ITM Power - Elektrolyse und Brennstoffzelle (Seite 816)
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Antwort auf Beitrag Nr.: 62.709.964 von X-ENERGY am 18.02.20 10:51:23Aus den Link`s oben:
""""""""""""""""" ITM Power wird die Fertigungsentwürfe fertigstellen und die neue Generation der Elektrolyseurstapeltechnologie testen, die sehr große Stapel (bis zu 5 MW) ermöglicht, wodurch Kosten gesenkt und die Effizienz verbessert werden. Dies ermöglicht den zukünftigen Einsatz von Elektrolyseursystemen im 100-MW-Maßstab.
ITM Power wird die halbautomatischen Fertigungsmaschinen installieren und testen, die für die Herstellung dieser großen, kostengünstigen Stapel in großem Maßstab und in großen Stückzahlen erforderlich sind. ITM Power wird Engpässe beseitigen und ein komplettes Produktionssystem validieren, das Hunderte von Megawatt Elektrolyseuren pro Jahr liefern kann (ursprüngliches Ziel 300 MW / Jahr, Anstieg auf 1 GW / Jahr).
Unter der Leitung von Ørsted wird das Konsortium eine FEED-Studie zur Anwendung eines 100-MW-Elektrolyseursystems durchführen, das erneuerbare Energie direkt aus dem Offshore-Windpark Hornsea Two nutzt und den daraus resultierenden erneuerbaren Wasserstoff an die Phillips 66 Humber Refinery liefert, wo es die CO2-Emissionen reduziert aus der Raffinerie durch Senkung des Verbrauchs von fossilem Wasserstoff.
Die 100 MW werden aus 20 MW Elektrolyseormodulsystemen bestehen, einschließlich aller Aspekte der Dynamik und Integration der erneuerbaren Wasserstoffversorgung auf der Grundlage von Offshore-Windkraft.
In der Studie werden die Markt- und regulatorischen Bedingungen berücksichtigt, die für die Installation eines Elektrolyseurs im 100-MW-Maßstab (und möglicherweise darüber hinaus) erforderlich sind."""""""""""""""""""""""
""""""""""""""""" ITM Power wird die Fertigungsentwürfe fertigstellen und die neue Generation der Elektrolyseurstapeltechnologie testen, die sehr große Stapel (bis zu 5 MW) ermöglicht, wodurch Kosten gesenkt und die Effizienz verbessert werden. Dies ermöglicht den zukünftigen Einsatz von Elektrolyseursystemen im 100-MW-Maßstab.
ITM Power wird die halbautomatischen Fertigungsmaschinen installieren und testen, die für die Herstellung dieser großen, kostengünstigen Stapel in großem Maßstab und in großen Stückzahlen erforderlich sind. ITM Power wird Engpässe beseitigen und ein komplettes Produktionssystem validieren, das Hunderte von Megawatt Elektrolyseuren pro Jahr liefern kann (ursprüngliches Ziel 300 MW / Jahr, Anstieg auf 1 GW / Jahr).
Unter der Leitung von Ørsted wird das Konsortium eine FEED-Studie zur Anwendung eines 100-MW-Elektrolyseursystems durchführen, das erneuerbare Energie direkt aus dem Offshore-Windpark Hornsea Two nutzt und den daraus resultierenden erneuerbaren Wasserstoff an die Phillips 66 Humber Refinery liefert, wo es die CO2-Emissionen reduziert aus der Raffinerie durch Senkung des Verbrauchs von fossilem Wasserstoff.
Die 100 MW werden aus 20 MW Elektrolyseormodulsystemen bestehen, einschließlich aller Aspekte der Dynamik und Integration der erneuerbaren Wasserstoffversorgung auf der Grundlage von Offshore-Windkraft.
In der Studie werden die Markt- und regulatorischen Bedingungen berücksichtigt, die für die Installation eines Elektrolyseurs im 100-MW-Maßstab (und möglicherweise darüber hinaus) erforderlich sind."""""""""""""""""""""""
Wenn man Gewinne Realisiert ist das vollkommen OK aber bei ITM wird das bei mir erst im 2stelligen Bereich sein. Und das wird nicht mehr lange dauern, meiner Meinung nach.
Antwort auf Beitrag Nr.: 62.709.367 von Frabre am 18.02.20 09:54:22Bei mir ist eher das Thema „Gewinne realisieren“ interessant.
Hab mein „neues“ Kursziel leider noch nicht erreicht.
Viel fehlt aber nicht mehr. 😉
Hab mein „neues“ Kursziel leider noch nicht erreicht.
Viel fehlt aber nicht mehr. 😉
Antwort auf Beitrag Nr.: 62.708.758 von sleepy_d am 18.02.20 09:12:14
...die Bäume....
wachsen nicht in den Himmel....mir ist ein stetiges gleichmässiges WACHSTUM viel lieber....aber das Thema Wasserstoff wird halt gerade viel diskutiert....und wer zu spät kommt ...den bestraft das Leben... ;-)
da werden aber große Positionen geschlossen....nun, eine Korrektur , die im Bereich von 1,30 ca enden würde wäre sicher das gesündeste.Doch ob wir das nochmal sehen ist fraglich,,,,LG
Mittlerweile sehe ich es selbst. Kleine Korrektur im Gange.
Die News helfen jedenfalls nicht den Kurs heute zu stützen. 😉
Die News helfen jedenfalls nicht den Kurs heute zu stützen. 😉
Antwort auf Beitrag Nr.: 62.708.017 von roccamon am 18.02.20 08:16:43ITM Power PLC - Gigastack Phase 2 Funding
Industrial scale renewable hydrogen project advances to next phase
· GBP 7.5 million funding secured for phase two of Gigastack
· Project consortium includes ITM Power, Ørsted, Phillips 66 Limited and Element Energy
· Phase two to demonstrate low-cost, zero-carbon hydrogen in the UK to industrial scale
https://www.proactiveinvestors.co.uk/LON:ITM/ITM-Power-PLC/r…
Industrial scale renewable hydrogen project advances to next phase
· GBP 7.5 million funding secured for phase two of Gigastack
· Project consortium includes ITM Power, Ørsted, Phillips 66 Limited and Element Energy
· Phase two to demonstrate low-cost, zero-carbon hydrogen in the UK to industrial scale
https://www.proactiveinvestors.co.uk/LON:ITM/ITM-Power-PLC/r…
Das Projekt für erneuerbaren Wasserstoff im industriellen Maßstab geht in die nächste Phase über
https://www.itm-power.com/news/industrial-scale-renewable-hy…
https://www.itm-power.com/news/industrial-scale-renewable-hy…
Neue News von ITM Power:
Industrial scale renewable hydrogen project advances to next phase
GBP 7.5 million funding secured for phase two of Gigastack
Project consortium includes ITM Power, Ørsted, Phillips 66 Limited and Element Energy
Phase two to demonstrate low-cost, zero-carbon hydrogen in the UK to industrial scale
GBP 7.5 million funding has been awarded for the next phase of Gigastack, a new renewable hydrogen project, as part of the Department for Business, Energy and Industrial Strategy (BEIS) Hydrogen Supply Competition.
The Gigastack project, led by ITM Power, Ørsted, Phillips 66 Limited and Element Energy [1], will show how renewable hydrogen derived from offshore wind can support the UK’s 2050 net-zero greenhouse gas emission target.
Producing hydrogen has traditionally been associated with high carbon emissions, but by using renewable electricity, e.g. from an offshore wind farm, the process of producing hydrogen from water (electrolysis) can be completely decarbonised. Energy-intensive industries and the transportation sector will have the opportunity to reduce the carbon intensity of their fuels by using renewable hydrogen.
As part of the initial feasibility phase of the Gigastack project, which finished in 2019, ITM Power developed designs for a low-cost modular 5 megawatt (MW) electrolyser ‘stack’, collaborating with Ørsted to understand the potential synergies with offshore wind farms and with Element Energy to undertake a market analysis and explore business models for the first industrial-scale 100MW electrolysers.
For the second phase of the project, which has now received funding from the department for BEIS, the consortium will conduct a Front-End Engineering Design (‘FEED’) study on a 100MW electrolyser system using staged installations with a nominal capacity of 20MW. The FEED study will detail the actual design of a hydrogen production system connected to a wind farm and industrial off-taker using ITM Power’s new generation of electrolyser stack technology, renewable energy directly from Ørsted’s Hornsea Two offshore wind farm, and with the resulting renewable hydrogen supplied to an industrial off-taker; Phillips 66 Limited’s Humber Refinery. A key objective of the Gigastack project is to identify and highlight regulatory, commercial and technical challenges for real applications of industrial-scale renewable hydrogen systems.
As part of the second phase, ITM Power will also install and trial both their next-generation electrolyser stack and the semi-automated manufacturing machines required for large-scale and high-volume manufacture of these new large low-cost stacks. This will help validate a complete production system capable of delivering hundreds of megawatts of electrolysers per year.
Anders Christian Nordstrøm, Vice President for Hydrogen, Ørsted, said: “Creating renewable hydrogen with offshore wind really has the potential to decarbonise industrial processes, and what is needed now is to scale up the electrolyser technology and bring the cost down. We’ve seen this happen in offshore wind. With industry and government working together, there has been a rapid deployment and a huge cost reduction. This project aims to do the same with hydrogen. At the right cost, this technology has the potential to play a huge role in meeting the UK’s decarbonisation targets. We’re excited to be part of this project in the Humber region where we are already very active, including constructing the biggest offshore wind farms in the world, Hornsea One and Two, and with them setting the global standard for deployment of offshore wind at scale.”
Darren Cunningham, Lead Executive UK and General Manager Humber Refinery, Phillips 66 Limited said: “Phillips 66 Limited is excited to be involved in the Gigastack project. This project aligns with our record of developing new low-carbon markets within the UK and worldwide, following our innovative technologies, which are key to lithium-ion battery production and, more recently, our biofuels produced from used cooking oil.
“The Humber region is uniquely positioned within the UK for the large-scale deployment of renewable hydrogen. Direct access to existing offshore wind-power and a developed industrial base with hydrogen demand at Phillips 66 Limited’s Humber Refinery provides an ideal opportunity to develop a new renewable hydrogen market where the feedstocks are just water and renewable power.”
Dr Graham Cooley, CEO, ITM Power, said: “The second phase of Gigastack includes stack scale-up, volume manufacturing and a FEED study for a refinery deployment. The project will result in a scalable world-class product for the production of low-cost renewable hydrogen.”
Industrial scale renewable hydrogen project advances to next phase
GBP 7.5 million funding secured for phase two of Gigastack
Project consortium includes ITM Power, Ørsted, Phillips 66 Limited and Element Energy
Phase two to demonstrate low-cost, zero-carbon hydrogen in the UK to industrial scale
GBP 7.5 million funding has been awarded for the next phase of Gigastack, a new renewable hydrogen project, as part of the Department for Business, Energy and Industrial Strategy (BEIS) Hydrogen Supply Competition.
The Gigastack project, led by ITM Power, Ørsted, Phillips 66 Limited and Element Energy [1], will show how renewable hydrogen derived from offshore wind can support the UK’s 2050 net-zero greenhouse gas emission target.
Producing hydrogen has traditionally been associated with high carbon emissions, but by using renewable electricity, e.g. from an offshore wind farm, the process of producing hydrogen from water (electrolysis) can be completely decarbonised. Energy-intensive industries and the transportation sector will have the opportunity to reduce the carbon intensity of their fuels by using renewable hydrogen.
As part of the initial feasibility phase of the Gigastack project, which finished in 2019, ITM Power developed designs for a low-cost modular 5 megawatt (MW) electrolyser ‘stack’, collaborating with Ørsted to understand the potential synergies with offshore wind farms and with Element Energy to undertake a market analysis and explore business models for the first industrial-scale 100MW electrolysers.
For the second phase of the project, which has now received funding from the department for BEIS, the consortium will conduct a Front-End Engineering Design (‘FEED’) study on a 100MW electrolyser system using staged installations with a nominal capacity of 20MW. The FEED study will detail the actual design of a hydrogen production system connected to a wind farm and industrial off-taker using ITM Power’s new generation of electrolyser stack technology, renewable energy directly from Ørsted’s Hornsea Two offshore wind farm, and with the resulting renewable hydrogen supplied to an industrial off-taker; Phillips 66 Limited’s Humber Refinery. A key objective of the Gigastack project is to identify and highlight regulatory, commercial and technical challenges for real applications of industrial-scale renewable hydrogen systems.
As part of the second phase, ITM Power will also install and trial both their next-generation electrolyser stack and the semi-automated manufacturing machines required for large-scale and high-volume manufacture of these new large low-cost stacks. This will help validate a complete production system capable of delivering hundreds of megawatts of electrolysers per year.
Anders Christian Nordstrøm, Vice President for Hydrogen, Ørsted, said: “Creating renewable hydrogen with offshore wind really has the potential to decarbonise industrial processes, and what is needed now is to scale up the electrolyser technology and bring the cost down. We’ve seen this happen in offshore wind. With industry and government working together, there has been a rapid deployment and a huge cost reduction. This project aims to do the same with hydrogen. At the right cost, this technology has the potential to play a huge role in meeting the UK’s decarbonisation targets. We’re excited to be part of this project in the Humber region where we are already very active, including constructing the biggest offshore wind farms in the world, Hornsea One and Two, and with them setting the global standard for deployment of offshore wind at scale.”
Darren Cunningham, Lead Executive UK and General Manager Humber Refinery, Phillips 66 Limited said: “Phillips 66 Limited is excited to be involved in the Gigastack project. This project aligns with our record of developing new low-carbon markets within the UK and worldwide, following our innovative technologies, which are key to lithium-ion battery production and, more recently, our biofuels produced from used cooking oil.
“The Humber region is uniquely positioned within the UK for the large-scale deployment of renewable hydrogen. Direct access to existing offshore wind-power and a developed industrial base with hydrogen demand at Phillips 66 Limited’s Humber Refinery provides an ideal opportunity to develop a new renewable hydrogen market where the feedstocks are just water and renewable power.”
Dr Graham Cooley, CEO, ITM Power, said: “The second phase of Gigastack includes stack scale-up, volume manufacturing and a FEED study for a refinery deployment. The project will result in a scalable world-class product for the production of low-cost renewable hydrogen.”
Wie ist denn die allgemeine Meinung zum heutigen Tag?
Kleine Korrektur oder weiter steigende Kurse?
Kleine Korrektur oder weiter steigende Kurse?
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