Innovating Works

HOCHSCHULE ESSLINGEN

Desconocido
FURTHER-FC: Further Understanding Related to Transport limitations at High current density towards future ElectR... HOCHSCHULE ESSLINGEN participó en un H2020: H2020-JTI-FCH-2019-1 PEMFC is the promising technology for automotive applications with a large deployment horizon by 2030. However, in view of extending their u...
2019-12-05 - 2024-08-31 | Financiado
HDGAS: Heavy Duty Gas Engines integrated into Vehicles HOCHSCHULE ESSLINGEN participó en un H2020: H2020-GV-2014-2015 The overall objective of HDGAS is to provide breakthroughs in LNG vehicle fuel systems, natural gas and dual fuel engine technologies as wel...
2015-04-14 - 2018-04-30 | Financiado
INSIDE: In-situ Diagnostics in Water Electrolyzers HOCHSCHULE ESSLINGEN participó en un FP6: In this project an electrochemical in-situ diagnostic tools for locally resolved measurements of current densities, which has been originall...
2014-11-01 - 2018-10-31 | Financiado
PHAEDRUS: High Pressure Hydrogen All Electrochemical Decentralized RefUeling Station HOCHSCHULE ESSLINGEN participó en un FP6: PHAEDRUS addresses the complete scope and objectives of Topic SP1-JTI-FCH.2011.1.8. A new concept and new technologies for a hydrogen retail...
2012-11-01 - 2015-10-31 | Financiado
IMPACT: Improved Lifetime of Automotive Application Fuel Cells with ultra low Pt-loading HOCHSCHULE ESSLINGEN participó en un FP6: The main objective of the planned project IMPACT is to increase the life-time of fuel cells with membrane-electrode assemblies containing ul...
2012-11-01 - 2016-10-31 | Financiado
IMPACT: Improved Lifetime of Automotive Application Fuel Cells with ultra low Pt loading HOCHSCHULE ESSLINGEN participó en un FP7: "The main objective of the planned project IMPACT is to increase the life-time of fuel cells with membrane-electrode assemblies containing u...
Financiado
PHAEDRUS: High Pressure Hydrogen All Electrochemical Decentralized RefUeling Station HOCHSCHULE ESSLINGEN participó en un FP7: PHAEDRUS addresses the complete scope and objectives of Topic SP1-JTI-FCH.2011.1.8. A new concept and new technologies for a hydrogen retail...
Financiado
INSIDE: In situ Diagnostics in Water Electrolyzers HOCHSCHULE ESSLINGEN participó en un FP7: In this project an electrochemical in-situ diagnostic tools for locally resolved measurements of current densities, which has been originall...
Financiado
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