- About us
- FCH regions
- RCS Strategy Coordination Group
- European Hydrogen Safety Panel
- Guarantees of origin for Hydrogen
- FCH Value chain
- Funding & Financing
- 1000 Solutions Initiative
- European Hydrogen Refuelling Station Availability System
- Mission Innovation "Hydrogen Valleys"
- Tools for Innovation Monitoring
- Stakeholder Forum
- Programme Review
- CALLS FOR PROPOSALS & PROCUREMENTS
- NEWS, EVENTS & MEDIA
- AWARDS 2018
Cost & Performances Improvement for CGH2 composite tanks
Call for proposals:
Transport and refuelling infrastructure
A certain level of maturity of on-board compressed gaseous storage systems have been demonstrated through large Fuel Cell Electric Vehicle (FCEV) deployment projects like Clean Energy Partnership (100+ FCEVs). In addition, major car companies have confirmed their intent to start production by 2015. Nevertheless, major issues still remain to be addressed:
- VOLUME: Actual CGH2 tank production is far from being capable of feeding the volume requested by the automotive industry.
Therefore, current manufacturing equipment and production strategies are not designed for addressing such a market.
- COSTS: Latest techno-economic analysis (DoE 05/2011) are still forecasting that industrial costs for 700bar CGH2 tanks may remain 4 to 5 times higher than expected targets.
This is particularly critical with respect to a massive deployment of FCEV.
COPERNIC will address the two major targets: performance improvements and cost reduction of 70MPa TypeIV composite vessels for automotive application in order to achieve targets and lead to rapid industrial exploitation owing to the strong contribution of 4 SME and industrial partners in the consortium. It will provide real scale demonstration on a pilot manufacturing line quantitative and technical and economic assessment of strategies including evolution of materials, components, processes and designs.
Therefore, in full consistency with the call Topic, the COPERNIC project will contribute to:
- Increase the maturity and competitiveness of CGH2 manufacturing processes evolving from classical automotive manufacturing technologies or concepts.
- Decrease costs while improving composite quality, manufacturing productivity and using optimized composite design, materials and components.
The scope of work has been defined taking into account past project outcomes (STORHY) and on-going project objectives (HYCOMP). COPERNIC will ensure that the deployment of FCEV is not inhibited by prohibitive high-pressure tanks cost or availability.
SP1-JTI-FCH.2012.1.3 - Compressed hydrogen on board storage (CGH2)
Saturday, June 1, 2013
Wednesday, November 30, 2016
36 months (originally), extended to 42 months
COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, France
Dr. Fabien Nony
Other participating organisations:
|OPTIMUM CPV (formerly SEIFERT AND SKINNER & ASSOCIATES BVBA SS&A)||Belgium|
|H2 Logic A/S||Denmark|
|(HOCHDRUCK REDUZIOERTECHNIK GMBH)|
Results or Deliverables files:
FR303517320160415; Method for preparing the internal shell of a composite type iv reservoir for storing pressurized fluid