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The US National Energy Technology Laboratory (NETL) is collaborating with the University of Kentucky and their subcontractor Virginia Tech to demonstrate a novel process for the extraction of REEs from coal using plasma. However, domestic coal is of interest as a potentially abundant and easily accessible REE source in the US.
The US Department of Energy (DOE) intends to provide up to $100 million in awards ( DE-FOA-0002116 ) for the Coal FIRST (Flexible, Innovative, Resilient, Small, and Transformative) initiative (announced in November 2018), which aims to develop coal plants of the future that will provide secure, stable, reliable power with near-zero emissions.
The amount of methane released into the atmosphere as a result of coal mining is likely approximately 50% higher than previously estimated, according to research presented at the recent annual meeting of the American Geophysical Union. The authors point out that less coal production doesn’t translate to less methane.
Coal trains and terminal operations add a significant amount of fine particulate matter (PM 2.5 ) pollution to urban areas—more so than other freight or passenger trains— according to a study conducted in Richmond, California, by the University of California, Davis. The results indicate coal trains add on average 8.32
A new study of the impact of high EV adoption on the Western US power grid by a team from Pacific Northwest National Laboratory (PNNL) has found that 2028 grid resource adequacy—from generation through transmission—is likely to be sufficient for high EV penetration. million for the WECC.
million in federal funding to 32 cost-shared research and development (R&D) projects for advanced coal technologies and research under six separate funding opportunity announcements (FOAs). The first funding opportunity award is for $10 million for ten projects under DE-FOA-0001992, Maximizing the Coal Value Chain.
Researchers at The Ohio State University have developed a novel process to clean coal mine drainage and extract rare-earth elements from it. Coal mine drainage (CMD) impairs tens of thousands of kilometers of U.S. CMD, coal mine drainage; TEP, trap-extract-precipitate. —Miranda et al. Miranda et al. Miranda, Jeffrey M.
Coal and coal production waste contain a wide variety of valuable rare earth elements that can be converted into clean energy technology components. The US currently has more than 250 billion tons of coal reserves, more than 4 billion tons of waste coal, and about 2 billion tons of coal ash at various sites across the country.
DICE involves converting coal or biomass into a water-based slurry (called micronised refined carbon, MRC) that is directly injected into a large, specially adapted diesel engine. The project is supported by industry partners including Exergen, Ignite Energy Resources, AGL, MAN Diesel & Turbo and EnergyAustralia.
The US Department of Energy’s (DOE) Office of Fossil Energy and Carbon Management (FECM) has announced up to $6 million available ( DE-FOA-0002620 ) for research and development (R&D) projects that will repurpose domestic coalresources for products that can be employed in clean energy technologies such as batteries and advanced manufacturing.
World energy consumption projections expect coal to stay one of the world’s main energy sources in the coming decades, and a growing share of it will be used in CT—the conversion of coal to liquid fuels (CTL). By 2020, CTL is expected to account for 15% of the coal use in China. —Wang et al.
Phase 1 applications for two areas of interest (AOI) are being sought at this time: AOI 1: Advanced Process Development for Production of Rare Earth Metals (REM) and Co-Production of Critical Minerals (CM) from Coal-Based and Alternate Resources.
The largest drop in emissions in 2012 came from coal, which is used almost exclusively for electricity generation. During 2012, particularly in the spring and early summer, low natural gas prices led to competition between natural gas- and coal-fired electric power generators. Lincoln F.
In association with researchers from the Department of Energy’s National Energy Technology Laboratory (NETL) and analysts at mining consultancy Weir International, metallurgical coal producer Ramaco Resources released an independent Exploration Target report with technical assessment of rare earth elements (REE) found at its Brook Mine in Wyoming.
powered down the final coal power plant In 2017 the U.K. set a goal of 2025 for the end of coal use The U.S. is working on increasing the use of renewable resources The U.K.
million contract to sample and characterize US coal-based resources containing high concentrations of rare earth elements (REEs). The university will also perform a round-robin inter-laboratory study on the analytical methods used to measure the concentration of REEs in US coal-based resources.
Ramaco Carbon is partnering with Oak Ridge National Laboratory to develop new, large-scale processes for making graphite from coal. The conversion of coal to higher value materials, such as graphene, graphite or carbon nanotubes, is of high interest, and a number of researchers have proposed processes.
Awardees will receive approximately $16 million to advance the gasification process, which converts carbon-based materials such as coal into syngas for use as power, chemicals, hydrogen, and transportation fuels. Advanced Gasifier and Water-Gas Shift Technologies for Low-Cost Coal Conversion to High-Hydrogen Syngas. TDA Research Inc.,
Topsoe has designed the methanation section of this plant, which is the company’s second large-scale coal-based industrial SNG reference to begin operations in China following last years’ opening of Qinghua, the world’s largest SNG plant located in the Xinjiang region. Block diagram with major units of an SNG plant. Click to enlarge.
While the number of new clean power-generating plants completed stayed flat year-to-year, the volume of power derived from coal surged to a new high, according to Climatescope , an annual survey of 104 emerging markets conducted by research firm BloombergNEF (BNEF). thousand terawatt-hours in 2018, up from 6.4 thousand in 2017.
San Juan River-Raton-Black Mesa Basin (Arizona, Colorado and New Mexico): New Mexico Institute of Mining and Technology plans to determine the rare earth elements and critical minerals resource potential in coal and related stratigraphic units in the San Juan and Raton basins in New Mexico. DOE Funding: $1,204,129.
Runoff from pavement with coal-tar-based sealant is the primary source of toxic polycyclic aromatic hydrocarbons (PAHs) to streambed sediments in Milwaukee, Wisconsin, according to a US Geological Survey and Milwaukee Metropolitan Sewerage District open-access study published in the journal Environmental Toxicology and Chemistry. Baldwin, A.
million in federal funding to develop conceptual designs of commercially viable technologies that will extract rare earth elements (REEs) from US coal and coal by-product sources. Energy Fuels Resources (Lakewood, CO). Texas Mineral Resources Corp (Sierra Blanca, TX). BioCarbon Technologies LLC (Missoula, MT).
The lab’s flash Joule heating process, introduced several years ago to produce graphene from any solid carbon source ( earlier post ), has now been applied to three sources of rare earth elements—coal fly ash, bauxite residue and electronic waste—to recover rare earth metals. —Deng et al. We have mountains of it.
The US Department of Energy’s (DOE) Office of Fossil Energy (FE) has selected four projects for cost-shared research and development under the funding opportunity announcement (FOA), DE-FOA-0002180, Design Development and System Integration Design Studies for Coal FIRST Concepts.
The Gold Hydrogen Program , a coalition of organizations seeking to support the scale of this clean energy resource, announced its launch and the debut of a pilot microbial Gold Hydrogen Process. Found naturally deep in the Earth, “gold hydrogen” is a resource that is produced biologically and in the subsurface.
“Blue” hydrogen—produced through steam methane reforming (SMR) of natural gas or coal gasification, but with CO 2 capture and storage—is being described as having low or zero carbon emissions. Carbon dioxide emissions, including emissions from developing, processing, and transporting the fuels, are shown in orange.
The Department of Energy (DOE) is funding six research and development projects that will repurpose domestic coalresources for high-value graphitic products and carbon-metal composites that can be employed in clean energy technologies. Earlier post.) Understanding ultra-conductive carbon metal composite wire for electric motors.
Texas Mineral Resources Corp. TMRC’s project partners include Penn State, Jeddo Coal Company and McCarl’s. This is the fourth US Government award relating to the production of rare earth minerals in which Texas Mineral Resources has participated. The award value is approximately $1.1
million tons of standard coal and emission of 8.16 Compared with fossil-fuel energy of the same scale, it is equivalent to reducing standard coal consumption by 40.32 The electricity generated by a Hualong One unit is an equivalent to reducing the consumption of 3.12 million tons and reducing carbon dioxide emissions by 105.44
The US Department of Energy’s (DOE) National Energy Technology Laboratory (NETL) has found high rare earth element (REE) concentrations in coal samples taken from the Illinois, Northern Appalachian, Central Appalachian, Rocky Mountain Coal Basins, and the Pennsylvania Anthracite region.
Even if you have 100 percent capture from the capture equipment, it is still worse, from a social cost perspective, than replacing a coal or gas plant with a wind farm because carbon capture never reduces air pollution and always has a capture equipment cost. Only when wind replaced coal itself did social costs decrease.
million barrels per day from 2010 to 2040, including the production of both petroleum (crude oil and lease condensate, natural gas plant [NGPL], bitumen, extra-heavy oil, and refinery gains), and other liquid fuels (coal-to-liquids [CTL], gas-to-liquids [GTL], biofuels, and kerogen). million barrels per day.
Unlike exhaust from burning coal and gas that contains CO 2 , burning hydrogen emits only water vapor and oxygen. —Dr Sand Resources Sand, M., A study led by Norwegian climate center CICERO has found that the global warming effect of leaked hydrogen is almost 12 times stronger than that of CO 2. Skeie, R.B., Sandstad, M.
The notion there is to create a “CO 2 -free hydrogen chain” in which hydrogen is produced in a resource producing country such as Australia; shipped to Japan via tanker and then distributed via trucks and large-scale stationary tanks; and then used for industrial, transportation and power generation applications. Resources.
The Hydrogen Energy Supply Chain ( HESC ) project will convert brown coal from the AGL Loy Yang mine into hydrogen at an adjacent site and then transport the gas by road in high pressure tube trailers to a liquefaction terminal at the Port of Hastings. J-Power will use its gasification technology for gasification of brown coal.
Simplified flowsheet of the proposed solar hybridized coal- to-liquids (SCTL) process with the proposed solar hybridized dual fluidized bed (SDFB) gasifier. Hence, it is desirable to seek alternative concepts with potential to address these challenges for the solar hybridized coal-to-liquids (SCTL) process. Credit: ACS, Guo et al.
Zeolite A was selected because of its thermal and structural stability, and in addition, it is currently being cheaply produced from coal fly ash (CFA), which hitherto is the waste product of combustion of coal in coal-fired power stations with about 800 million tons per annum CFA production. Resources. Ayodele, Hazzim F.
Electric vehicles charged in coal-heavy regions can create more human health and environmental damages from life cycle air emissions than gasoline vehicles, according to a new consequential life cycle analysis by researchers from Carnegie Mellon University. That’s why the shift away from coal is so important for EVs. Jeremy Michalek.
The Executive Board of thyssenkrupp AG has released the corresponding capital resources for the construction of the first direct reduction (DR) plant at its Duisburg site. As part of its tkH2Steel transformation project, coal-based blast furnaces will be replaced by hydrogen-powered direct reduction plants.
Energy Information Administration (EIA) revealed that the United States generated more electricity from renewable energy sources than coal last year. However, renewable power capacity will vary depending on resource availability. Meanwhile, natural gas, coal, and nuclear generation shares have declined. Data from the U.S.
The amended bill, now called the “American Taxpayer Relief Act of 2012” and next to be considered by the House, contains 12 extensions outlined in Title IV of the bill, ranging from extension of production credits for Indian coal facilities to benefits for alternative fuels (including algal biofuels) and plug-in vehicles.
The Cínovec project, located on the German border of the Czech Republic, is the largest hard-rock lithium resource in Europe, containing lithium-bearing mica known as zinnwaldite. Cínovec is also the fourth-largest non-brine lithium deposit in the world and is also a globally significant tin resource. EZ’s current lignite needs.
trillion in 2010) would be required to overcome poverty; increase food production to eradicate hunger without degrading land and water resources; and avert the climate change catastrophe. The reports estimates that incremental green investment of about 3% of world gross product (WGP) (about $1.9
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