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Inspired by naturally occurring processes, a team of Boston College chemists used a multi-catalyst system to convertcarbon dioxide to methanol at the lowest temperatures reported with high activity and selectivity. Methanol is a promising renewable fuel that can be adapted to the current liquid fuel infrastructure.
Strategic Biofuels announced that its Carbon Capture and Sequestration (CCS) Test Well Program was successfully completed at the company’s Louisiana Green Fuels Project (LGF) in Caldwell Parish, Louisiana. LGF is the first renewable diesel fuel project to achieve this milestone.
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. demand in 2016. GLE and $0.9/GLE. Meanwhile, the plant size has a great impact on the MFSP. 1c06561.
GCEH will immediately commence retooling the refinery to produce renewable diesel from organic feedstocks such as vegetable oils. The balance of feedstock will be provided from various non-petroleum renewable feedstocks, such as used cooking oil, soybean oil, distillers’ corn oil, and others. a Primoris Services Corp subsidiary.
As a result, Argent has offset more than 97 million pounds of carbon from the atmosphere and removed a half-million pounds of trash from the streets of Oakland, California. Now, Argent has switched its fleet from petroleum diesel to Neste MY Renewable Diesel. We absolutely love the renewable nature of this product. <>/div>.
Anheuser-Busch is transitioning more than 180 trucks—representing approximately 30% of its dedicated fleet—to Renewable Natural Gas (RNG). In 2014 and 2015, Anheuser-Busch converted 160 diesel-fueled trucks in Houston and St. Louis to fleets powered by Compressed Natural Gas (CNG) engines. million miles each year.
OXCCU, a company spun-out from the University of Oxford in 2021 that is focused on convertingcarbon dioxide and hydrogen into industrial and consumer products ( earlier post ), completed an £18-million (US$22.8 million) Series A financing round.
Carbon transformation company Twelve and biotechnology company LanzaTech have transformed CO 2 emissions into ethanol as a part of an ongoing research and development partnership. Our process aims to rebalance the overabundance of carbon in our environment and instead reuse it for meaningful applications.
Greenergy will invest in Front End Engineering Design (FEED) of a project to produce low-carbon transportation fuels from waste tires. In the first phase, the planned facility will process up to 300 tons of shredded tires each day to produce low-carbon, low-sulfur drop-in fuels that can be blended into diesel and gasoline.
Biofuels producer Renewable Energy Group joined Iowa State University (ISU) at the BioCentury Research Farm (BCRF) to mark the start of a new hydrotreater pilot plant. REG converts waste and byproduct fats and oils into biodiesel and renewable diesel.
Researchers at the Department of Energy’s Pacific Northwest National Laboratory have developed a new method to convert captured CO 2 into methane, the primary component of natural gas. Different methods for converting CO 2 into methane have long been known. —Heldebrant et al.
The electrocatalytic conversion of CO 2 using renewable energy could establish a climate-neutral, artificial carbon cycle. However, the electrocatalytic formation of products with two or more carbon atoms (C 2+ ) is very challenging. These could then be burned as needed. and Xiong, Y.
The decarbonization of the transportation sector will require large volumes of renewable fuels. So far, renewable diesel and jet fuels are mainly derived from plant oils, but the EU Renewable Energy Directive limits the use of biofuel from food and feed crops since they do not meet sustainability requirements when produced at large scale.
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.
The Front-Loading Net Zero report states that electricity production costs could be reduced by up to 50% by 2050 if countries and states adopt 100% renewable systems faster than currently planned. Utilities should keep repeating steps 1 - 3 until their systems run on 80 – 90% renewables.
GTI has released a site-specific engineering design titled “ Low-CarbonRenewable Natural Gas (RNG) from Wood Wastes ”. GTI led a team of engineers and scientists to produce a blueprint for converting an existing biomass facility into an RNG production site, using the wood waste feedstock and some of the existing infrastructure.
Johnson Matthey has launched HyCOgen, a technologyt designed to play a pivotal role in enabling the conversion of captured carbon dioxide (CO 2 ) and green hydrogen into sustainable aviation fuel (SAF).
Researchers at the University of Southampton have transformed optical fibers into photocatalytic microreactors that convert water into hydrogen fuel using solar energy. Alongside hydrogen generation from water, the multi-disciplinary research team is investigating photochemical conversion of carbon dioxide into synthetic fuel.
Researchers at Linköping University, Sweden, are attempting to convertcarbon dioxide to fuel using energy from sunlight. Recent results have shown that it is possible to use their technique selectively to produce methane, carbon monoxide or formic acid from carbon dioxide and water.
Aemetis, a renewable fuels company focused on negative carbon intensity products ( earlier post ), has signed a 10-year, 450-million-gallon renewable diesel supply agreement with an industry-leading travel stop company, which is expected to generate more than $3 billion in revenue. Combined with $2.1
Stora Enso is investing €10 million to build a pilot facility for producing bio-based carbon materials based on lignin. Wood-based carbon can be utilized as a crucial component in batteries typically used in consumer electronics, the automotive industry and large-scale energy storage systems.
Phillips 66, a diversified energy manufacturing and logistics company, plans to reconfigure its San Francisco Refinery in Rodeo, California, to produce renewable fuels. The Phillips 66 Rodeo Renewed project would produce 680 million gallons annually of renewable diesel, renewable gasoline, and sustainable jet fuel.
Chevron is complementing the strength of its traditional products business with new offerings that help customers support a lower carbon future, and renewable natural gas is a part of its portfolio of solutions. Chevron has seen strong demand for our RNG-to-CNG fuel offering from new and existing customers.
The US Department of Energy (DOE) is awarding $35 million to 15 research projects through ARPA-E’s “Energy and Carbon Optimized Synthesis for the Bioeconomy” (ECOSynBio) program to decarbonize biorefining processes used across the energy, transportation, and agriculture sectors. Carbon-Negative Chemical Production Platform - $4,160,262.57.
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.
The plant will produce carbon-neutral fuel—enough to decarbonize more than 400,000 vehicles annually. eFuels are produced by combining green hydrogen made from renewable power and recycled carbon dioxide. Topsoe will deliver technology to HIF Global’s (HIF) planned eFuels facility in Texas. Earlier post.)
Once built, the facility will be among the largest in Europe to produce sustainable aviation fuel (SAF) and renewable diesel made from waste. Hydrogen and high-pressure steam are then used in the production process to convert oils into fuels (hydroprocessing), helping to reduce the fuel’s carbon intensity.
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. Then add carbon. Finally, combine CO? a liter (US$5.00 to US$5.84
Infinium Electrofuels technology convertscarbon 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.
Vertimass and European Energy have completed a Letter of Intent (LOI) to integrate technologies for capturing carbon dioxide and converting it into hydrocarbon products around the world. Many countries are beginning to mandate that a percentage of jet fuel used by commercial airlines comes from renewable sources.
The US Department of Energy (DOE) will award up to $24 million for research into technology that captures carbon emissions directly from the air, replicating the way plants and trees absorb CO 2. ( DOE supports the search for carbon removal solutions at both the basic and applied science levels. DE-FOA-0002481 ).
Researchers at the Weizmann Institute of Science in Rehovot, Israel have created a strain of the bacterium Escherichia coli that grows by consuming carbon dioxide instead of sugars or other organic molecules. The findings point to means of developing, in the future, carbon-neutral fuels. Ron Milo of the Weizmann Institute.
Infinium Electrofuels have the potential to help investor Amazon and other companies to decarbonize their operations and meet their net-zero carbon goals. Infinium’s proprietary Electrofuels process convertsrenewable power into green hydrogen, then uses this green hydrogen and waste carbon dioxide to produce net-zero carbon fuels.
Landsvirkjun , The National Power Company of Iceland, and German investment company PCC SE have agreed to explore the possibility of capturing and utilizing carbon emissions from PCC’s silicon metal plant in northeast Iceland. Carbon emissions will be utilized to produce green methanol that can, for example, replace fossil fuel in ships.
US production capacity for renewable diesel could increase significantly through 2024, based on announced projects and those that are under construction, according to the US Energy Information Administration (EIA). As of the end of 2020, we estimate US production capacity for renewable diesel totaled nearly 0.6
The National Renewable Energy Laboratory (NREL) has released a comprehensive vision for deeply decarbonizing transportation. The transportation sector is the largest source of greenhouse gas emissions in the United States, accounting for about 28% of total carbon emissions. The collective knowledge and expertise at NREL is astounding.
Ørsted, the world’s leading offshore wind developer, together with the major industrial companies in the North Sea Port cluster, have launched the SeaH2Land vision for a gigawatt scale project to reduce carbon emissions in the Dutch-Flemish industrial cluster with renewable hydrogen.
Oberon Fuels, producer of clean-burning dimethyl ether (DME) transportation fuel, has begun production of the first renewable DME (rDME) in the United States, and the only current commercial production of this in the world. Once delivered, rDME can be converted to renewable hydrogen at the point of use.
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). —Jennifer Holmgren, CEO of LanzaTech.
The Port of Antwerp is converting a tug to methanol propulsion. The consortium aims to demonstrate the feasibility of renewable methanol as a future-proof fuel for carbon-neutral shipping. The European Commission approved the project this week.
Raven SR , a renewable fuels company, and Hyzon Motors Inc., At the hubs, which can be built at or near landfills, Raven SR will convert mixed and multiple organic wastes, including municipal solid waste, greenwaste, food waste, medical, paper, etc. tons of renewable green hydrogen, enough to power 100 heavy-duty commercial vehicles.
Researchers used reductive etherification chemistry to convert alcohol and ketone substrates derived from microbial carboxylic acids into an ether bioblendstock for use when blended into conventional diesel fuel. Production of renewable diesel bioblendstocks through reductive etherification of alcohols and ketones. Hafenstine et al.
tonne bowser has been converted from a standard truck to use hydrogen dual fuel, an approach that allows fleet managers to transition more quickly to low carbon operation. Based on an average duty cycle, the new ULEMCo vehicle is expected to deliver a 33% reduction in carbon emissions. 350 bar refueling pressure nozzle.
Carbon Recycling International (CRI) and Johnson Matthey (JM) have agreed on a long-term exclusive catalyst supply agreement for the use of JM’s KATALCO methanol catalysts in CRI’s Emissions-To-Liquids (ETL) CO 2 -to-methanol plants. Hydrogen can also be processed from by-product hydrogen available in some industrial waste streams.
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