Havyard to jointly develop hydrogen zero-emission vessels
The maritime company, Havyard Group ASA along with a European player shake hands in order to develop hydrogen zero-emission vessels.
Read moreThe maritime company, Havyard Group ASA along with a European player shake hands in order to develop hydrogen zero-emission vessels.
Read moreDanish power company Ørsted has taken final investment decision on the Danish demonstration project H2RES, in Copenhagen, which will use offshore wind energy to produce renewable hydrogen.
Read moreSiemens Gamesa and Siemens Energy are joining forces combining their ongoing wind-to-hydrogen developments to reach one step closer to decarbonization of the economy.
Read moreTotal and Engie joined forces, signing a cooperation agreement to design, develop, build and operate France’s largest renewable hydrogen production site.
Read moreMediterranean Shipping Company (MSC) joined the Hydrogen Council, a global industry body, following the industry's efforts to accelerate R&D related to clean hydrogen derived fuels and solutions.
Read moreITM Power, Ørsted, Siemens Gamesa Renewable Energy, and Element Energy have been awarded EUR 5 million in funding from The Fuel Cells and Hydrogen Joint Undertaking (FCH2-JU) under the European Commission to investigate a wind turbine and electrolyser system designed for operation in marine environments.
Read moreThrough Innovation Norway, the Norwegian government has approved grants for construction and testing of the green hydrogen offshore energy system, Deep Purple, in Norway.
Read moreCarbon capture and storage (CCS) solutions could address about 42% of the world’s total dirty footprint, Norwegian intelligence firm Rystad Energy said in its monthly Energy Transition Report. The release came as the adaptation of renewable energy technologies is accelerating, even during the pandemic, and three contenders – carbon capture and storage (CCS), battery storage and hydrogen – have begun a competitive race to reduce emissions. After analyzing the full scope of global CO2 emissions, Rystad has concluded that CCS solutions could address about 42% of the world’s total dirty footprint, but will likely not reach its full potential, as competing hydrogen and battery societies will also target their fair share of the global pie. The core applications for CCS are within natural gas processing, power generation, hydrogen production (steam methane reforming or SMR), and industrial processes. Today, the vast majority is related to natural gas processing and hydrogen production for use in refining and fertilizer production. Not surprisingly, we find the largest CCS potential in China, India and the US, where power and combustion outweigh process emissions. The power sector, although significant, is less likely to utilize CCS than industry, as renewable energy – given the fast decline in ...
Read moreIn Germany, a feasibility study has started under the name HySupply into the possibilities and conditions to develop the value chain for renewable hydrogen, in order to establish a global hydrogen market.
Read moreNorwegian state-owned organization Enova has awarded 219 million Norwegian kroner (=USD 25 million) to a Wilhelmsen-led project aiming to construct the world’s first zero emission hydrogen vessels.
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