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SINTEF, one of Europe’s largest independent research organizations, has been working with Asko and hydrogen fuel for almost ten years with the aim of reducing goods vehicle emissions. In February, Asko will be operating four trucks running on hydrogen fuel. In addition to solar, Asko is a major industrial wind power producer.
Partners from Germany and Finland in the SOLETAIR project are building a compact pilot plant for the production of gasoline, diesel and kerosene from solar energy, regenerative hydrogen and carbon dioxide. An electrolysis unit developed by Lappeenranta University of Technology (LUT) produces the required hydrogen by means of solar power.
Texas-based Nacero, a company seeking to produce low- and zero-lifecycle carbon footprint gasoline blendstock ( earlier post ) has awarded a subsidiary of NextEra Energy Resources, LLC a 20-year power purchase agreement to supply wind power to Nacero’s planned flagship manufacturing facility in Penwell, Texas. Renewable power procurement.
DG Fuels (DGF), a provider of cellulosic drop-in sustainable aviation fuel (SAF), signed a multi-year SAF offtake agreement with Air France KLM for up to 60,408 metric tons (21 million gallons) per year from DGF’s initial plant to be located in Louisiana. Schematic of DGFuels Sustainable Aviation Fuel Process.
Energy Vault, a company developing grid-scale gravity energy storage solutions, has entered into an energy storage system agreement with DG Fuels, a developer of renewable hydrogen and biogenic-based, synthetic sustainable aviation fuel (SAF) and diesel fuel. DG Fuels expects to complete its Louisiana SAF project by mid-2022.
Extracting energy from the wind causes climatic impacts that are small compared to current projections of 21 st century warming, but large compared to the effect of reducing US electricity emissions to zero with solar. They find that large-scale wind power generation would warm the Continental United States 0.24 degrees Celsius.
It is, however, a challenge that is being made all the greater as we continue to decentralize power generation with more distributed, variable and inflexible sources, such as wind and solar. Increasingly, wind and solar are replacing fossil fuels as our principle source of energy.
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. Hydrogen as part of the renewable electricity system of the future.
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 a commentary in the journal Joule , Rob McGinnis, founder and and CEO of Prometheus , a company that is developing technology to remove carbon dioxide from the air and turn it into fuels, discusses the technology advances that could lead to the potential price-competitiveness of renewable gasoline and jet with fossil fuels.
In early 2020, EODev and TME Fuel Cell Business integrated Toyota’s leading fuel cell technology in the Energy Observer boat, ahead of its Atlantic and Pacific Ocean crossings. This marked Toyota’s expansion into a new business area where it has become a fuel cell technology supplier and integrator. Earlier post.)
Suncor Energy, a Canadian integrated energy company that is one of the top oil sands producers in the country, will strengthen its focus on hydrogen and renewable fuels to accelerate progress towards its objective to be a net-zero company by 2050. Suncor also plans to divest its wind and solar assets.
Following the start of series production of fuel cells in December 2022, the Danish fuel cell developer and manufacturer Blue World Technologies is now launching the CellPack Stationary, a methanol fuel cell-based power generator. When powered by renewable methanol, CellPack Stationary has carbon-neutral operation.
Mexico-based global construction materials company CEMEX is partnering with integrated chemicals and energy company Sasol ecoFT and renewable energy company ENERTRAG to combine CO 2 with hydrogen to produce sustainable aviation fuel. The consortium will source green hydrogen generated exclusively from wind and solar energy from ENERTRAG.
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.
DG Fuels, LLC (DGF), a developer of sustainable aviation fuel (SAF) facilities ( earlier post ), announced the successful closing of investment transactions with two Japanese companies. The basis of DGF’s integrated fuel and energy technology is the proven Fischer-Tropsch process, in use for more than 60 years.
The ICCT has conducted a comprehensive global and temporal life-cycle assessment of GHG emissions from a variety of alternative passenger car powertrains and fuels. This study considers the fuel and electricity consumption in average real-world usage instead of solely relying on official test values. Source: The ICCT.
The methanol will be targeted for export and domestic use, especially for ships, heavy-duty engines and fuel cells. That is, for the replacement of grey hydrogen (produced from fossil fuels) with green hydrogen (produced by renewables) in sectors where it is currently used, such as fertilizers, methanol or refineries.
One path to achieving this is with renewable synthetic fuels (e-fuels). Bosch outlines seven reasons why renewable synthetic fuels should be part of tomorrow’s mobility mix: Time. Renewable synthetic fuels have long since left the basic research phase. Incentives could come from fuel quotas, offsetting CO?
Wind and solar generated more electricity than fossil fuels in the EU during the first six months of 2024 for the first time ever in a half-year period.
A team at Argonne National Laboratory’s Systems Assessment Center has evaluated the well-to-wheel (WTW) greenhouse gas (GHG) emissions of Fischer–Tropsch (FT) fuels produced via various electrolytic H 2 pathways and CO 2 sources; using various process designs (i.e., Zang et al. —Zang et al. 0c05893.
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. MHPS gas turbines have more than 3.5 and Hitachi, Ltd.
US electric power sector CO 2 emissions have declined 28% since 2005 because of slower electricity demand growth and changes in the mix of fuels used to generate electricity, according to the US Energy Information Administration (EIA). If electricity demand had continued to increase at the average rate from 1996 to 2005 (1.9%
An analysis of near-term spending plans on renewables by the biggest oil and gas companies shows that real investments in renewable energy will continue to pale in comparison to capex plans for greenfield fossil fuel projects. Equinor has announced plans to invest $10B into clean energy by 2025, mostly through its offshore wind portfolio.
A team at the University of Delaware has demonstrated a direct ammonia fuel cell (DAFC) prototype with a peak power density of 135 mW cm -2 at 80 ?C. Together, these applications leave a substantial fraction of transportation energy usage dependent on chemical fuels. A paper on the work is published in the journal Joule. Zhao et al.
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.
In AW-Energy’s concept, wave energy complements solar power production to enable large-scale green hydrogen. Our WaveRoller process enables a green hydrogen plant to achieve much higher production capacities at reduced costs by complimenting wave energy with solar or wind. —Christopher Ridgewell, CEO of AW-Energy Oy.
Phil Ansell, an aerospace engineer at the University of Illinois Urbana-Champaign, modeled the life cycle carbon dioxide equivalent emissions of liquid hydrogen production required to meet the fuel needs of Chicago’s O’Hare International Airport (ORD) with today’s electric grid mix. Ansell presented his findings at AIAA Aviation 2023 in June.
Seeking to slash CO 2 emissions from its North American manufacturing operations, Honda has entered into long-term virtual power purchase agreements (VPPAs) for renewable wind and solar power that will cover more than 60% of the electricity that Honda uses in North America. will deliver to the grid by the end of 2020.
The demonstration plant will produce green MCH by combining the medium-sized electrolyzer with a 250-kilowatt solar power system in Queensland, which is ideal for solar power generation. The electrolyzer realizes increased efficiency in MCH production with electrodes which are nearly the largest by size that is used industrially.
Toyota Motor North America is collaborating with the US Department of Energy’s (DOE’s) National Renewable Energy Laboratory (NREL) to build, install and evaluate a 1-megawatt (MW) proton exchange membrane (PEM) fuel cell power generation system at NREL’s Flatirons Campus in Arvada, Colorado. This 3-year, $6.5-million This 3-year, $6.5-million
Grid access and capacity issues, as well as the infeasibility of on-site solar and wind, is a barrier for EV charging in many locations. It operates at high temperatures—above the temperature for spontaneous reaction from any fuel—to enable combustion without a flame. —IPG CEO Toby Gill.
In countries that choose to continue or increase their use of nuclear power, it can reduce reliance on imported fossil fuels, cut carbon dioxide emissions and enable electricity systems to integrate higher shares of solar and wind power. However, a new era for nuclear power is by no means guaranteed.
A team at MITEI (MIT Energy Initiative) has found that hydrogen-generated electricity can be a cost-competitive option for backing up wind and solar. Applying the model, they found that the average LCOE associated with meeting this seasonal imbalance is $2400/MWh using a HFGT fueled with green hydrogen and $3000/MWh using a LI.
For the implementation of a sustainable energy economy, the greatest challenge is the weather-depending, fluctuating electricity production of wind and solar power plants. Hydrogen can directly be stored, transported, and reconverted into electricity in a fuel cell.
Operation with the knock-resistant fuel CNG enables a higher 12.5:1 Average NEDC fuel consumption for the four-cylinder is 3.6 – 3.5 The fuel level in the tanks and consumption in the respective operating mode are displayed in the digital instrument cluster. The two filler necks are placed under a common fuel flap.
The recent increase in natural gas or dual-fuel capable reciprocating internal combustion engine units has been driven in part by advancements in engine technology that increase operational flexibility and by changes in natural gas markets that have generally provided ample supply and relatively stable fuel prices, EIA said.
Partners of the P2X Kopernikus project on the premises of Karlsruhe Institute of Technology (KIT) in Germany have demonstrated the production of fuel from air-captured CO2 using—for the first time—a container-based test facility integrating all four chemical process steps needed to implement a continuous process.
Furthermore, when hydrogen is produced using renewable energy sources such as wind, solar, geothermal, and biomass, CO 2 emissions are minimized during the production process as well. Hydrogen can be used to generate electricity in fuel cell systems and can also be used as a combustion fuel.
PowerCell Sweden AB has signed a memorandum of understanding with ABB Power Grids regarding a collaboration around fuel cell based zero emissions stationary power solutions. PS-100 can be connected in parallel, which facilitates a high power output, for example to generate electricity by integration with solar or wind power.
Solid-oxide-fuel-cell manufacturer Bloom Energy is entering the commercial hydrogen market by introducing hydrogen-powered fuel cells and electrolyzers that produce renewable hydrogen. Bloom Energy announced in June 2019 that its fuel cells could run on hydrogen to generate zero-carbon electricity.
Hydrogen produced with renewable electricity could compete on costs with fossil fuel alternatives by 2030, according to a new report from the International Renewable Energy Agency (IRENA). A combination of falling costs for solar and wind power, improved performance as well as economies of scale for electrolyzers could make it possible.
The demonstration trial will support the promotion of green e-methanol and green mobility in Europe as well as preparations for the safe introduction of e-methanol fuel in the EU. Denmark has been a global leader in sustainability, and has pledged to reduce its carbon emissions by 70% by 2030.
Honda last week announced key targets for sales of electrified vehicles in North America, with a plan to make battery-electric and fuel cell electric vehicles (BEVs and FCEVs) to represent 100% of its vehicle sales by 2040, progressing from sales of 40% by 2030 and 80% by 2035. Fuel Cell Technology.
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