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Global industrial software and technology leader Emerson announced a multi-year strategic framework agreement with BayoTech, a developer of modular steam methane reformers (SMRs) and other hydrogen solutions, to accelerate the delivery of hydrogen around the world.
Stuart Licht have demonstrated the first facile high-yield, low-energy synthesis of macroscopic length carbon nanotubes (CNTs)—carbon nanotube wool—from CO 2 using molten carbonate electrolysis ( earlier post ). The process is constrained by the (low) cost of electricity. —Johnson et al.
Heliogen’s AI-enabled concentrated solar energy system is designed to create carbon-free steam, electricity, and heat from abundant and renewable sunlight. When combined with Bloom’s proprietary solid oxide, high-temperature electrolyzer, hydrogen can be produced 45% more efficiently than low-temperature PEM and alkaline electrolyzers.
As the world looks to quickly decarbonize transportation and industry, hydrogen demand is expected to increase rapidly, from $130 billion today to $2.5 There is an accompanying need to develop new low-cost and low-carbon technologies for hydrogen production. T in 2025, according to the Hydrogen Council.
Canada-based Carbon Engineering Ltd. (CE) CE) has received equity investment from two global energy companies: Oxy LowCarbon Ventures, LLC (OLCV), a subsidiary of Occidental Petroleum Corporation; and Chevron Technology Ventures (CTV), the venture capital arm of Chevron Corporation. since 2015.
Using an inexpensive polymer called melamine, researchers from UC Berkeley, Texas A&M and Stanford have created a cheap, easy and energy-efficient way to capture carbon dioxide from smokestacks. We distinguished ammonium carbamate pairs and a mix of ammonium carbamate and carbamic acid during carbon dioxide chemisorption.
LeMond Composites, founded by three-time Tour de France champion Greg LeMond, has licensed a low-cost, high-volume carbon fiber manufacturing process developed at the US Department of Energy’s Oak Ridge National Laboratory (ORNL). Earlier post.)
As part of a larger £90 million (US$117 million) package of awards to cut carbon emissions in industry and homes, the UK is awarding £28 million (US$36.5 million) to five demonstration phase projects for low-carbon hydrogen production. HyNet – lowcarbon hydrogen plant. Contract value: £3.12 million (US$4.1
Methane derived from CO 2 and renewable H 2 sources is an attractive fuel, and it has great potential as a renewable hydrogen carrier as an environmentally responsible carbon capture and utilization approach. —Heldebrant et al. Different methods for converting CO 2 into methane have long been known.
AQDS undergoes extremely rapid and reversible two-electron two-proton reduction on a glassy carbon electrode in sulfuric acid. First, scalability: AQDS contains only the Earth-abundant atoms carbon, sulphur, hydrogen and oxygen, and can be inexpensively manufactured on large scales. —ARPA-E Program Director John Lemmon.
The Road Map stresses the versatility of hydrogen as an enabler of the renewable energy system; an energy vector that can be transported and stored; and a fuel for the transportation sector, heating of buildings and providing heat and feedstock to industry. The US is home to industrial sector leaders capable of scaling a hydrogen economy.
has developed a proprietary catalytic process that transforms low-cost commercially available, or even waste by-product, renewable alcohols into renewable isoprene that would be expected to compete head-to-head on price with natural and petroleum-based chemical equivalents while reducing CO 2 emissions.
At that temperature, Heliogen can replace the use of fossil fuels in critical industrial processes, including the production of cement, steel, and petrochemicals, dramatically reducing greenhouse gas emissions from these activities. Its heat technology represents a key technical breakthrough for concentrated solar thermal.
Start-up Power Japan Plus announced plans to commercialize a dual-carbon battery technology, which it calls the Ryden dual carbon battery. Dual-carbon (also called dual-graphite) batteries were first introduced by McCullough and his colleagues at Dow Chemical in a 1989 patent, and were subsequently studied by Carlin et al.
The companies are teaming to identify and implement clean hydrogen projects across the nuclear industry. Westinghouse and Bloom Energy will jointly develop an optimized and large-scale high-temperature integrated electrolysis solution for the nuclear industry. —Rick Beuttel, vice president, hydrogen business, Bloom Energy.
The UK government is awarding £54 million to 15 projects to develop technologies that remove carbon emissions from the atmosphere. The carbon dioxide can then be permanently stored or used in various products or applications. The biochar is rich in carbon and can be used as a fertilizer. Cambridge Carbon Capture Ltd.,
Kawasaki Heavy Industries, Ltd., jointly announced that, toward the achievement of carbon neutrality, they will take on the challenge of expanding fuel options through the use of internal combustion engines at the (three-hour) Super Taikyu Race in Okayama on 13-14 November. Participating in races using carbon-neutral fuels.
to pursue opportunities in large-scale, low-cost and permanent carbon capture and storage (CCS). Importantly, FPX will have the right to use any intellectual property developed by CO 2 Lock, further raising the potential for development of a low- or zero-carbon nickel mining operation at Decar. FPX Nickel Corp.,
IperionX Limited has agreed a Scope of Work (SoW) for the supply of titanium metal components for Ford Motor Company using IperionX’s 100% recycled, low-carbon titanium metal. This Ford SoW follows a detailed program of quality and strength testing of IperionX’s low-carbon, circular titanium metal.
Scientists from Stanford University, SLAC National Accelerator Laboratory and the Technical University of Denmark have identified a new nickel-gallium catalyst that converts hydrogen and carbon dioxide into methanol at ambient pressure and with fewer side-products than the conventional catalyst. You want to make methanol, not carbon monoxide.
Researchers at Stanford University, with colleagues at Oak Ridge National Laboratory and other institutions, have developed a nickel-based electrocatalyst for low-cost water-splitting for hydrogen production with performance close to that of much more expensive commercial platinum electrocatalysts.
The focus of the research project “MaSSiF – Material Innovations for Solid-State Sulfur-Silicon Batteries” is the design, construction and evaluation of lightweight and low-cost sulfur-based prototype cells with high storage capacities. The German Federal Ministry of Education and Research (BMBF) is providing nearly €2.9
LeMond Carbon announced the results of an independent technical audit conducted by Bureau Veritas (BV) of its carbon fiber manufacturing process. The audit was conducted on a pilot line at Deakin University’s Carbon Nexus facility in Geelong, Australia. From Bureau Veritas audit of LeMond’s carbon fiber manufacturing process.
The new funds will be used to scale-up manufacturing of a next-generation silicon-carbon composite anode material and advance into commercial production. Group14 Technologies—a 2016 spin-off from EnerG2—derives its name from the Periodic Table column listing both silicon and carbon (the carbon group).
These project teams will pursue methods to create high-value carbon and hydrogen from methane (four projects, $14.4 million), or to produce super strong, durable concrete with lower cost and environmental impact (3 projects, $6.1 High Value, Energy Saving Carbon Products and Clean Hydrogen Gas from Methane, $3,479,624.
million from the US Department of Energy (DOE) to develop and validate technology that will reduce the cost of manufacturing high-performance carbon fiber by 25% to make composite natural gas or hydrogen fuel tanks to power cars and trucks. The Institute for Advanced Composites Manufacturing Innovation (IACMI) will receive $2.7
Ultimately, SpinLaunch’s Orbital Accelerator will accelerate a launch vehicle containing a satellite up to 5,000 miles per hour using a rotating carbon-fiber-arm within a 300-ft diameter steel vacuum chamber. After full review, NASA and SpinLaunch will publish all non-proprietary launch environment information from the test flight.
This one-step nitrogen-fixation strategy to produce ammonia is eco-friendly and lowcost, which converts widely available starting materials into a value-added product. PNAS For more than a century, the world has relied on the Haber-Bosch process to yield ammonia in bulk; however, the industrial procedure is energy intensive.
The projects will feature collaborations with EERE’s Advanced Manufacturing Office on manufacturing reliable and affordable electrolyzers and with EERE’s Vehicle Technologies Office on developing low-cost, high-strength carbon fiber for hydrogen storage tanks. Carbon Composite Optimization Reducing Tank Cost.
million for the next phase of Gigastack, a new renewable hydrogen project, as part of the Department for Business, Energy and Industrial Strategy (BEIS) Hydrogen Supply Competition. Producing hydrogen has traditionally been associated with high carbon emissions, but by using renewable electricity—e.g., The UK has awarded £7.5
Methane, the key component in natural gas, is usually just burned for heat, combining with oxygen in the atmosphere to form carbon dioxide, the predominant greenhouse gas. For acetylene users, Transform Materials enables on-site production of this important precursor, guaranteeing surety of supply, conveniently and at lowcost.
Hydrogen Economy Outlook , a new and independent global study from research firm BloombergNEF (BNEF), finds that clean hydrogen could be deployed in the decades to come to cut up to 34% of global greenhouse gas emissions from fossil fuels and industry at a manageable cost. Abatement cost with hydrogen at $1/kg (7.4/MMBtu).
The major challenges for lithium production in this region relate to the harsh chemistry of the brine and the difficultly of developing a low-cost and highly selective process for lithium recovery. The new lithium recovery projects awarded funding are designed to help reduce costs and environmental impact.
The storage battery market is expected to continue growing in light of the spread of renewable energy and electrified vehicles, as well as the global trend toward carbon neutrality.
Carbon Clean, a developer of low-costcarbon capture technology, has entered into an agreement with power-to-fuels developer Liquid Wind. Carbon Clean’s technology will capture biogenic carbon dioxide emissions from a local industrial site. The partnership has ambitions for future sites.
Fulcrum BioEnergy, a clean energy company pioneering the creation of renewable, drop-in transportation fuels from landfill waste, successfully produced a low-carbon synthetic crude oil using landfill waste as a feedstock at its Sierra BioFuels Plant, the world’s first commercial-scale landfill waste-to-fuels plant.
The US Department of Energy (DOE) Energy Department (DOE) released a new report showing continued momentum and growth in the fuel cell industry. Fiscal year 2017 funding will also be targeted at the development of low-cost, high-strength precursors for carbon fibers that can be used in vehicular hydrogen storage vessels.
It is a strategy rooted in cross-cutting research and engineering to enable industry stakeholders, communities, government agencies, and early adopters to meet their climate goals. The transportation sector is the largest source of greenhouse gas emissions in the United States, accounting for about 28% of total carbon emissions.
The study, which provides a joint industry analysis of how different types of batteries are used in different automotive applications, concludes that lead-based batteries will by necessity remain the most wide-spread energy storage system in automotive applications for the foreseeable future.
The project would capture and send for storage up to two million tonnes of carbon dioxide (CO?) Industries in Teesside account for more than 5% of the UK’s industrial emissions and the region is home to five of the country’s top 25 emitters. —Dev Sanyal, bp’s executive vice president of gas and lowcarbon energy.
Nikola Corporation and KeyState Natural Gas Synthesis , a clean hydrogen and chemicals production facility under development, are working together to create Pennsylvania’s first low-carbon hydrogen production value chain, which includes full integration of commercial carbon capture and storage.
Part of CleanBC , the BC Hydrogen Strategy includes 63 actions for government, industry and innovators to undertake during the short term (2020-25), medium term (2025-30) and long term (2030 and beyond). Establishing ambitious carbon-intensity targets and a regulatory framework for carbon capture and storage.
million for technologies that produce low-cost, low-carbon biofuels. ( municipal solid waste, biosolids) into low-carbon biofuels and bioproducts. This FOA supports high-impact technology RDD&D to accelerate the bioeconomy and, in particular, the production of low-carbon fuels for the aviation industry.
Steel production could be made with almost no carbon emissions through $278 billion of extra investment by 2050, according to a new report from research firm BloombergNEF (BNEF). Steel is responsible for around 7% of man-made greenhouse gas emissions every year and is one of the world’s most polluting industries.
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