Fuel cells and H 2 in transportation applications VTT Technical Research Centre of Finland Ltd.
This workhop is organized as a part of EU project Maranda Time Topic, presenter 12:30 Welcome and introduction to VTT s fuel cell research, Olli Himanen 12:50 Hydrogen fuel cells in transport applications, Thomas Tingelöf 13:10 Fuel cells in marine applications, Mikko Kajava 13:30 Power to Gas and SOFC for mobile applications, Olivier Thomann 13:50 Coffee break 14:20 Overview of Maranda project, Antti Pohjoranta 14:40 International requirements and approval of marine fuel cell applications, Minna Nissilä 15:00 Use of industrial site for fuel cell durability testing, Jari Ihonen 15:15 H 2 storage and transport using liquid organic hydrogen carriers, Päivi Aakko-Saksa 15:30 Production and use of low grade hydrogen for fuel cell telecom application, Pauli Koski 15:45 Automotive fuel cell grade hydrogen - requirements and cost issues, Jaana Viitakangas 16:00 Summary and discussion, Jari Ihonen 16:30 End of the workshop 2
Motivation to use fuel cells in transport applications Zero local emissions High efficiency >60% from fuel to electricity Low noise Low vibration Fast refilling 3
17 people VTT s Fuel cell solutions team 15+ years of active history in the field of fuel cells and hydrogen Mainly working with Finnish and European companies www.vttresearch.com/fuelcells 4
We are working with VTT s Fuel cell solutions team High temperature fuel cells (stationary CHP), natural gas and biogas as a fuel Low temperature fuel cells (transport, back-up, grid support applications), hydrogen as a fuel High temperature electrolysis, storage of electricity Hydrogen quality and cost reduction for transport applications Focus is moving from fuel cell technology development to fuel cell applications 5
Research example: Fuel cell bus Fuel cell hybridization of VTT s electric bus Replace the existing diesel generator based range extender with a commercial PEMFC system and road traffic approved high-pressure H 2 storage VTT is currently aiming to get a H 2 refilling station to Helsinki area If you are interested on fuel cell cars and busses, please contact us! 6
EU-funding EU/H2020 is a very good funding instrument for R&D and demonstration H2020 program s total volume 80 B, 1.3 B for fuel cells and hydrogen Good funding rates 100% of direct costs in R&D projects 70% of direct costs in demonstration projects Typical project volumes 2-30 M All partners have their own budgets, no money transfer from companies to research centres Partners from at least three countries, European value chains preferred VTT has lots of experience on H2020. Currently we are coordinating 6 EU-projects and participating in 15 Please contact us if interested on EU funding! 7
Research example: EU-project on high temperature fuel cells VTT is coordinating EU/H2020 project INNO-SOFC Design and manufacturing of a State of the Art 50 kw fuel cell system EU grant 4 M 09/10/2017 88
Program Time Topic, presenter 12:30 Welcome and introduction to VTT s fuel cell research, Olli Himanen 12:50 Hydrogen fuel cells in transport applications, Thomas Tingelöf 13:10 Fuel cells in marine application, Mikko Kajava 13:30 Hydrogen production and Power to Gas, Olivier Thomann 12:00 Coffee break 14:20 Overview of Maranda project, Antti Pohjoranta 14:40 International requirements and approval of marine fuel cell applications, Minna Nissilä 15:00 Use of industrial site for fuel cell durability testing, Jari Ihonen 15:15 H2 storage and transport using liquid organic hydrogen carriers, Päivi Aakko-Saksa 15:30 Production and use of low grade hydrigen for fuel cell telecom application, Pauli Koski 15:45 Automotive fuel cell grade hydrogen - requirements and cost issues, Jaana Viitakangas 16:00 Summary and discussion 9
Acknowledgements This project has received funding from the Fuel Cells and Hydrogen 2 Joint Undertaking under grant agreement No 735717. This Joint Undertaking receives support from the European Union s Horizon 2020 research and innovation programme and Hydrogen Europe and N.ERGHY 10