Development of an innovative system for the manufacture of ultra pure hydrogen and oxygen (Q130110): Difference between revisions
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(Removed claim: summary (P836): The applicant will carry out, in cooperation with the undertakings and specialised scientific staff, an analysis of the industrial development of the alkaline electrolysis process with the effect of producing hydrogen and oxygen with the highest quality parameters (purity higher than 99.99 % for hydrogen and more than 99.9 % for oxygen) with a minimum electric energy consumption (4,0-4.5 kWh per 1 N of hydrogen produced) and optimal performanc...) |
(Created claim: summary (P836): The applicant will carry out, in cooperation with the companies and by means of a specialised scientific team, an industrial-development of the process of alkaline water electrolysis, which will result in the production of hydrogen and oxygen with the highest quality parameters (purity above 99,99 % for hydrogen and above 99.9 % for oxygen) with minimal consumption of electricity (at the level of 4.0-4.5 kWh per 1 N m³ of hydrogen produced) and...) |
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The applicant will carry out, in cooperation with the companies and by means of a specialised scientific team, an industrial-development of the process of alkaline water electrolysis, which will result in the production of hydrogen and oxygen with the highest quality parameters (purity above 99,99 % for hydrogen and above 99.9 % for oxygen) with minimal consumption of electricity (at the level of 4.0-4.5 kWh per 1 N m³ of hydrogen produced) and optimal performance characteristics of the work and durability of the constructed prototype kW. The final stage of the project will be to test the prototype electrolyser system under real conditions, using electricity from photovoltaic batteries or wind turbines. At the same time, as a result of the project, the technological information obtained will make it possible to plan and construct an optimal system of production of hydrogen and oxygen in the alkaline water electrolyser system (AEW), on an industrial scale (e.g. 1 MW). Thanks to the data obtained on a prototype scale, the industrially manufactured electrolysis system will function in conditions guaranteeing maximum service life for the entire installation. The project consists of the following stages: R & D infrastructure, industrial research, experimental development, exclusive rights and five main tasks: 1. Preparation of research facilities. 2. Optimisation of alkaline water electrolysis process 3. Industrial tests of 5.0 kW system production and accumulation of ultra-pure hydrogen and oxygen in the alkaline water electrolyser system 4. Industrial testing of the quality parameters of hydrogen and oxygen produced using the AEW system with an electrolyser stack power of 5,0 kW in the fuel cell system. 5. Industrial implementation tests of the prototype production system and the accumulation of ultra-clean hydrogen and oxygen in the AEW system (5,0 kW). The implementation of the investment will cover the period III quarter 2018 – I quarter 2020. (English) | |||||||||||||||
| Property / summary: The applicant will carry out, in cooperation with the companies and by means of a specialised scientific team, an industrial-development of the process of alkaline water electrolysis, which will result in the production of hydrogen and oxygen with the highest quality parameters (purity above 99,99 % for hydrogen and above 99.9 % for oxygen) with minimal consumption of electricity (at the level of 4.0-4.5 kWh per 1 N m³ of hydrogen produced) and optimal performance characteristics of the work and durability of the constructed prototype kW. The final stage of the project will be to test the prototype electrolyser system under real conditions, using electricity from photovoltaic batteries or wind turbines. At the same time, as a result of the project, the technological information obtained will make it possible to plan and construct an optimal system of production of hydrogen and oxygen in the alkaline water electrolyser system (AEW), on an industrial scale (e.g. 1 MW). Thanks to the data obtained on a prototype scale, the industrially manufactured electrolysis system will function in conditions guaranteeing maximum service life for the entire installation. The project consists of the following stages: R & D infrastructure, industrial research, experimental development, exclusive rights and five main tasks: 1. Preparation of research facilities. 2. Optimisation of alkaline water electrolysis process 3. Industrial tests of 5.0 kW system production and accumulation of ultra-pure hydrogen and oxygen in the alkaline water electrolyser system 4. Industrial testing of the quality parameters of hydrogen and oxygen produced using the AEW system with an electrolyser stack power of 5,0 kW in the fuel cell system. 5. Industrial implementation tests of the prototype production system and the accumulation of ultra-clean hydrogen and oxygen in the AEW system (5,0 kW). The implementation of the investment will cover the period III quarter 2018 – I quarter 2020. (English) / rank | |||||||||||||||
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| Property / summary: The applicant will carry out, in cooperation with the companies and by means of a specialised scientific team, an industrial-development of the process of alkaline water electrolysis, which will result in the production of hydrogen and oxygen with the highest quality parameters (purity above 99,99 % for hydrogen and above 99.9 % for oxygen) with minimal consumption of electricity (at the level of 4.0-4.5 kWh per 1 N m³ of hydrogen produced) and optimal performance characteristics of the work and durability of the constructed prototype kW. The final stage of the project will be to test the prototype electrolyser system under real conditions, using electricity from photovoltaic batteries or wind turbines. At the same time, as a result of the project, the technological information obtained will make it possible to plan and construct an optimal system of production of hydrogen and oxygen in the alkaline water electrolyser system (AEW), on an industrial scale (e.g. 1 MW). Thanks to the data obtained on a prototype scale, the industrially manufactured electrolysis system will function in conditions guaranteeing maximum service life for the entire installation. The project consists of the following stages: R & D infrastructure, industrial research, experimental development, exclusive rights and five main tasks: 1. Preparation of research facilities. 2. Optimisation of alkaline water electrolysis process 3. Industrial tests of 5.0 kW system production and accumulation of ultra-pure hydrogen and oxygen in the alkaline water electrolyser system 4. Industrial testing of the quality parameters of hydrogen and oxygen produced using the AEW system with an electrolyser stack power of 5,0 kW in the fuel cell system. 5. Industrial implementation tests of the prototype production system and the accumulation of ultra-clean hydrogen and oxygen in the AEW system (5,0 kW). The implementation of the investment will cover the period III quarter 2018 – I quarter 2020. (English) / qualifier | |||||||||||||||
point in time: 21 October 2020
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Revision as of 15:49, 21 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of an innovative system for the manufacture of ultra pure hydrogen and oxygen |
Project in Poland financed by DG Regio |
Statements
678,704.0 zloty
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994,070.0 zloty
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68.28 percent
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25 June 2018
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31 March 2020
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BOB ENERGETYK SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
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Wnioskodawca przeprowadzi we współpracy z przedsiębiorstwami i za pomocą wyspecjalizowanej kadry naukowej badania przemysłowo-rozwojowe procesu alkalicznej elektrolizy wody, których efektem będzie wyprodukowanie wodoru oraz tlenu o najwyższych parametrach jakościowych (czystość powyżej 99,99 % dla wodoru oraz powyżej 99,9 % dla tlenu) przy minimalnym zużyciu energii elektrycznej (na poziomie 4,0-4,5 kWh przypadającej na 1 N m3 wyprodukowanego wodoru) oraz optymalnej charakterystyce pracy i trwałości skonstruowanego prototypowego stosu (5 kW) elektrolizera. Finalnym etapem projektu będzie przeprowadzenie testu prototypowego systemu elektrolizera w warunkach rzeczywistych, z wykorzystaniem energii elektrycznej pochodzącej z baterii ogniw fotowoltaicznych lub siłowni wiatrowej. Jednocześnie, w wyniku realizacji projektu uzyskane informacje technologiczne umożliwią zaplanowanie oraz konstrukcję optymalnego systemu produkcji wodoru i tlenu w układzie alkalicznego elektrolizera wody (AEW), w skali przemysłowej (np. 1 MW). Dzięki uzyskanym danym w skali prototypowej, wytworzony w skali przemysłowej system elektrolizy będzie funkcjonował w warunkach gwarantujących maksymalizację żywotności dla całej instalacji. Projekt składa się z następujących etapów: infrastruktura B+R, badania przemysłowe, eksperymentalne prace rozwojowe, uzyskanie praw wyłącznych i pięciu głównych zadań: 1. Przygotowanie zaplecza badawczego. 2. Optymalizacja parametrów alkalicznego procesu elektrolizy wody 3. Przemysłowe testy systemu 5,0 kW produkcji i gromadzenia ultra-czystego wodoru i tlenu w układzie alkalicznego elektrolizera wody 4. Przemysłowe badanie parametrów jakościowych wodoru i tlenu wyprodukowanych przy użyciu systemu AEW o mocy stosu elektrolizera 5,0 kW w układzie ogniw paliwowym. 5. Przemysłowe testy wdrożeniowe prototypowego systemu produkcji oraz gromadzenia ultra-czystego wodoru i tlenu w systemie AEW (5,0 kW). Realizacja inwestycji obejmie okres III kw 2018 - I kw 2020. (Polish)
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The applicant will carry out, in cooperation with the companies and by means of a specialised scientific team, an industrial-development of the process of alkaline water electrolysis, which will result in the production of hydrogen and oxygen with the highest quality parameters (purity above 99,99 % for hydrogen and above 99.9 % for oxygen) with minimal consumption of electricity (at the level of 4.0-4.5 kWh per 1 N m³ of hydrogen produced) and optimal performance characteristics of the work and durability of the constructed prototype kW. The final stage of the project will be to test the prototype electrolyser system under real conditions, using electricity from photovoltaic batteries or wind turbines. At the same time, as a result of the project, the technological information obtained will make it possible to plan and construct an optimal system of production of hydrogen and oxygen in the alkaline water electrolyser system (AEW), on an industrial scale (e.g. 1 MW). Thanks to the data obtained on a prototype scale, the industrially manufactured electrolysis system will function in conditions guaranteeing maximum service life for the entire installation. The project consists of the following stages: R & D infrastructure, industrial research, experimental development, exclusive rights and five main tasks: 1. Preparation of research facilities. 2. Optimisation of alkaline water electrolysis process 3. Industrial tests of 5.0 kW system production and accumulation of ultra-pure hydrogen and oxygen in the alkaline water electrolyser system 4. Industrial testing of the quality parameters of hydrogen and oxygen produced using the AEW system with an electrolyser stack power of 5,0 kW in the fuel cell system. 5. Industrial implementation tests of the prototype production system and the accumulation of ultra-clean hydrogen and oxygen in the AEW system (5,0 kW). The implementation of the investment will cover the period III quarter 2018 – I quarter 2020. (English)
21 October 2020
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Identifiers
RPWM.01.02.01-28-0032/17
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