JÜLICH - Forschungszentrum Jülich GmbH
Forschungszentrum Jülich (Jülich) is one of Europe’s largest interdisciplinary research centres. Energy research at Jülich focuses on the most important aspects of the transformation of our future energy system. Based on fundamental research on materials and processes, components and technical systems are developed along the R&D value chain until innovations are ready to be handed over to industry. Jülich’s research is focused on applications such as: electronic and electrochemical materials and systems for use in amongst others batteries, fuel cells, electrolysis and gas separation membranes. Process engineering plays a key role in developing systems solutions for e.g. fuel cells and hydrogen technologies. Jülich’s energy research follows an integrative and interdisciplinary approach accompanied by a consistent energy systems analysis.
General information
| DE, Institute of Energy and Climate Research - Fundamental Electrochemistry (IEK-9) 52425 Jülich
Contacts
Activities in value chain
Projects involved in
| Project name | SubProject | Title | Country | Budget |
|---|---|---|---|---|
| ASSENT |
Sub project 1 |
Anode Sub-System Development & Optimisation for SOFC systems |
Finland | 4.651.850 € |
| DESTA |
Sub project 1 |
Demonstration of 1st European SOFC Truck APU |
Austria | 10.441.619 € |
| ELYGRID |
Sub project 1 |
Improvements to Integrate High Pressure Alkaline Electrolysers for Electricity/H2 production from Renewable Energies to Balance the Grid. |
Spain | 3.701.178 € |
| FC-EuroGrid |
Sub project 1 |
Evaluating the Performance of Fuel Cells in European Energy Supply Grids |
United Kingdom | 805.931 € |
| FCGEN |
Sub project 1 |
Fuel Cell Based Power Generation |
Slovenia | 9.309.998 € |
| INNO-SOFC |
Sub project 1 |
Development of innovative 50 kW SOFC system and related value chain |
Finland | 3.998.081 € |
| MEMPHYS |
Sub project 1 |
MEMbrane based Purification of HYdrogen System |
Germany | 2.088.195 € |
| MMLRC=SOFC |
Sub project 1 |
Working towards Mass Manufactured, Low Cost and Robust SOFC stacks |
United Kingdom | 4.727.248 € |
| PECSYS |
Sub project 1 |
Technology demonstration of large-scale photo-electrochemical system for solar hydrogen production |
Germany | 2.499.993 € |
| PROSOFC |
Sub project 1 |
Production and Reliability Oriented SOFC Cell and Stack Design |
Austria | 7.331.215 € |
| SCOTAS-SOFC |
Sub project 1 |
Sulphur, Carbon, and re-Oxidation Tolerant Anodes and Anode Supports for Solid Oxide Fuel Cells |
Denmark | 4.340.487 € |
| SElySOs |
Sub project 1 |
Development of new electrode materials and understanding of degradation mechanisms on Solid Oxide High Temperature Electrolysis Cells. |
Greece | 2.939.655 € |
| SOFC-Life |
Sub project 1 |
Solid Oxide Fuel Cells – Integrating Degradation Effects into Lifetime Prediction Models |
Germany | 5.649.854 € |
| TrainHy-Prof |
Sub project 1 |
Building Training Programmes for Young Professionals in the Hydrogen and Fuel Cell Field |
United Kingdom | 381.371 € |
| LOWCOST-IC |
Low Cost Interconnects with highly improved Contact Strength for SOC Applications |
Our events | 2.335.997 € |
Member Id: 858
This member datasheet was last updated on : 28.09.2020
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