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The technology group Wärtsilä and Grieg Edge, the innovation hub of Norwegian shipping group Grieg Star, are jointly running a project to launch an ammonia-fueled tanker producing no greenhouse gas emissions by 2024. Ship owners operating LNG-fueled vessels represent a significant source of potential customers.
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 hydrogen industry. gigawatt, per year.
In this case—which reflects only current laws and regulations—renewable energy is the fastest-growing energy source through 2050, while petroleum remains the largest share of energy consumption throughout that period, followed by natural gas. Source: U.S. Energy Information Administration, Annual Energy Outlook 2022 (AEO2022).
UK-based Expleo, a global engineering, technology and consultancy service provider, has developed a closed-loop fuel solution for global shipping that delivers a 92% reduction in greenhouse gas emissions (GHGe) in the model vessel. Bibby Wavemaster 1, the model vessel. —Jonathan Taylor, VP of Marine, Expleo. million (US$1.7
Aker Solutions has signed a contract with Nordic Blue Crude (NBC) for front-end engineering and design (FEED) of a new e-Fuel facility at Herøya in Porsgrunn, Norway. The e-Fuel plant is planned to produce CO 2 -neutral fuel by using green hydrogen and furnace gas from an existing factory.
Hyundai Motor Group will collaborate with the Saudi Arabian Oil Company (Aramco) and King Abdullah University of Science and Technology (KAUST) jointly to research and develop an advanced fuel for an ultra lean-burn, spark-ignition engine that aims to lower the overall carbon dioxide emissions of a vehicle.
Such a jet engine simply uses only air and electricity to produce high temperature and pressurized plasma for jet propulsion. The motivation of our work is to help solve the global warming problems owing to humans’ use of fossil fuel combustion engines to power machinery, such as cars and airplanes. —Jau Tang.
For public transport and distribution applications, the decision seems to have been made: battery electric vehicles are the means of choice. Accordingly, MAN Truck & Bus already offers series production of the MAN Lion’s City E and eTGE as well as the eTGM electric distribution truck.
The FLXdrive battery-electric locomotive is a defining moment for freight rail and will accelerate the industry toward low- to zero-emission locomotives. It builds upon the rail industry’s position as the most efficient and sustainable mode of transportation.
Saudi Aramco and Air Products signed an agreement to jointly-build the first hydrogen fuel cell vehicle fueling station in Saudi Arabia. Saudi Aramco and Air Products will establish a pilot fleet of fuel cell vehicles for which high-purity compressed hydrogen will be dispensed at the new fueling station.
GM announced new commercial applications of its HYDROTEC fuel cell technology. These fuel cell generators could ultimately replace gas- and diesel-burning generators with fewer emissions at worksites, buildings, movie sets, data centers, outdoor concerts and festivals. Mobile Power Generator.
million in federal funding for cost-shared research and development projects under the funding opportunity announcement (FOA) FE-FOA 0002397 , University Turbines Systems Research (UTSR) — Focus on Hydrogen Fuels. The UTSR Program conducts research to increase the efficiency and performance of gas turbines while lowering emissions.
The M-Series produces no particulate matter in the generation of hydrogen, and when using methanol produced from waste gas streams such as landfill gas or biogas, e1’s hydrogen generation solution can be carbon-neutral. In many regions of the world, building out this infrastructure is simply not feasible, e1 said.
SOECs can be thermally integrated with a range of chemical syntheses, enabling recycling of captured CO 2 and H 2 O into synthetic natural gas or gasoline, methanol, or ammonia, resulting in further efficiency improvements compared with low-temperature electrolysis technologies. —Hauch et al.
Representing more than 100,000 Class 8 commercial trucks globally, the Council will collaborate closely with Hyliion to provide key user insights in the development of the Hypertruck, the company’s electric powertrain for Class 8 commercial trucks.
A team at the University of Nebraska-Lincoln has investigated the long-term adaptability and economic feasibility of non-flex-fuel vehicles—vehicles designed to use fuel blends containing 85% ethanol (E85) or less—to consume a 30% ethanol (E30) fuel blend. MPG compared to E15.
Argonne National Laboratory has published a new cradle-to-grave (C2G) lifecycle analysis (LCA) of US LDV vehicle-fuel pathways. This analysis builds on a previous comprehensive life cycle analysis, updating that study’s 2016 assumptions and methods. Fuel production pathways considered. fuel sales tax) and/or credits (e.g.,
CP’s Hydrogen Locomotive Program will retrofit a line-haul locomotive with hydrogen fuel cells and battery technology to drive the locomotive’s electric traction motors. The work builds on CP’s prior experience with testing low-emitting locomotive technologies, including biofuels, compressed natural gas and battery-powered solutions.
This vessel was developed to provide a means of transporting liquefied hydrogen at 1/800 of its original gas-state volume, cooled to –253°C, safely and in large quantities over long distances by sea. A return to Japan is expected around late February. The vessel can carry 75 tonnes of liquefied hydrogen in one trip.
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. ” —Fuel Cell and Hydrogen Energy Association (FCHEA) President Morry Markowitz. Demand potential across sectors, base and ambitious cases.
Ballard Power Systems received an order for additional fuel cell engines from Canadian Pacific Kansas City (CPKC). These eighteen, 200 kW fuel cell engines (3.6 Over the past two years, Ballard has supplied CPKC with 20 fuel cell engines for use in three different types of locomotives, with combined fuel cell power of 4MW.
SGH2’s gasification process uses a plasma-enhanced thermal catalytic conversion process optimized with oxygen-enriched gas. The syngas then goes through a Pressure Swing Absorber system resulting in hydrogen at 99.9999% purity as required for use in Proton Exchange Membrane fuel cell vehicles.
With clean hydrogen gaining recognition worldwide as a carbon-free fuel capable of making a significant contribution to addressing climate change, Southern California Gas Co. SoCalGas) will field test a new technology that can simultaneously separate and compress hydrogen from a blend of hydrogen and natural gas. Rhandi et al.
Cummins has begun testing a hydrogen-fueled internal combustion engine. The proof-of-concept test is building on Cummins’ existing technology leadership in gaseous-fuel applications and powertrains. Cummins is thrilled about the potential of the hydrogen engine to reduce emissions and provide power and performance for customers.
H2One is an integrated system that provides stable CO 2 -free, environmentally-friendly electric power for the tower. H2One consists of a hydrogen generator, a hydrogen storage tank, and hydrogen fuel cells, and batteries. Toranomon Hills Business Tower is a 36-story office tower with a large office area and commercial facilities.
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. Frontier Energy, Inc.,
As the core of its hydrogen business, Honda will further advance its fuel cell system. With the next-generation fuel cell system being co-developed with General Motors (GM), Honda will aim to more than double the durability and reduce the cost to one-third, in comparison to the fuel cell system installed in the 2019 Honda Clarity Fuel Cell.
Raven SR, a US-based renewable fuels company ( earlier post ), plans to build a waste-to-hydrogen production facility in Aragón, Spain, following the opening of its subsidiary Raven SR Iberia in Zaragoza, announced earlier this month. As a non-combustion process, there is no ash, no slag, build up, or hotspots in the equipment.
BWXT) will build the first advanced nuclear microreactor in the United States under a contract awarded by the US Department of Defense (DoD) Strategic Capabilities Office (SCO). The fuel has been tested and verified to temperatures far exceeding the operating conditions of the reactor. BWX Technologies, Inc. Torch Technologies, Inc.
Sandia National Laboratories partnered with the Scripps Institution of Oceanography, the naval architect firm Glosten and the class society DNV GL to assess the technical, regulatory and economic feasibility of a hydrogen fuel-cell coastal research vessel. emissions from the Zero-V fueled with LH 2 from fossil natural gas (NG) would be 2.16
Building on a legacy of diesel engine partnership across a wide variety of mining and construction equipment, Cummins and Komatsu will initially focus on zero emissions power technologies including hydrogen fuel cell solutions for large mining haul truck applications.
Cepsa—the Spain-based multinational oil and gas company—will invest more than €3 billion to establish the Andalusian Green Hydrogen Valley, creating the largest green hydrogen hub in Europe in southern Spain. The company will build two plants with a total capacity of 2 GW to produce green hydrogen.
in conjunction with the Government of Canada and the Province of Alberta, announced a multi-billion dollar plan to build a landmark new net-zero blue hydrogen energy complex. The new facility will capture more than 95% of CO 2 produced by generating hydrogen from the feedstock natural gas and store it safely back underground (i.e.,
Rolls-Royce is launching a new leading-edge hydrogen program and also given a further update on its research into hybrid-electric power as it continues to pioneer new forms of aviation sustainability. Hybrid-electric and hydrogen power systems are also part of a regional aircraft research project underway with WiderØe and Embraer.
and HCS Group GmbH, a long-time customer of Gevo, have signed a project memorandum of understanding (MOU) to develop and to build a renewable hydrocarbon facility at HCS Group’s site located in Speyer, Germany, which would utilize Gevo’s low-carbon sustainable aviation fuel (SAF) technology: Alcohol-to-Jet Synthetic Paraffinic Kerosene.
Rolls-Royce has conducted successful tests of a 12-cylinder gas variant of the mtu Series 4000 L64 engine running on 100% hydrogen fuel. For several months, the mtu gas engine has been undergoing bench testing and continuous improvement in terms of efficiency, performance, emissions and combustion using 100% hydrogen as fuel.
Electricity sourced from sun and wind is used to split water into hydrogen and oxygen in a process called electrolysis. The hydrogen is stored and can be converted by fuel cells in vehicles back into electricity that powers them. We additionally want to supply electricity, gas and heat to industry.
Linamar Corporation has entered the evaluation phase for the first Fuel Cell Electric Vehicle Delivery Vans in their technology contract with the Center for Transportation and the Environment (CTE). The CARB Project includes developing, validating and deploying four fuel cell hybrid electric delivery vans. The new Gen 2.0
The Danish fuel cell manufacturer Blue World Technologies is developing a methanol fuel cell-powered auxiliary power unit (APU) to replace conventional diesel generators for power supply on board ships. Blue World methanol fuel cell-based Auxiliary Power Unit.
Able to convert waste heat directly into electrical power, the E-PowerPack uses Organic Rankine Cycle (ORC) technology to reduce ship fuel consumption and CO 2 emissions. Where heat pumps use electrical power to create thermal energy for various purposes, an ORC system uses heat energy to generate electricity.
Researchers led by a team at Washington State University (WSU) have developed a unique and inexpensive nanoparticle catalyst that allows a solid-oxide fuel cell to convert logistic liquid fuels such as gasoline to electricity without stalling out during the electrochemical process. —Qusay Bkour, lead author. Bkour et al.
SW/TCH Maritime (SW/TCH), an impact investment platform building the first fleet of zero-emissions maritime vessels in the US, announced its investment to construct and own the ‘Water Go Round’ e-ferry in collaboration with Golden Gate Zero Emission Marine ( GGZEM ), a provider of turn-key hydrogen fuel cell power systems for ships.
UGI Corporation has entered into a 15-year agreement with California-based technology developer Vertimass to utilize their catalytic technology to produce renewable fuels from renewable ethanol in the US and Europe. The technology enables flexible production of the renewable fuels to align with regional market demand.
Ballard Power Systems will provide six FCmove-HD fuel cell modules to power two B-train tractor-trailer trucks as part of a C$15 million (US$11.2 The 3-year project also will investigate the potential to significantly reduce greenhouse gas emissions and airborne pollutants in Alberta’s freight transportation sector. million (US$5.4
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