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Baker Hughes and Snam have successfully completed testing of the world’s first “hybrid” hydrogen turbine designed for a gas network. The test paves the way to implement adoption of hydrogen blended with natural gas in Snam’s current transmission network infrastructure. 20 billion cubic meters globally).
This award marks the first Advanced Class Gas Turbines in the industry specifically designed and purchased as part of a comprehensive plan to sequentially transition from coal, to natural gas and finally to renewable hydrogen fuel, and creates a roadmap for the global industry to follow. Earlier post.).
The technology group Wärtsilä is developing the combustion process in its gas engines to enable them to burn 100% hydrogen fuel. Wärtsilä has researched hydrogen as a fuel for 20 years, and has tested its engines with blends of up to 60% hydrogen and 40% natural gas.
Researchers at The Ohio State University have used a chemical looping process to produce hydrogen from hydrogen sulfide gas—commonly called “sewer gas”. Compared with the undoped sulfur carrier, Mo dopant facilitates the surface hydrogen diffusion, thus promoting the overall H 2 S conversion.
The EU project HyInHeat is researching the use of hydrogen in the aluminum and steel industry. The main objective of HyInHeat is the integration of hydrogen as fuel for high-temperature heating processes in the energy-intensive industries. The EU is contributing €17.7 million in funding to the €24-million project.
A consortium comprising Engie Solutions, Siemens Gas and Power, Centrax, Arttic, German Aerospace Center (DLR) and four European universities is implementing the HYFLEXPOWER project funded by the European Commission under the Horizon 2020 Framework Program for Research and Innovation (Grant Agreement 884229).
A coalition of major oil & gas, power, automotive, fuel cell, and hydrogen companies have developed and released the full new report, a “ Road Map to a US Hydrogen Economy. ” Road Map to a US Hydrogen Economy ”. —Fuel Cell and Hydrogen Energy Association (FCHEA) President Morry Markowitz.
Kawasaki Heavy Industries’ Suiso Frontier , the world’s first liquefied hydrogen carrier, has left Japan to pick up its first hydrogen cargo in Australia. The vessel can carry 75 tonnes of liquefied hydrogen in one trip. J-POWER) to form the CO 2 -free Hydrogen Energy Supply-chain Technology Research Association (HySTRA).
Honeywell UOP has introduced its Liquid Organic Hydrogen Carrier (LOHC), a solution that enables the long-distance transportation of clean hydrogen. This cost-effective solution can help meet the growing requirements for hydrogen use across various industries by leveraging existing refinery and transportation infrastructure.
a provider of on-site hydrogen production, received an equity investment of up to $157 million from Newlight Partners LP, a growth equity investor, with participation from existing investors Cottonwood Technology Funds, Sun Mountain Capital and new investor Fortistar. BayoTech, Inc., Source: BayoTech.
Markus Krebber (RWE), accompanied by Chairman of the Mining, Chemical and Energy Industries Union (IG BCE) Michael Vassiliadis, presented a project idea that envisions a new 2 GW offshore wind farm in the German North Sea to provide the Ludwigshafen chemical site with green electricity and enable CO 2 -free production of hydrogen.
potential customers for its proposed clean hydrogen production facility in Teesside in north-east ?England. In March, bp announced plans for a clean hydrogen facility in Teesside (H2Teesside) that would aim to ?produce produce up to 1GW of blue hydrogen—20% of the UK’s hydrogen target—by 2030. At the same ?time,
In February 2022, GTI Energy, S&P Global Commodity Insights and the National Energy Technology Laboratory (NETL) launched the Open Hydrogen Initiative (OHI), a collaboration to further transparency into the environmental impact of hydrogen production and help unlock its full potential as an important driver of energy transitions.
Transform Materials has developed a novel and sustainable microwave plasma reactor process to convert natural gas into high-value hydrogen and acetylene, thereby opening up a new pathway for green chemical manufacturing. Oxidation of methane also introduces impurities in the product stream.
The Gold Hydrogen Program , a coalition of organizations seeking to support the scale of this clean energy resource, announced its launch and the debut of a pilot microbial Gold Hydrogen Process. Found naturally deep in the Earth, “gold hydrogen” is a resource that is produced biologically and in the subsurface.
Cemvita Factory announced multiple developments with its Gold Hydrogen business. Cemvita defines Gold Hydrogen as the biological production of hydrogen in the subsurface through the consumption of trapped or abandoned resources. The hydrogen production in this trial exceeded our expectations. billion in 2020.
Researchers at the Fraunhofer IFF in Germany are designing the distributed and modular production and distribution of green hydrogen for industry, business and transportation throughout the value chain—a hydrogen factory of the future. The hydrogen factory of the future. The outcome is always green hydrogen.
The flagship project MethanQuest was launched in September 2018, and on it a total of 29 partners from research, industry and the energy sector have come together to work on processes for producing hydrogen and methane from renewables and for using them to achieve climate-neutral mobility and power generation.
The project is supported by DOE’s Hydrogen and Fuel Cell Technologies Office within the Office of Energy Efficiency and Renewable Energy. The project partners will generate zero-carbon hydrogen onsite via electrolysis with solar and wind power and reformation of renewable natural gas from a Texas landfill.
The Mayor of London, Sadiq Khan, launched England’s first hydrogen double-decker buses. The 20 new buses are the first of their kind to be launched in England; the new hydrogen fuel cell double decker buses are first being introduced on route 7 between East Acton and Oxford Circus. In addition to around £6 million (US$8.3
Japan’s New Energy and Industrial Technology Development Organization (NEDO), Toshiba Energy Systems & Solutions Corporation (Toshiba ESS), Tohoku Electric Power Co., Japan’s New Energy and Industrial Technology Development Organization (NEDO), Toshiba Energy Systems & Solutions Corporation (Toshiba ESS), Tohoku Electric Power Co.,
The EU should promote the use of green hydrogen and ammonia by ships as part of its upcoming maritime fuel law, major shipping industry players and environmentalists have told the European Commission. Green hydrogen and ammonia offer a clean future for the shipping and fuels industry. Globally, €1.4
The United States has an extensive network of approximately 3,000,000 miles of natural gas pipelines and more than 1,600 miles of dedicated hydrogen pipeline. However, blend limits depend on the design and condition of current pipeline materials, of pipeline infrastructure equipment, and of applications that utilize natural gas.
China Petroleum & Chemical Corporation (Sinopec) officially launched China’s first methanol-to-hydrogen and hydrogen refueling service station in Dalian, China. The storage and transportation cost of methanol is also much lower than hydrogen, making methanol-to-hydrogen an attractive hydrogen production technology.
The resulting hydrogen will initially be used at the power plant, but it could eventually be sold to other industries. It builds on a project launched last year to demonstrate how hydrogen production facilities could be installed at operating nuclear power plants. Earlier post.) Prairie Island.
C-Job Naval Architects has designed a new class of liquid hydrogen tanker in partnership with LH2 Europe. LH2 Europe will use the abundant renewable electricity in Scotland to produce green hydrogen and market it at a competitive price with diesel. Hydrogen will be essential to the future of energy. Vessel specifications.
has provided a 20-megawatt PEM electrolyzer system to generate green hydrogen, making it the largest in operation in the world. The Cummins electrolyzer system is installed at the Air Liquide hydrogen production facility in Bécancour, Québec. 3,000 tons of hydrogen annually using clean hydropower.
million) ammonia cracker prototype designed to produce green hydrogen at industrial scale. The prototype will use ammonia to deliver 200kg of hydrogen a day—enough to power around 5-10 hydrogen fuel cell-electric buses. Ammonia has a high hydrogen density and is readily transportable in bulk. million (US$4.24
Southern California Gas Co. SoCalGas) and H2U Technologies are testing a new electrolyzer, called the Gramme 50, for the production of green hydrogen. The green hydrogen produced by this new technology can be used for clean transportation or industrial applications or blended with natural gas.
TECO 2030 ( earlier post ) is aiming to establish Norway’s first large-scale production of fuel cells, optimized to be the heart of hydrogen-powered ships and other heavy-duty installations. This will be the first volume production of fuel cells in Norway and a hub for the Norwegian hydrogenindustry. gigawatt, per year.
Korea’s Doosan Heavy Industries & Construction has embarked on the development of technology for producing hydrogen using waste plastic and vinyl. Doosan is working on developing a hydrogen reformer that has the capacity to produce 0.3 —Doosan Heavy CSO Yongjin Song.
A new report from Australia’s national science agency CSIRO shows that clean hydrogen can significantly reduce aviation emissions with potential benefits seen within five years. This involves the replacement of on-airport ground support equipment, currently running on liquid fuels and batteries, with hydrogen powered fuel cell alternatives.
RWE's FUREC project, which aims to produce circular and green hydrogen from non-recyclable municipal solid waste in Limburg, the Netherlands, received a €108-million grant from the EU’s Innovation Fund. The plant is expected to produce 54,000 tonnes of hydrogen per year. A final investment decision is to be made in 2024.
has received an investment from Mitsubishi Heavy Industries America, Inc. to support its commercial-scale, emissions-free hydrogen manufacturing technology. Monolith Materials is the first US manufacturer to produce “turquoise hydrogen” on a commercial scale. Monolith’s hydrogen is classified as “turquoise hydrogen”.
The Yuchai YCK16H hydrogen-fueled engine was successfully ignited in Yulin, Guangxi. liters and a maximum horsepower of 560 hp, is the largest hydrogen-fueled engine with the largest displacement and horsepower in China. The engine, with a displacement of 15.93
This agreement includes additional collaboration on the advancement of hydrogen technology for infrastructure and truck on-board fuel systems. This relationship builds on a previously signed development agreement between Chart and Nikola to work together to develop innovative solutions for the hydrogen electric vehicle market.
Samsung Heavy Industries (SHI) and Seaborg signed a partnership agreement to develop floating nuclear power plants based on Seaborg’s inherently safe Compact Molten Salt Reactor (CMSR). The floating nuclear power plant comes as a turn-key product, ready to be moored at an industrial harbor. This provides significant safety benefits.
The UK’s National Nuclear Laboratory (NNL) and DNV are partnering to explore the potential of nuclear-derived hydrogen to support the conversion of UK gas networks to hydrogen. This will enable consumers to continue using gas in homes, businesses and industry, in an effective way that is net-zero compliant.
GTI, a research, development and training organization focused on natural gas and energy markets, is launching a hydrogen technology center. GTI focuses its R&D efforts on the generation of clean hydrogen using hydrocarbon fuels that incorporate carbon capture and/or carbon sequestration in a cost-effective manner.
In March, Toyota’s GR Corolla H2 Concept (liquid hydrogen-powered Corolla) suffered a fire during a tet run and withdrew from the opening of the ENEOS Super Taikyu Series 2023 Powered by Hankook Round 1 Suzuka. Toyota says that the fire was caused by a loosened joint in the hydrogen supply piping. Earlier post.)
Spain-based global energy company Repsol and Talgo, a manufacturer of intercity, standard, and high speed passenger trains, will promote a renewable-hydrogen-powered train, fostering emission-free rail transport in the Iberian Peninsula. The Vittal One renewable hydrogen-powered train uses electric motors powered by hydrogen fuel cells.
The consortium behind the WESTKÜSTE100 project received the go-ahead and funding approval from the Federal Ministry of Economic Affairs and Energy that will make it Germany’s first hydrogen project included in the “real-world laboratories fostering the energy transition” program. We see the energy transition as a cross-sectoral endeavour.
SSAB, LKAB and Vattenfall have now produced hydrogen-reduced sponge iron on a pilot scale. The test production was carried out in HYBRIT’s pilot plant in Luleå and shows that it is possible to reduce iron ore with fossil-free hydrogen, instead of removing the oxygen with coal and coke. So far, about 100 tons have been produced.
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