Overview
ABSTRACT
Among the technologies for CO2-free transportation, the fuel cell constitutes an electric powertrain solution for the future. Twenty years of intensive research and development has lead several car manufacturers to launch their marketing since 2014. During this period, PSA Peugeot Citroën, (now a member of the Stellantis Group) and the Commissariat à l'Energie Atomique et aux Energies Alternatives (CEA) have teamed up to develop the GENEPAC fuel cell, adapted to the constraints of the automotive industry.
Most of the methods implemented in this design work remain a reference for the development of current automotive fuel cells, as evidenced by the most recent achievements.
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Read the articleAUTHORS
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Jean-Philippe POIROT-CROUVEZIER: Docteur-Ingénieur, CEA Research Director at the Low Temperature Fuel Cell Systems Laboratory at CEA/LITEN Grenoble
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Laurent ANTONI: Docteur-Ingénieur, Senior Fellow Hydrogen at CEA
INTRODUCTION
The increase in the world's population, the strong growth of emerging countries and rising living standards are leading to a rise in the number of vehicles on the road. The major consequences of this development are increased pressure on the world's oil resources and rising volumes of exhaust gases from internal combustion engines. The foreseeable rise in oil prices, pollution and greenhouse gas (GHG) emissions, with their impact on global warming, will therefore play a driving role in stimulating technological change to make vehicles more fuel-efficient and less polluting.
The fuel cell is one of the most promising ways of replacing internal combustion engines, particularly for automotive applications. Powered by hydrogen, fuel cells emit only water when producing electrical power. Often combined with hybridization batteries, proton exchange membrane fuel cell (PEMFC) systems can now be used to produce electric vehicles with functions similar to those of combustion engines, but with significantly higher energy yields.
The development of such a vehicle requires a compact fuel cell technology capable of achieving the required power levels, integrated at the heart of a dedicated system. In the 2000s, the CEA (Commissariat à l'énergie atomique et aux énergies alternatives) and PSA Peugeot Citroën designed a fuel cell capable of taking electrical power, energy efficiency and compactness to a new level: the GENEPAC (GENérateur Électrique à Pile A Combustible) fuel cell, the heart of the reaction between fuel (hydrogen) and oxidizer (oxygen from the air) to produce electricity, water and heat. To be directly usable and integrable in a vehicle, a fuel cell system was added to this project: the system resulting from the FiSyPAC (Fiabilité des Systèmes à Pile À Combustible) project supported by the French National Research Agency (ANR).
The methods used at the time to achieve the power, mass and volume targets are described in this article. They provide a benchmark on which to base the many improvements being made to PEMFC cells. A few examples of progress made since then are presented here. The main elements of the design and characterization of the FiSyPAC system are also reviewed. They are placed in perspective with some of the avenues for improvement explored subsequently, and with the performance achieved on the most recent fuel cell vehicles.
Field: Fuel cells for automotive applications
Degree of technology diffusion: Emergence
Technologies involved: Hydrogen
Areas of application: Automotive + extension to other means of transport
Main French players :
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KEYWORDS
automotive | System | transportation | fuel cell | hydrogen
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GENEPAC: PEMFC fuel cell developed in partnership by PSA Peugeot Citroën (Stellantis) and CEA
Bibliography
Bibliography
- (1) - WIPKE (K.), SPRIK (S.), KURTZ (J.), -GARBAK (J.) - Field experience with fuel cell vehicles, in Handbook of Fuel Cells – Fundamentals. Technology and Applications. - Advances in Electocatalysis, Materials, Diagnostics and Durability. John Wiley & Sons, vol. 6, Ltd. ISBN : 978-0-470-72311-1, (2009). ...
Standards and norms
- Dispositifs de raccordement pour le ravitaillement des véhicules terrestres en hydrogène comprimé - ISO 17268 -
- Véhicules routiers alimentés par piles à combustible, partie 1 : sécurité fonctionnelle - ISO 23273-1 -
- Véhicules routiers alimentés par piles à combustible, partie 2 : protection contre les dangers de l'H2 pour les véhicules utilisant l'hydrogène comprimé - ISO 23273-2 -
- Carburant...
Regulations
Regulation No. 101 of the Economic Commission for Europe of the United Nations (UN/ECE) – Uniform provisions concerning the approval of passenger cars powered solely by an internal combustion engine or powered by a hybrid electric power train with regard to the measurement of carbon dioxide emissions and fuel consumption and/or the measurement of electric energy consumption and electric range, and vehicles of categories M...
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