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Yara signed a contract with Linde Engineering for the construction and delivery of a green hydrogen demonstration plant at Yara’s ammonia production facility at Herøya Industripark in Porsgrunn, Norway. Green ammonia is the key to reducing emissions from world food production and long-distance shipping.
The technology group Wärtsilä and Norwegian ship owner Eidesvik Offshore ASA have signed a cooperation agreement aimed at converting an offshore supply vessel (OSV) to operate with an ammonia-fueled combustion engine with required fuel supply and safety system. The conversion will allow the vessel to operate with a 70% ammonia blend.
Rock Tech Lithium intends to build Europe’s first lithium converter—a production plant for battery-grade lithium hydroxide—in Guben, Brandenburg, Germany. The converter is scheduled to start operations in 2024. The company intends to locate all production steps of lithium refining in one overall plant at the Guben site.
Scottish Enterprise, Transport Scotland and the Hydrogen Accelerator, based at the University of St Andrews, have appointed Arcola Energy and a consortium of industry leaders in hydrogen fuel cell integration, rail engineering and functional safety to deliver Scotland’s first hydrogen powered train.
a designer and manufacturer of electrolyzers, recently signed a memorandum of understanding (MoU) with Black & Veatch, a global engineering, procurement, consulting and construction company, to offer a complete and integrated solution for producing large-scale green hydrogen for industrial customers. Next Hydrogen Solutions Inc.,
Rolls-Royce and easyJet report the world’s first run of a modern aero engine on hydrogen. The ground test was conducted on an early concept demonstrator using green hydrogen created by wind and tidal power. Aviation H2.
The Yuchai YCK16H hydrogen-fueled engine was successfully ignited in Yulin, Guangxi. The engine, with a displacement of 15.93 liters and a maximum horsepower of 560 hp, is the largest hydrogen-fueled engine with the largest displacement and horsepower in China.
Ricardo has developed a hydrogen-fueled research engine which could offer a renewable, economic and durable technology solution to accelerate zero-carbon emissions in heavy duty trucks, off-highway machines and marine vessels. —Adrian Greaney, Director of Technology and Digital at Ricardo Automotive and Industrial EMEA Division.
The Abfallentsorgungs-Gesellschaft Ruhrgebiet mbH ( AGR ), a waste management company in Herten, North Rhine-Westphalia, Germany, has put a converted DAF CF 340 hydrogen fuel cell truck into operation as part of the EU-funded HECTOR (Hydrogen Waste Collection Vehicles in North West Europe) project.
Researchers from the University of Houston, with colleagues at the University of São Paolo in Brazil, have demonstrated how copper-resistant bacterium from a copper mine in Brazil convert CuSO 4 (copper sulfate) ions into zero-valent Cu (metallic copper). An open-access paper on their research is published in Science Advances. Gracioso et al.
Vitesco Technologies, formerly (until September 2019) the Continental Powertrain Division, has won a major contract from an European vehicle manufacturer for the supply of innovative electric heating elements for diesel catalytic converters. —Rolf Brück, head of Catalytic Converters and Filters at Vitesco Technologies.
Just a few months into a joint innovation project ( earlier post ), engineers from Bosch Engineering and Ligier Automotive have built a high-performance vehicle with a hydrogen engine. The vehicle features a V6 hydrogen engine and a carbon monocoque that integrates three 700-bar type IV hydrogen cylinders from Hexagon Purus.
The German Federal Ministry for Digital and Transport (BMDV) approved the funding application for the consortium research project HyCET (Hydrogen Combustion Engine Trucks) led by the BMW Group. The research project aims to demonstrate the sustainability potential of trucks with hydrogen combustion engines for transport logistics.
Ultra Safe Nuclear Corporation (USNC), a US-based vertical integrator of nuclear technologies and services, Hyundai Engineering and SK E&C are teaming up to conduct research and development for carbon-free hydrogen production. It is also participating in a government-led green hydrogen production demonstration project.
Diamond Green Diesel facility in Norco, La., Diamond Green Diesel is owned by Valero Energy Corp. The Diamond Green Diesel facility converts inedible oils and other waste fats into a high-quality renewable diesel fuel. and Darling Ingredients Inc., Ecofining unit.
Chemical engineers at UNSW Sydney and University of Sydney have developed a hybrid plasma electrocatalytic process for the production of sustainable (“green”) ammonia. Hybrid plasma-electrochemical technology for green ammonia production. The NO x intermediaries were converted to ammonia at a rate of 23.2 kWh/mol NH 3.
University of Queensland researchers, working in collaboration with the Technical University of Munich (TUM), have found a way to convert sugarcane into isobutanol— a building block of aviation fuel and other products—more efficiently. An open-access paper on the work is published in Chemistry - a European Journal.
Researchers at the University of Southampton have transformed optical fibers into photocatalytic microreactors that convert water into hydrogen fuel using solar energy. This as an ideal example of chemical engineering for a 21 st century green technology. —Dr Matthew Potter, Chemistry Research Fellow and lead author.
Washington State University researchers have developed an innovative way to convert waste polyethylene plastic to ingredients for jet fuel and other valuable products, making it easier and more cost-effective to reuse plastics. In the recycling industry, the cost of recycling is key. —Jia et al.
Enel Green Power, through its North American renewable subsidiary Enel Green Power North America, Inc. The project, which is expected to be operational in 2023, will convert renewable energy from one of EGPNA’s solar plants in the United States into green hydrogen to be supplied to a bio-refinery.
The EU-funded HyMethShip project developed a system that innovatively combined a membrane reactor, a CO 2 capture system, a storage system for CO 2 and methanol as well as a hydrogen-fueled combustion engine to power ships. The bottom part shows how hydrogen for the engine is obtained from methanol in the reactor (blue arrow).
The technology group Wärtsilä has received its first order for newbuild methanol-fueled engines. A new Offshore Wind Installation Vessel (WIV) being built for Dutch contracting company Van Oord at Yantai CIMC Raffles shipyard in China will be powered by five Wärtsilä 32 engines capable of operating with methanol. Source: Wärtsilä.
Airbus is developing a hydrogen-powered fuel cell engine. Airbus will start ground and flight testing this fuel cell engine architecture onboard its ZEROe demonstrator aircraft towards the middle of the decade. A hydrogen gas turbine can also be coupled with fuel cells instead of batteries in a hybrid-electric architecture.
Hydra Energy, the Hydrogen-as-a-Service (HaaS) provider for commercial fleets looking to reduce emissions and costs with limited risk and no up-front investment ( earlier post ), has delivered its first hydrogen-converted, heavy-duty truck to paying fleet customer Lodgewood Enterprises. And we've lowered our fuel costs in the process.
—Zetian Mi, professor of electrical and computer engineering at the University of Michigan, who led the study. When 10% of the light energy is converted to chemical energy, he hopes that the technology could see the technology be adopted for renewable energy, similar to solar cells. 2121174119.
Raven SR plans to use INNIO’s Jenbacher engines [60 Hz] with a “Ready for H2” option to produce renewable energy. At the site, landfill gas (LFG) will be the primary fuel to provide power for the non-combustion process that converts waste to hydrogen. The type 4 engines are already available today to run on 100% hydrogen.
At bauma—the world’s leading construction machinery trade fair—in Munich, Bosch placed particular emphasis on the potential for hydrogen engines and electrification to make the sector significantly more sustainable. When driven by green hydrogen, these powertrains are virtually climate-neutral.
Empa, together with FPT Motorenforschung AG Arbon, Politechnico di Milano, lubricant manufacturer Motorex and other partners, is exporing the use of DME as a fuel for heavy-duty engines. A DME test engine has been in operation on a dynamometer in Empa’s Automotive Powertrains Technologies Laboratory. Image: Empa. —Patrik Soltic.
An open-access paper on their results is published in the journal ACS Sustainable Chemistry & Engineering. estimated that with conversion by hydrothermal liquefaction (HTL) and upgrading, the wet waste resource availability in the United States could be converted to jet fuel that is equivalent to about 24% of the U.S. Skaggs et al.
A team of scientists from LanzaTech, Northwestern University and the Department of Energy’s Oak Ridge National Laboratory have engineered a microbe to convert molecules of industrial waste gases, such as carbon dioxide and carbon monoxide, into acetone and isopropanol (IPA). auto cell.
Cummins has begun testing a hydrogen-fueled internal combustion engine. Cummins is thrilled about the potential of the hydrogen engine to reduce emissions and provide power and performance for customers. —Srikanth Padmanabhan, President of the Engine Segment. We are optimistic about bringing this solution to market.
WinGD will supply 10X92DF-M methanol-fuelled engines to four 16,000 TEU container vessels to be built for COSCO SHIPPING Lines at COSCO Shipping Heavy Industry (Yangzhou) Co. These vessels will be delivered from 2025 and will feature WinGD’s first X92DF-M engines in China. Earlier post.)
Williams Advanced Engineering: final iteration of prototype WAE battery pack incorporating dedicated cell packaging for optimum centre of gravity, vehicle control unit, DCDC converter, integrated cooling, charge port, and styled carbon covers.
MAN Engines recently put its first two dual-fuel hydrogen-powered engines for work boats into serial operation. The engines are twelve-cylinder diesel engines of type MAN D2862 LE448, each with an output of 749 kW (1019 hp) at 2100 rpm. —Werner Kübler, Head of Development at MAN Engines. Hydrocat engine room.
Infinium Electrofuels technology converts carbon dioxide waste and renewable power through its proprietary process to create hydrogen-based alternatives to traditional fossil-based fuels. Electrofuels are ultra-low carbon drop-in fuels that can be used in today’s infrastructure and engines without modifications or upgrades.
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.
Researchers from Newcastle University in the UK have engineered Escherichia coli bacteria to capture carbon dioxide using hydrogen gas to convert it into formic acid. The research, accepted for publication in Applied and Environmental Microbiology raises the possibility of converting atmospheric CO 2 to commodity chemicals.
ClearFlame Engine Technologies, a a startup developing net-zero engine technology ( earlier post ), successfully completed an on-road demonstration of its proprietary technology that enables a heavy-duty truck diesel engine to operate on low-carbon and carbon-negative fuels, including 100% renewable plant-based fuels.
The BMW M Hybrid V8 is powered by the P66/3 eight-cylinder turbo engine with supplementary electric drive. The combustion engine is based on the DTM unit used in the BMW M4 DTM in 2017 and 2018. BMW M Hybrid V8 engine. That saved us time and a lot of money and was therefore efficient and sustainable.
Aviation H2 has commenced testing on a Swiwin SW170b-2448 turbine, using jet A fuel to develop the baseline data required to compare the engine’s performance once they convert it to a carbon-free fuel. Swiwin SW170b-2448 jet engine. —Aviation H2 Director & Principal Engineer, Helmut Mayer.
LanzaTech UK and direct air capture technology company Carbon Engineering have partnered on a project to create sustainable aviation fuel (SAF) using atmospheric carbon dioxide (CO 2 ). The ethanol will then be converted into SAF using the LanzaJet Alcohol-To-Jet technology, developed by LanzaTech and Pacific Northwest National Laboratory.
Bosch Engineering and Ligier Automotive have established a strategic partnership for developing high-performance hydrogen engine vehicles. A converted standard V6 gasoline engine is used as the drive. In particular, this involves the engine, the hydrogen storage tank, and a holistic safety concept for the hydrogen.
Volkswagen continues to refine its most important diesel engine, the 2.0-liter The four-cylinder TDI engine with the internal designation EA 288 made its debut in 2012. The four-cylinder TDI engine with the internal designation EA 288 made its debut in 2012. The engine was also prepared for integration into a mild hybrid system.
Cummins will provide hydrogen fuel cell electric powertrains integrated into selected OEM partners’ heavy-duty trucks for Air Products, as Air Products begins the process of converting its global fleet of distribution vehicles to hydrogen fuel cell vehicles.
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