Simulation, Statistics and Experiments Coupled to develop Optimized aNd Durable µCHP systems using ACcelerated Tests.
Second act aims at improving understanding of stack degradation in order to propose solutions enabling significant lifetime improvements for µCHP systems using PEMFC or DMFC technology. Project will be thus founded and focused on two efforts: degradation understanding and durability improvement. These efforts will be oriented towards existing systems available in the project thanks to the involvement of three industry partners willing to enhance lifetime and hence competiveness for market deployment. Degradation investigations will be based on lifetime tests information from existing field tests on these systems for relevant description of failure modes and related performance degradation; from stack and cells specific degradation/durability tests including validated accelerated stress tests emphasizing specific degradation or failure modes in cells and stacks. Understanding will be ensured by using expertise of research groups in different techniques such as: advanced in-situ local measurements to identify heterogeneities and local performance degradation; ex-situ investigations of components to identify mechanisms; statistical analyses to identify the impact of failure modes and to relate causes to performace losses; and modelling to simulate local performance and degradation in unit cell and stack.
Durability improvement will be assessed thanks to the following methodology: exploitation of all degradation investigations for the proposal of components modifications; selection of most relevant solutions related to most critical degradation issues for their evaluation and demonstration of durability improvements; application of validated accelerated tests with improved components in unit cells or stacks tpo demonstrate improvement; and final achievement will be reached with the demonstration of significant measurable improvement at system level.
SP1-JTI-FCH.2013.3.1: Improving understanding of cell & stack degradation mechanisms using advanced testing techniques, and developments to achieve cost reduction and lifetime enhancements for Stationary Fuel Cell power and CHP systems
COMMISSARIAT A L’ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, France
Dr. Sylvie Escribano
Other participating organisations:
|EWII FUEL CELLS (formerly IRD FUEL CELLS)||DK|
|NEDSTACK FUEL CELL TECHNOLOGY BV||NL|
|ICI CALDAIE SPA||IT|
|POLITECNICO DI MILANO||IT|
|DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV||DE|
|JRC -JOINT RESEARCH CENTRE- EUROPEAN COMMISSION||BE|
|TECHNISCHE UNIVERSITAET GRAZ||AT|
- Project duration
- 1 May 2014 - 31 Oct 2017
- Project locations
- 75015 PARIS 15, France
- Overall budget
- €4 643 710
- EU contribution
- €2 523 25054.3% of the overall budget
- Project website