This site uses cookies to improve your experience. To help us insure we adhere to various privacy regulations, please select your country/region of residence. If you do not select a country, we will assume you are from the United States. Select your Cookie Settings or view our Privacy Policy and Terms of Use.
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Used for the proper function of the website
Used for monitoring website traffic and interactions
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Strictly Necessary: Used for the proper function of the website
Performance/Analytics: Used for monitoring website traffic and interactions
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) announced up to $64 million in federal funding for cost-shared research and development (R&D) projects under the funding opportunity announcement ( DE-FOA-0002057 ), “Critical Components for Coal FIRST Power Plants of the Future.”. —Assistant Secretary for Fossil Energy Steven Winberg.
The Funding Opportunity Announcement ( DE-FOA-0000703 ) for the awards is soliciting applications for R&D in two specific Areas of Interest: laboratory scale liquids production and assessment; and a feasibility study for a coal-biomass to liquids facility. Feasibility Study for a Coal-Biomass to Liquids Facility.
The US Department of Energy (DOE) has issued a funding opportunity announcement ( DE-FOA-0000784 ) for up to $13 million to support the development of advanced coal gasification systems. AOI 1: Coal Feed Technologies - Low-rank Coal Feed or Coal-woody Biomass Feed Technologies. poplar, pine and hardwoods]).
Arizona Public Service’s ongoing algae-based carbon mitigation project, previously selected via competitive solicitation, will be expanded to include testing with a coal-based gasification system. The process aims to minimize production of carbon dioxide when gasifying coal. Funding for the project expansion falls under the ARRA’s $1.52
The US Department of Energy (DOE) has selected 8 research projects for funding that will focus on gasification of coal/biomass to produce synthetic gas (syngas) as a pathway to producing power, hydrogen, fuel or chemicals. will blend coal and biomass to develop a feedstock for co-gasification. Clean Coal Briquette Inc.
The US Department of Energy has issued up to a $5-million Funding Opportunity Announcement (DE-FOA-0000103) to solicit laboratory-level R&D projects to develop novel technologies for producing hydrogen from coal. have led to the need for alternative methods of producing hydrogen from coal-based facilities.
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.,
The US Department of Energy (DOE) in partnership with the US Air Force has issued a request for information (RFI)— DE-FOA-0000981 —on research & development aimed at greenhouse gas emissions reductions and cost competitiveness of Mil-Spec jet fuel production using coal-to-liquid (CTL) fuel technologies. Information Request.
Looking at end use, hydrogen from coal is dirtier than coal combustion. “Blue” hydrogen production facilities using coal or fossil fuels, such as. The Senate votes to reel in an EV tax credit expansion, although it might not mean much yet. And Mini shows how stripped-down it can get with an EV.
The US Department of Energy (DOE) selected eight projects to advance the development of transformational oxy-combustion technologies capable of high-efficiency, low-cost carbon dioxide capture from coal-fired power plants. The boiler concept should allow for a more compact combustor with reduced gas-phase heat exchanger surface area.
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.
Our compact fusion concept combines several alternative magnetic confinement approaches, taking the best parts of each, and offers a 90 percent size reduction over previous concepts. Our concept has no coils surrounded by plasma and solves the problem.). Resources. Sutherland et al. 2014.03.072.
Clariant and Siemens Fuel Gasification Technology will cooperate in the commercialization of a new, jointly developed sour gas shift (SGS) (sulfur removal) technology for coal gasification. The entrained-flow Siemens Fuel Gasifier (SFG) is able to produce syngas from a wide range of fuels, even for low ranks of coal.
BG Group has approved implementation of the first phase of a US$15-billion project to convert coal seam gas (CSG) to LNG—the first major commercial project to do so. Total gross discovered coal seam gas reserves and resources presently amount to an estimated 17.3 Coal seam gas and LNG. Source: QCLNG EIS. Click to enlarge.
The US Department of Energy’s National Energy Technology Laboratory (NETL) has issued a new Funding Opportunity Announcement (FOA) soliciting research projects that will address key challenges related to the utilization of coal-biomass mixtures for co-production of power and hydrogen, fuels, and/or chemicals.
The US Naval Research Laboratory (NRL) is partnering with a power company to apply its pulsed electron beam technology to reduce NO x emissions from coal-fired power plants. The concept is to inject electron beams into the exhaust of a fossil fuel power plant and, firing them in pulses, break apart the NOx bonds. —John Sethian.
At the Geneva Auto Show, the China-based Hybrid Kinetic group unveiled the H600 microturbine range-extended electric vehicle sedan concept, produced together with its vehicle design and engineering partner, Pininfarina. The 60 kW microturbine range extender delivers 40% efficiency, low emissions, and a 10000-hour maintenance interval.
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.
These penalties can add as much as 80’ to the cost of electricity for a new pulverized coal plant. The projects, managed by FE’s National Energy Technology Laboratory include: Linde LLC: Slipstream Pilot Scale Demonstration of a Novel Amine-Based Post-Combustion Process Technology for CO 2 Capture from Coal-Fired Power Plant Flue Gas.
Concept of the service and mobile app for renewable charging. According to the US Energy Information Administration (EIA), US electricity generation in 2010 was 70% fossil fuels (coal 44.9%, natural gas 23.8%); 20% nuclear; and 10% renewable, of which 6.2% Click to enlarge. was conventional hydropower. Wind accounted for 2.3%.
It aims to replace coking coal, traditionally needed for iron ore-based steelmaking, with fossil-free electricity and hydrogen. This steel will be used for testing purposes and may be used in a concept car. HYBRIT was started by SSAB, iron ore producer LKAB and energy firm Vattenfall.
As part of its tkH2Steel transformation project, coal-based blast furnaces will be replaced by hydrogen-powered direct reduction plants. Thus, the Duisburg steelworks is continuing to boil steel as in the past—but with hydrogen and green power instead of coal. —Martina Merz, CEO of thyssenkrupp AG.
TMRC’s project partners include Penn State, Jeddo Coal Company and McCarl’s. In 2019 a consortium including Texas Mineral Resources consortium successfully completed a US Department of Energy Office of Fossil Energy grant to produce multiple separated rare earth minerals from Pennsylvania coal mining waste material.
The US Department of Energy (DOE) announced up to $30 million to help lower the costs of the onshore production of rare earths and other critical minerals and materials from domestic coal-based resources. ( However, rare earth elements occur naturally, including in domestic coal and coal wastes.
DOE is currently targeting transformational technologies that by 2030 will support a new coal-fired power plant with CO 2 capture with a cost of electricity at least 30% lower than a supercritical, pulverized-coal plant with CO 2 capture, or approximately $30 per tonne of CO 2 captured. hollow-fiber, spiral wound, shell-and-tube, etc.)
Survey results for favorable impressions of energy and environmental concepts. A survey of more than 1,000 US adults about their views on 12 energy and environmental concepts found that 79% of consumers have a favorable view of solar energy, and 75% have a favorable view of wind energy. Clean Coal: 47%. Source: Pike Research.
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. Click to enlarge.
KHI has previously discussed the concept of such a hydrogen-carrying vessel as part of its Business Vision 2020. KHI is envisioning gasifying Australian brown coal (with carbon capture and sequestration) to produce the hydrogen, followed by liquefaction and shipment via the LH 2 tankers. Click to enlarge.
AHEAD’s polygeneration concept for ammonia and hydrogen fuels for developing countries. The AHEAD concept for bringing power to off-grid areas in Africa is to make modest use of renewables where it makes sense, and to drive mass deployment of ammonia and hydrogen along with small engine generators, microturbines and fuel cell systems.
The selection of the two projects is part of the third round of the Clean Coal Power Initiative (CCPI). The CCPI is a cost-shared collaboration between the federal government and private industry to increase investment in low-emission coal technology by demonstrating advanced coal-based, power generation technologies.
The team first used chemical looping on coal and shale gas to convert fossil fuels into electricity without emitting carbon dioxide into the atmosphere. The researchers later applied the concept to hydrogen sulfide and invented the SULGEN process, which converts hydrogen sulfide into hydrogen.
The traditional process of producing ammonia has used “grey” or “black” hydrogen from either natural gas or coal. million) proof-of-concept facility showcased an ammonia-based energy storage system that turned electricity, water and air into ammonia without releasing carbon emissions. million (US$1.8-million)
The 1,000 wind turbines that the spheres could anchor could, on average, replace a conventional on-shore coal or nuclear plant. Ocean Renewable Energy Storage (ORES) System: Analysis of an Undersea Energy Storage Concept,” Proceedings of the IEEE , vol. Slocum, A.H.; Fennell, G.E.; Hodder, B.G.; Meredith, J.D.C.; Sager, M.A.,
Previously, the DICP team proposed a new catalyst concept based on metal oxide-zeolite (OXZEO) bi-functional catalysts. The OXZEO concept provided a new technology platform for the highly efficient utilization of coal and other carbon resources. Direct syngas conversion to isoparaffin-rich gasoline over OXZEO catalyst.
MBD Energy (MBD) recently committed to purchase an initial OriginOil extraction unit for piloting at one of Australia’s three largest coal-fired power plants. acre) proof of concept facility to become fully commercial facilities. acre) proof of concept facility to become fully commercial facilities. Earlier post.)
Our Carbon2Chem concept has shown that it is possible to use steel mill gases for the production of various chemicals and thus achieve a circular carbon economy. In the chemical industry, synthesis gases have so far been obtained from fossil fuels such as natural gas or coal.
biomass, coal, petroleum coke, and wastes) for the production of an ultra-clean syngas. OmniGas has been demonstrated at bench-scale and is now on track for a one ton per day (tpd) prototype demonstration, using coal and biomass as the feedstock, in mid-2010.
If the US military increases its use of alternative jet and naval fuels that can be produced from coal or various renewable resources, including seed oils, waste oils and algae, there will be no direct benefit to the nation’s armed forces, according to a new RAND Corporation study. —Alternative Fuels for Military Applications.
With its versatile properties, steel is nevertheless one of the key materials for automotive manufacturing and will be no less important for future vehicle concepts and generations. This manufacturing process has significant potential for CO 2 savings, compared to coal-based steel production in a blast furnace.
Large scale production of methanol from natural gas and coal is a well-developed. Sufficient feedstock of natural gas and coal exists to enable the use of non-renewable methanol as a transition fuel to renewable methanol from biomass, they suggested. Methanol from non-renewable coal or natural gas could be used as a bridging.
In February of this year, the Gas Technology Institute (GTI) prepared a report for PERC analyzing the viability of the concept of synthetic and/or. propane derived from non-petroleum fossil fuels : natural gas, coal or petroleum coke) based on technical and economic analyses of various promising technologies. infrastructures (e.g.,
The primary purpose of this effort is to demonstrate the separation of hydrogen from coal (or coal-biomass) derived syngas via membranes at the pre-engineering/pilot scale. Hydrogen can be utilized in combustion turbines and stationary and mobile fuel cell applications with the only emission being water.
billion grant is for “Carbon Capture and Sequestration from Industrial Sources and Innovative Concepts for Beneficial CO 2 Use”. The FOA is seeking proposals for projects in two specific Technology Areas: (1) Large-scale industrial CCS projects from industrial sources and (2) Innovative concepts for beneficial CO 2 use. Earlier post.)
We organize all of the trending information in your field so you don't have to. Join 5,000+ users and stay up to date on the latest articles your peers are reading.
You know about us, now we want to get to know you!
Let's personalize your content
Let's get even more personalized
We recognize your account from another site in our network, please click 'Send Email' below to continue with verifying your account and setting a password.
Let's personalize your content