H2Watt (Q4300262): Difference between revisions
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Project Q4300262 in Netherlands, Germany |
Revision as of 20:35, 10 June 2022
Project Q4300262 in Netherlands, Germany
Language | Label | Description | Also known as |
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English | H2Watt |
Project Q4300262 in Netherlands, Germany |
Statements
906,262.0 Euro
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2,265,655.0 Euro
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40.0 percent
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1 July 2019
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30 June 2022
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MARIKO GmbH
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The use of hydrogen (H2) is regarded as the key technology of the future. Hydrogen is a colorless, odorless, poison-free gas that can be used as an energy carrier. Currently there are only partially developed, tested, marketable, economically interesting technologies and methods available for the production, storage, transport and use of hydrogen. In particular, however, there is a lack of the combination of individual components to form an overall system and of strategies for a modular structure of a hydrogen chain that successively serves a continuous application. Application areas include heat/electricity supply and other land-based industrial applications, residential construction and multimodal transport, including use as fuel in shipping. The aim of the H2Watt project is to prepare the economy on both sides of the border across sectors for the new requirements and potentials arising from the introduction of the key technology hydrogen and to promote technological (further) development and knowledge transfer in the field of hydrogen economy. This is done using the case studies Ameland (NL) and Borkum (D) as examples. H2Watt" focuses on the following measures: - Development of hydrogen real laboratory / test infrastructure Ameland and Borkum - Application of real laboratory/test infrastructure for system developments of the project partners, but also as demonstration platform for components/issues of other companies and institutions (especially SMEs) - (Further) development of market-oriented environmental technologies, high-tech systems, components and materials (e.g. use of micro- and nanomaterials as well as innovative metal and surface alloys) - Process development and modelling of a hydrogen value chain (including life cycle assessment) - Development of technology concepts for different user groups (interoperability) (English)
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