HYDRIDE4MOBILITY | Hydrogen fuelled utility vehicles and their support systems utilising metal hydrides

Summary
The goal of this project is in addressing critical issues towards a commercial implementation of hydrogen powered utility vehicles (test case – forklift) using metal hydride (MH) hydrogen storage and PEM fuel cells, together with the systems for their refuelling at industrial customers facilities. For these applications, high specific weight of the metallic hydrides is an advantage, as it fits a purpose of vehicle counterbalancing without an extra cost. However, slow H2 charge / discharge of the MH systems, complexity of their design and high cost, together with efficiency of system integration remain great challenges to overcome.

The present RISE proposal will address these problems by a collective effort of consortium containing experienced, high profile academic teams and industrial partners from two EU Member States (Germany, Croatia), one associated country (Norway) and two third countries (South Africa, Indonesia). The work will strengthen already existing and will establish new collaborative links. This will allow overcoming the challenges associated with implementation of Metal Hydride technologies in transportation and in promoting their commercialisation in the European countries contributing to the project consortium.

Various efficient and cost-competitive solutions including (i) advanced MH materials for hydrogen storage and compression, (ii) Advanced MH containers characterised by improved charge-discharge dynamic performance and ability to be mass produced, (iii) integrated hydrogen storage and compression / refuelling systems will be developed and tested together with PEM fuel cells during the collaborative efforts of the consortium members having a strong expertise in hydride materials science, manufacturing of the advanced hydrogen storage materials, design and manufacturing of gas sorption reactors, fuel cell system integration, as well as in manufacturing of the fuel cell power modules, utility vehicles, and their optimisation for the customers.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/778307
Start date: 01-12-2017
End date: 31-05-2024
Total budget - Public funding: 355 500,00 Euro - 355 500,00 Euro
Cordis data

Original description

The goal of this project is in addressing critical issues towards a commercial implementation of hydrogen powered utility vehicles (test case – forklift) using metal hydride (MH) hydrogen storage and PEM fuel cells, together with the systems for their refuelling at industrial customers facilities. For these applications, high specific weight of the metallic hydrides is an advantage, as it fits a purpose of vehicle counterbalancing without an extra cost. However, slow H2 charge / discharge of the MH systems, complexity of their design and high cost, together with efficiency of system integration remain great challenges to overcome.

The present RISE proposal will address these problems by a collective effort of consortium containing experienced, high profile academic teams and industrial partners from two EU Member States (Germany, Croatia), one associated country (Norway) and two third countries (South Africa, Indonesia). The work will strengthen already existing and will establish new collaborative links. This will allow overcoming the challenges associated with implementation of Metal Hydride technologies in transportation and in promoting their commercialisation in the European countries contributing to the project consortium.

Various efficient and cost-competitive solutions including (i) advanced MH materials for hydrogen storage and compression, (ii) Advanced MH containers characterised by improved charge-discharge dynamic performance and ability to be mass produced, (iii) integrated hydrogen storage and compression / refuelling systems will be developed and tested together with PEM fuel cells during the collaborative efforts of the consortium members having a strong expertise in hydride materials science, manufacturing of the advanced hydrogen storage materials, design and manufacturing of gas sorption reactors, fuel cell system integration, as well as in manufacturing of the fuel cell power modules, utility vehicles, and their optimisation for the customers.

Status

SIGNED

Call topic

MSCA-RISE-2017

Update Date

28-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.3. EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions (MSCA)
H2020-EU.1.3.3. Stimulating innovation by means of cross-fertilisation of knowledge
H2020-MSCA-RISE-2017
MSCA-RISE-2017