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(SES), a global energy and gasification technology company that provides products and solutions to the energy and chemicals industries, has entered into a Technical Study Agreement with Ambre Energy of Australia to supply a proprietary gasification design to support Ambre’s development of a planned Coal to Liquids Project (ambreCTL).
For the study, they define EVs as including both battery-electric (BEV) and plug-in hybrid electric (PHEV) vehicles. Understanding these linkages provides a basis for developing energy strategies with consideration of cost, technology, and policy goals. EV adoption links the electricity system with the transportation system.
UC Berkeley chemists created the first such carbon-capture MOF in 2015, and subsequent versions have proved even more efficient at removing carbon dioxide from flue gases, such as those from a coal-fired power plant. The lowcost of porous melamine means that the material could be deployed widely.
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.
Herein, we demonstrate a sulfur looping scheme in a one-reactor system using a low-cost and environmentally safe iron-based sulfur carrier. The team first used chemical looping on coal and shale gas to convert fossil fuels into electricity without emitting carbon dioxide into the atmosphere. —Jangam et al.
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. DOE Investment: $1,000,000; Recipient Cost-Share: $391,000. Babcock & Wilcox Power Generation Group.
The least expensive way for the Western US to reduce greenhouse gas emissions enough to help prevent the worst consequences of global warming is to replace coal with renewable and other sources of energy that may include nuclear power, according to a new study by University of California, Berkeley, researchers. —Daniel Kammen.
Overview of the bluegas catalytic coal methanation process. By adding a catalyst to the coal gasification system, GreatPoint Energy is able to reduce the operating temperature in the gasifier, while directly promoting the reactions that yield methane, (CH 4 ). Click to enlarge.
The study, which is authored by researchers from seven universities, several national laboratories and federal government bodies and other organizations, is published in the journal Science. Modeling has shown climate benefits from coal to NG switching for power generation over all time periods (i.e., Alvarez et al. number of devices).
The five different fuel groups were those derived: from conventional petroleum; from unconventional petroleum; synthetically from natural gas, coal, or combinations of coal and biomass via the FT process; renewable oils; and alcohols. For CTL, life-cycle GHG emissions would roughly double.
Together with Fluor, we plan to use our in-house expertise, intellectual property, and operations experience and to complete the study, which we are hopeful, could form the basis of a technology, equipment and services supply business to meet this growing need. The study is expected to last four months.
The US Department of Energy (DOE) will award up to $14 million to six projects aimed at developing technologies to lower the cost of producing electricity in integrated gasification combined cycle (IGCC) power plants using carbon capture. EPRI will team with Dooher Institute of Physics and Energy, Worley Parsons Group, Inc.,
Increased availability of low CO 2 sources of electricity and hydrogen could counter-intuitively delay, rather than accelerate, a large-scale transition to an electric and/or hydrogen vehicle fleet, according to a new study by researchers from Ford Motor Company and Chalmers University of Technology in Sweden. Wallington et al.
The projects conducted through this program are geared toward reducing the cost of coal conversion and mitigating the environmental impacts of fossil-fueled power generation. Bio-gasification of Coal to Methane. DOE: $876,293 Non DOE: $219,074 Total: $1,095,367 (20% cost share). Lead organization. Description.
Oxford Resource Partners, LP, a low-cost producer of high-value steam coal in Northern Appalachia and the Illinois Basin, and Mendel Biotechnology, Inc. Oxford markets its coal primarily to large electric utilities with coal-fired, base-load scrubbed power plants under long-term coal sales contracts.
The 100-year global warming potentials (GWPs) for methane, CO, and NO x (per Tg N) as given in the AR4 and in this study when including no aerosol response; the direct radiative effect of aerosol responses; and the direct+indirect radiative effects of aerosol responses. Source: Shindell at al. Click to enlarge. —Drew Shindell.
A team from Saudi Aramco Research and Development Center has developed a novel low-cost, high-octane gasoline blend component it calls SuperButol. It is mandated for use in gasoline in many countries. This blending component could be used on its own or with other octane boosters such as MTBE.
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.
The purpose of the FOA is to advance the reliability, robustness and endurance of low-cost solid oxide fuel cell (SOFC) technology suitable for ultimate deployment in equal to or greater than (?) CCRP has recently established new goals for coal power with carbon capture. is anticipated in order to meet the program goals.
In this initial study phase, GE and CPECC will evaluate the cost and performance of an IGCC design. Gasification technology has become a critical tool in the expansion of the Chinese economy, allowing a wide variety of industrial products and fuels to be created from low-cost, abundant coal resources.
The US Department of Energy (DOE) has selected 7 projects that will help develop low-cost solid oxide fuel cell (SOFC) technology for central power generation from fossil energy resources for further research. Four of the selected projects will pursue advances in cathode performance, enabling higher efficiency, lower cost systems.
These types of studies aid in understanding the geology of oil-bearing formations, which is useful in the search for new deposits as well as in assessing the potential for exploitation of proven reserves.
air emissions and oil displacement benefits) in the near term per dollar spent than PHEVs and battery-electric vehicles (BEVs) with large battery packs providing longer electric range, according to a new study by Carnegie Mellon University’s Jeremy J. Michalek and colleagues. —Michalek et al. Policy implications.
The US Department of Energy has selected 13 projects for investment of up to $62 million over five years to research, develop, and demonstrate Concentrating Solar Power (CSP) systems capable of providing low-cost electrical power. Concentrating Solar Power Component Feasibility Studies. PPG Industries, Inc. SkyFuel, Inc.
The falling cost of making hydrogen from wind and solar power offers a promising route to cutting emissions in some of the most fossil-fuel-dependent sectors of the economy, such as steel, heavy-duty vehicles, shipping and cement, according to a new report from BloombergNEF (BNEF). MMBtu) in 2050. —Kobad Bhavnagri. ,”.
CO 2 CirculAir’s a smart-buffer system assures a continuous 24h/d CO 2 absorption and enables the use of low-cost electricity for regeneration at moments of surplus or by direct use of electricity from solar cells or wind turbines. Lapwing Energy Limited, “Reverse Coal”. Project Funding: £2,941,301.44.
The legislation directs the Department of Energy to conduct five “Mini-Manhattan Projects” to study carbon capture technologies, non-ethanol biofuels, electric vehicles and electricity storage, cost-competitive solar power, and Generation IV reactors and technologies that will ultimately reduce nuclear waste. . $50
West Virginia University (WVU) researchers are opening a new facility to capture rare earth elements (REEs) from acid mine drainage (AMD) from coal mining. It follows on an earlier, phase-one project , worth $937,000, to study acid mine drainage as feedstock for rare-earth extraction. —Paul Ziemkiewicz.
and the remainder (30 to 40%) from burning fossil fuels, such as coal, to heat the kiln reactors to ~900°C.Here we show a new thermal chemistry, based on anomalies in oxide solubilites, to generate CaO, without CO2 emission, in a high throughput, cost effective, environment conducive to the formation of cement. The CO is produced.
An interim report with some of this study’s major findings and recommendations was released in June 2010. High-level findings of the MIT study include: There are abundant supplies of natural gas in the world, and many of these supplies can be developed and produced at relatively lowcost. Click to enlarge.
The critical barrier to wider deployment of electric vehicles is the high cost and low energy of today’s batteries. This ARPA-E program seeks to develop a new generation of ultra-high energy density, low-cost battery technologies for long range plug-in hybrid and all-electric vehicles. A123 Systems, Rutgers University).
Electric Power Research Institute (EPRI) and partners will perform a pre-front end engineering design (pre-FEED) study on the integration of a 10 MWhe (megawatt-hour electricity) SandTES pilot system into Alabama Power’s Ernest C. Gaston Electric Generating Plant in Wilsonville, Alabama. WE New Energy Inc.
Under this cost-shared research and development (R&D), DOE is awarding $51 million to nine new projects for coal and natural gas power and industrial sources. These efforts aim to design initial engineering studies to develop technologies to capture CO 2 generated as a byproduct of manufacturing at industrial sites.
Eagle Picher, in partnership with the Pacific Northwest National Laboratory, will develop a new generation of high energy, lowcost planar liquid sodium beta batteries for grid scale electrical power storage applications. LowCost, High Energy and Power Density, Nanotube-Enhanced Ultracapacitors. DOE grant: $7,200,000).
Although climate mitigation remains the motivation for global investments in NETs, the committee that carried out the study and wrote the report determined that advances in NETs also could have economic rewards, as intellectual property rights and economic benefits will likely accrue to the nations that develop the best technology.
C-Capture uses new amine-free solvent materials for CO 2 capture with superior performance characteristics, whilst maintaining lowcost for commercial viability". It will examine the potential of a new form of carbon capture, post combustion on biomass, rather than coal.
Authorizes the Environmental Quality Commission (EQC) to develop a low carbon fuel standard that would sunset in 2015. Requires that new electricity sources must be as least as clean as natural gas plants, effectively blocking new development of conventional coal. Senate Bill 38. House Bill 2626.
RTI will assess the feasibility of producing valuable chemicals, such as carbon monoxide, by reducing CO 2 using abundant low-value carbon sources, such as petcoke, sub-bituminous coal, lignite, and biomass, as the reductant. In collaboration with 3H Company (Lexington, Ky.),
As described in an open-access paper in the journal Advanced Energy Materials , the new system is designed to fit into coal-, gas-, or biomass-fired power plants, as well as cement kilns and steel plants. The team brought the cost of capture down to $47.10 We looked at three CO 2 -binding solvents in this new study.
With the release, MITEI cautioned that the report is not a study. With the current fuel mix of the US power sector (about half coal, about 30% “carbon-free”), CO 2 emissions for HEVs and EVs are similar. lowcost is only achieved in large-volume, highly automated factories. —Deutch and Moniz.
SOFC technologies enable efficient, cost-effective electricity generation from abundant domestic coal and natural gas resources, with minimal use of water and near-zero atmospheric emissions of carbon dioxide and pollutants. Sputtered Thin Films for Very High Power, Efficient, and Low-Cost Commercial SOFCs.
The projects will develop technologies for use in a new generation of advanced turbines that operate using coal-derived synthesis gas (syngas) and high hydrogen content (HHC) fuels. The failure mechanism of the new TBC/bond coat architecture will also be studied to further improvement of TBC lifetimes. Earlier post.).
The 400 kilowatt SOFC prototype system represents an important advancement in SOFC technology development and demonstration toward the ultimate goal of deploying SOFCs in highly efficient coal-based central generation systems with carbon capture. DOE: $200,000 Non DOE: $91,152 Total: $291,152 (31% cost share). Redox Power Systems, LLC.
IFP Energies nouvelles (IFPEN) and its subsidiary Axens have formed a strategic alliance to develop and to commercialize a new technology for the lowcost production of bio-based benzene, toluene and paraxylene using Anellotech’s process of Catalytic Fast Pyrolysis (CFP) of non-food biomass. Anellotech Inc., Earlier post.).
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