Fuel cells with a low content of platinum metals (Q19984): Difference between revisions
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(Removed claim: summary (P836): The PC-NG project aims at the basic development of advanced thin layer nano-catalysts with low levels of precious metals and their corrosion resistant media for the association of hydrogen fuel cells with a polymeric membrane. At the same time, there will be research on the specificities of the application on large-scale electrodes, in preparation for the future scaling up of technology in bundles, with active areas over 200 cm ^ 2 and the out...) |
(Created claim: summary (P836): The aim of the Pac-NG project is the basic development of advanced thin-layer nanocatalysts with low content of precious metals and their corrosion of durable carriers for hydrogen fuel cell bundles with polymer membrane. At the same time, there will be research on application specifics for large-scale electrodes as preparation for future scaling of technologies into bundles with active areas over 200 cm^2 and outputs up to 5 kW, usable in small...) |
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The aim of the Pac-NG project is the basic development of advanced thin-layer nanocatalysts with low content of precious metals and their corrosion of durable carriers for hydrogen fuel cell bundles with polymer membrane. At the same time, there will be research on application specifics for large-scale electrodes as preparation for future scaling of technologies into bundles with active areas over 200 cm^2 and outputs up to 5 kW, usable in small and medium stationary and mobile energy sources. a. (English) | |||||||||||||||
| Property / summary: The aim of the Pac-NG project is the basic development of advanced thin-layer nanocatalysts with low content of precious metals and their corrosion of durable carriers for hydrogen fuel cell bundles with polymer membrane. At the same time, there will be research on application specifics for large-scale electrodes as preparation for future scaling of technologies into bundles with active areas over 200 cm^2 and outputs up to 5 kW, usable in small and medium stationary and mobile energy sources. a. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the Pac-NG project is the basic development of advanced thin-layer nanocatalysts with low content of precious metals and their corrosion of durable carriers for hydrogen fuel cell bundles with polymer membrane. At the same time, there will be research on application specifics for large-scale electrodes as preparation for future scaling of technologies into bundles with active areas over 200 cm^2 and outputs up to 5 kW, usable in small and medium stationary and mobile energy sources. a. (English) / qualifier | |||||||||||||||
point in time: 22 October 2020
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Revision as of 17:34, 22 October 2020
Project in Czech Republic financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Fuel cells with a low content of platinum metals |
Project in Czech Republic financed by DG Regio |
Statements
61,496,028.5 Czech koruna
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81,022,435.49 Czech koruna
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75.9 percent
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1 April 2018
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31 December 2022
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Univerzita Karlova
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50°5'20.22"N, 14°25'13.04"E
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50°5'7.01"N, 14°25'23.81"E
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11000
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Cílem projektu PaC-NG je základní vývoj pokročilých tenkovrstvých nanokatalyzátorů s nízkým obsahem drahých kovů a jejich korozi odolných nosičů pro svazky vodíkových palivových článků s polymerní membránou. Zároveň proběhne výzkum specifik aplikace na velkoplošné elektrody jako příprava pro budoucí škálování technologií do svazků s aktivními plochami přes 200 cm^2 a výkony až 5 kW, využitelným v malých a středních stacionárních a mobilních zdrojích energie. a. (Czech)
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The aim of the Pac-NG project is the basic development of advanced thin-layer nanocatalysts with low content of precious metals and their corrosion of durable carriers for hydrogen fuel cell bundles with polymer membrane. At the same time, there will be research on application specifics for large-scale electrodes as preparation for future scaling of technologies into bundles with active areas over 200 cm^2 and outputs up to 5 kW, usable in small and medium stationary and mobile energy sources. a. (English)
22 October 2020
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Identifiers
CZ.02.1.01/0.0/0.0/16_025/0007414
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