWTH Aachen / Safion GmbH Dynamic Electrochemical Impedance Spectroscopy as a versatile tool for battery characterization and diagnosis |
25.03.2020 Session 3C 14:10 Uhr M. Sc. Felix Hildenbrand RWTH Aachen University Mixed Ageing Modelling of Lithium Ion Batteries |
25.03.2020 Session 3C 14:30 Uhr Markus Schindler Technical University Munich (Dis-) Advantages of different system connections and the importance of cross-connectors in serial and parallel connected systems. |
14:50 – 15:40
Parallel session 4
15:40 – 17:30
Session 4A: Lithium Ion Cells: Materials and Improvements on Properties
Location: Congress-Hall
Session chairs: Dr. Gerhard Hörpel // Dr. Thomas Soczka-Guth
15:40 | Mechanical characterization of the cathode active layer in lithium-ion batteries | Priyank Gupta | KTH Royal Institute of Technology |
16:10 | Novel electrolyte with super high ionic conductivity for LIB | Dr. Naoki Matsuoka | Asahi Kasei Corporation |
16:30 | How to design better cells to improve performance and extend lifetime | Ryan Prosser | Imperial College London |
16:50 | Impact of the crystalline Li15Si4 phase on the self-discharge mechanism of silicon negative electrodes in organic electrolytes | Peer Bärmann | Münster Electrochemical Energy Technology |
17:10 | Energy density and lifetime limitations of layered oxides (LiMeO2, Me = Co, Ni, Mn) | Dr. Karin Kleiner | Westfälische Wilhelms-Universität |
25.03.2020 Session 4A 15:40 Uhr Priyank Gupta KTH Royal Institute of Technology Mechanical characterization of the cathode active layer in lithium-ion batteries |
25.03.2020 Session 4A 16:10 Uhr Dr. Naoki Matsuoka Asahi Kasei Corporation Novel electrolyte with super high ionic conductivity for LIB |
25.03.2020 Session 4A 16:30 Uhr Ryan Prosser Imperial College London How to design better cells to improve performance and extend lifetime |
25.03.2020 Session 4A 16:50 Uhr Peer Bärmann Münster Electrochemical Energy Technology Impact of the crystalline Li15Si4 phase on the self-discharge mechanism of silicon negative electrodes in organic electrolytes |
25.03.2020 Session 4A 17:10 Uhr Dr. Karin Kleiner Westfälische Wilhelms-Universität Energy density and lifetime limitations of layered oxides (LiMeO2, Me = Co, Ni, Mn) |
15:40 – 17:30
Session 4B: Production, 2nd Life and Recycling of Battery Systems and Cells
Location: Roter Saal
Session chairs: Dr. Sebastian Menne // Dr. Matthias Ullrich
15:40 | Formation - a critical production step for cell quality? | Dr. Philip Niehoff | MEET Batterieforschungszentrum, Universität Münster |
16:10 | Production Research as Key Factor for Successful Implementation of Battery Production in Germany on the Example of Up-Scaling Nickel-Rich NMCs Electrodes | Dr Miriam Keppeler | Zentrum für Sonnenenergie-und Wasserstoff- Forschung Baden-Württemberg (ZSW) |
16:30 | Quality assurance in lithium-ion battery manufacturing using X-ray computed tomography | Dr.-Ing Pascal Pinter | Volume Graphics GmbH |
16:50 | Extrusion-based Slot-die Coating of Electrodes for High-Capacity Li-Ion Batteries | Sebastian Reuber | Fraunhofer IKTS |
17:10 | At the pulse of electro mobility: Contacting battery cells using a nanosecond-pulsed laser welding process | Elie Haddad | Fraunhofer Institut für Lasertechnik |
25.03.2020 Session 4B 15:40 Uhr Dr. Philip Niehoff MEET Batterieforschungszentrum, Universität Münster Formation - a critical production step for cell quality? |
25.03.2020 Session 4B 16:10 Uhr Dr Miriam Keppeler Zentrum für Sonnenenergie-und Wasserstoff- Forschung Baden-Württemberg (ZSW) Production Research as Key Factor for Successful Implementation of Battery Production in Germany on the Example of Up-Scaling Nickel-Rich NMCs Electrodes |
25.03.2020 Session 4B 16:30 Uhr Dr.-Ing Pascal Pinter Volume Graphics GmbH Quality assurance in lithium-ion battery manufacturing using X-ray computed tomography |
25.03.2020 Session 4B 16:50 Uhr Sebastian Reuber Fraunhofer IKTS Extrusion-based Slot-die Coating of Electrodes for High-Capacity Li-Ion Batteries |
25.03.2020 Session 4B 17:10 Uhr Elie Haddad Fraunhofer Institut für Lasertechnik At the pulse of electro mobility: Contacting battery cells using a nanosecond-pulsed laser welding process |
15:40 – 17:30
Session 4C: Battery Systems
Location: Weißer Saal
Session chairs: Stefan Werkstetter // Prof. Dr. Peter H.L. Notten
15:40 | New Insights in gas pressure evolution in Lithium-Ion Batteries containing layered Ni-rich cathodes | Philipp Teichert | Volkwagen AG |
16:10 | Influence of path dependency on the state of health of Lithium-Ion batteries in electric vehicles | Trishna Raj | University of Oxford |
16:30 | Improved SOC and SOH estimators by considering the effect of rest periods analyzed with half-cell data | Mikel Arrinda | CIDETEC Energy Storage |
16:50 | Fast-charging in practice – a way to get it done! | Dr. Michael Schönleber | Batemo GmbH |
17:10 | New insights into the capacity fading mechanisms of lithium ion batteries - Investigation of transition metal oxidation states in electrolytes by means of capillary electrophoresis | Lenard Hanf | MEET Battery Research Center |
25.03.2020 Session 4C 15:40 Uhr Philipp Teichert Volkwagen AG New Insights in gas pressure evolution in Lithium-Ion Batteries containing layered Ni-rich cathodes |
25.03.2020 Session 4C 16:10 Uhr Trishna Raj University of Oxford Influence of path dependency on the state of health of Lithium-Ion batteries in electric vehicles |
25.03.2020 Session 4C 16:30 Uhr Mikel Arrinda CIDETEC Energy Storage Improved SOC and SOH estimators by considering the effect of rest periods analyzed with half-cell data |
25.03.2020 Session 4C 16:50 Uhr Dr. Michael Schönleber Batemo GmbH Fast-charging in practice – a way to get it done! |
25.03.2020 Session 4C 17:10 Uhr Lenard Hanf MEET Battery Research Center New insights into the capacity fading mechanisms of lithium ion batteries - Investigation of transition metal oxidation states in electrolytes by means of capillary electrophoresis |
17:30
End of conference
17:30
Guided Tour MEET Battery Research Center
for participants only
Following Batterietag NRW and Battery Conference the MEET Battery Research Centers offers you the possibility to visit the institute. As part of guided tour both laboratories and the 1000m² technical center can be visited. Getting from the convention center Halle Münsterland to MEET will be organized by bus. A maximum of 45 people can take part in the guided tours.
Address:
MEET – Münster Electrochemical Energy Technology
Corrensstraße 46, 48149 Münster
Start of the visit: 5:45 p.m.
Departure: 5:15 p.m. bus stop in front of the conference hall
End of the visit: 6:45 p.m. return to the conference hall by bus is possible
Visit duration: approximately 60 minutes