"According to the U.S. Energy Information Administration and the International Energy Agency, fossil fuels will continue to power our world well into the future. Therefore, it is our responsibility to ensure these fuels are utilized as cleanly and efficiently as possible," said Under Secretary of Energy Mark W. Menezes. "DOE's Carbon Utilization Program is investing in cutting-edge technologies to allow us to capture carbon oxides, which will reduce emissions, and then recycle them into economically valuable services like enhanced oil recovery or products like plastics and carbon fibers."
Projects resulting from this FOA will validate the concept, estimate the technology cost, and demonstrate that the carbon life cycle of the products offers a path toward an environmentally sustainable and economically viable product. The National Energy Technology Laboratory (NETL) will manage the selected projects.
Additional information, including a full list of the 11 funded projects is HERE. (Source: US DOE , PR, 16 June, 2020) Contact: US DOE Office of Fossil Energy Carbon Utilization Program, www.energy.gov/fe/carbon-utilization
More Low-Carbon Energy News DOE Office of Fossil Energy news, CCU news, Carbon Emissions news,
The project will focus on enhancing coordination between utilities and consumers and finding ways to connect distributed energy resources (DERs) like solar panels to local distribution networks by using digital identity and hardware created by NREL's Energy Systems Integration Facility (ESIF).
NREL plans to leverage blockchain to create a scalable solution for electricity feeders, which can be customized as desired. Currently, they are running a virtual pilot that connects electric vehicles, smart appliances, batteries, and other components, to a blockchain.
NREL is a member of Blockchain for Optimized Security and Energy Management (BLOSEM), and provides expertise on accelerating blockchain adoption in the energy sector.
The BLOSEM project is led by the National Energy Technology Laboratory (NETL) and is funded by the Grid Modernization Laboratory Consortium. (Source: NREL, COINGEEK, 30 May, 2020) Contact: NREL, Dane Christensen, email@example.com, www.nrel.gov;
Excelon, www.exeloncorp.com; Web Foundation, www.energyweb.org
More Low-Carbon Energy News National Renewable Energy Laboratory , NREL, Renewable Energy, Exelon, ,
For its scope of work, Fluor will leverage its proprietary Econamine FG Plus carbon capture technology -- an energy-efficient and cost-effective process for the removal of CO2 from flue gas streams. The process will incorporate Fluor's advanced solvent formulation together with a number of patented energy savings features.
The FEED is being funded by the U.S. DOE Office of Fossil Energy and managed by its National Energy Technology Laboratory (NETL) as part of a larger initiative to advance carbon capture technology development.
(Source: Fluor Corp., PR, Chem Engineering, 21 May, 2020) Contact: Fluor Corp., www.fluor.com; Minnkota Power Coop, 701-795-4000, www.minnkota.com
More Low-Carbon Energy News CCS, Project Tundra, Fluor,
On April 24, the U.S. DOE Office of Fossil Energy announced $131 million in grants for carbon capture, utilization and storage research and development. Five projects, including the one in Kemper County, were selected for funding. The other carbon capture projects receiving DOE grants include:
The projects will assess safe and cost-effective commercial scale geologic storage sites and examine the technological and economic viability of carbon capture or purification technologies and the National Energy Technology Laboratory will manage the selected projects.
The $7.5 billion Kemper County plant was originally intended to be fueled by synthesis gas produced from lignite coal and was to have to have removed 65 pct of the carbon emissions and other byproducts from the gas stream for sale to industrial customers. The plant was supposed to cost $2.4 billion, but the cost ballooned by 212.5 percent to $7.5 billion. (Source: U.S. DOE Office of Fossil Energy, Northside Sun, 27 May, (2020) Contact: U.S. DOE Office of Fossil Energy, www.energy.gov › office-fossil-energy
More Low-Carbon Energy News DOE Office of Fossil Energy news,
The three-year, $19.1 million project is the third phase under the DOE Carbon Storage Assurance Facility Enterprise (CarbonSAFE) initiative, which seeks to help mitigate CO2 emissions from consumption of fossil fuels. No CO2 will be injected during this stage. The Dry Fork Station project and others selected by the agency aim to develop integrated carbon capture and storage complexes that are constructed and permitted for operation between 2025 and 2030.
Over the next three years, the project partners intend to conduct rigorous, commercial-scale surface and subsurface testing, data assessment and modeling; prepare and file permits for construction with Wyoming's Department of Environmental Quality; integrate this project with a separately funded CO2 capture study by Membrane Technology and Research Inc. (MTR); and conduct the required National Environmental Policy Act analyses in support of eventual commercialization of the site. Other project participants include: Advanced Resources International Inc.; Carbon GeoCycle Inc.; Denbury Resources Inc.; Los Alamos National Laboratory; and Schlumberger. Other UW participants are the Enhanced Oil Recovery Institute, the College of Business and the College of Law.
The Powder River Basin produces about 40 pct of all coal consumed in the United States, and is also home to existing CO2 pipelines for oil and gas operations, including fields suitable for use of CO2 for enhanced oil recovery.
(Source: University of Wyoming, 23 April, 2020) Contact: University of Wyoming, Carbon Management Institute , Scott Quillinan, Project Manager, (307) 766-1121, www.uwyo.edu; Basin Electric Power, Paul Sukut, CEO, Matt Greek, Snr. VP Technology R&D, (701) 223-0441, www.basinelectric.com
More Low-Carbon Energy News Basin Electric, Carbon Storage, NETL, University of Wyoming,
"That further work means continued technology innovation. We have to keep finding and inventing solutions to the myriad of individual problems posed by the dual challenge. These different efforts -- both within and outside of our own research labs -- are all essential to moving us forward. They include the important renewables work being done with wind, solar and geothermal by so many around the world; they also include research focused on carbon capture technology and biofuels -- and everything in between. On ExxonMobil’s end, we are proud of our portfolio of innovative emission-lowering projects that have led to more than 10,000 patents in the last decade. Since 2000, we've spent $16.5 billion on this kind of R&D.
"Moving into 2020, we need to stay focused on several key themes related to solving the dual challenge: scale, speed, collaboration and training the next generation of scientists, engineers and other problem solvers. Scale is everything in our efforts. Reducing carbon emissions to fight climate change as we simultaneously deliver more and more energy to a growing world is a big job. And it's not just one job. As I said earlier this year, 'Not only are the sizes we are talking about so big they are sometimes unfathomable, but we must deploy solutions globally AND across countless end uses. It's not one equation with one unknown, but multiple equations with multiple unknowns.'
"As we work to solve for these multiple unknowns, we are pursuing projects big and small. What they share in common is the strict requirement that they must lead to a scalable solution. Energy is gigantic, from the infrastructure that supports it to the markets that drive its supply and demand. Any solution we find in the lab, however brilliant, must be ready to immediately scale.
"And it needs to happen quickly. As we know, scientific discovery is an ongoing endeavor -- you can't put a deadline on invention. But we can accelerate innovation. First, we can follow the example of parallel processing from computer science. In our labs, we don't wait for the basic science to be definitively 'concluded' (if it even can be). We start the engineering while we're still doing the science and iterate between the two. That requires collaboration between different types of researchers and innovators – between our corporate lab and government and academic labs, for example -- and that's the other way we speed up scalable solutions: with partnerships. Partnerships are a force multiplier. They are absolutely key when it comes to solving the dual challenge. When I look back on the past year, I am proud of the scope and variety of partnerships we undertook as a company. To name just a few:
(Source: ExxonMobil, PR, , 31 Dec., 2019) Contact: ExxonMobil,
Dr. Vijay Swarup, VP Research and Development , www.linkedin.com › dr-vijay-swarup-120a95159, (972) 444-1107, www.exxonmobil.com
More Low-Carbon Energy News Climate Change, ExxonMobil, Vijay Swarup ,
(Source: ExxonMobil, PR, , 31 Dec., 2019) Contact: ExxonMobil,
Dr. Vijay Swarup, VP Research and Development , www.linkedin.com › dr-vijay-swarup-120a95159, (972) 444-1107, www.exxonmobil.com
The project will provide critical data and insight into the transformative potential of ION's CO2 capture technology when deployed at existing coal-fired power plants.
ION Clean Energy is commercializing its proprietary liquid absorbent process and working with local and global partners to commercialize and deploy its CO2 capture technology. (Source: ION Energy, PR, 1 Oct., 2019) Contact: ION Clean Energy, Alfred "Buz" Brown, CEO, 303.997.7097, firstname.lastname@example.org,
, www.ioncleanenergy.com; Nebraska Public Power District, Pat Pope, CEO, Pres., www.nppd.com
More Low-Carbon Energy News Nebraska Public Power District, ION Clean Energy, Carbon Capture, CCS,
DOE's National Energy Technology Laboratory (NETL)will manage the selected projects.
(Source: US DOE, 20 Sept., 2019) Contact: US DOE Office of Fossil Energy, www.energy.gov/fe; NETL, www.netl.doe.gov
More Low-Carbon Energy News DOE Office of Fossil Energy, NETL, Coal, Clean Coal, US DOE,
These FOAs further the (Trump) Administration's commitment to strengthening coal while protecting the environment. Carbon capture, utilization, and storage (CCUS) is increasingly becoming widely accepted as a viable option for coal-fired energy sources or gas-fired power plants and other industrial sources to lower their CO2 emissions.
Under the first FOA award, Front-End Engineering Design (FEED) Studies for Carbon Capture Systems on Coal and Natural Gas Power Plants, DOE has selected nine projects to receive $55.4 million for cost-shared R&D. The selected projects will support FEED studies for commercial-scale carbon capture systems.
Under the second FOA award, Regional Initiative to Accelerate CCUS Deployment, DOE selected four projects to receive up to $20 million for cost-shared R&D. The projects also advance existing R&D by addressing key technical challenges; facilitating data collection, sharing, and analysis; evaluating regional infrastructure; and promoting regional technology transfer.
Under the new FOA, , DOE is announcing up to $35 million for cost-shared R&D projects that will accelerate wide-scale deployment of CCUS through assessing and verifying safe and cost-effective anthropogenic CO2 commercial-scale storage sites, and carbon capture and/or purification technologies. These types of projects have the potential to take advantage of the 45Q tax credit for each ton of CO2 sequestered or utilized. The credit was recently increased to $35/metric ton for enhanced oil recovery and $50/metric ton for geologic storage.
Projects selected under this new FOA shall perform the following key activities: complete a detailed site characterization of a commercial-scale CO2 storage site (50 million metric tons of captured CO2 within a 30 year period); apply and obtain an underground injection control class VI permit to construct an injection well; complete a CO2capture assessment; and perform all work required to obtain a National Environmental Policy Act determination for the site.
DOE's National Energy Technology Laboratory NETL) will manage the selected projects.
(Source: US DOE, Office of Fossil Energy, PR, 13 Sept., 2019)Contact: US DOE Office of Fossil Energy. www.energy.gov/fe/foa-2058-front-end-engineering-design-feed-studies-carbon-capture-systems-coal-and-natural-gas, www.energy.gov/fe; NETL, www.netl.doe.gov
More Low-Carbon Energy News NETL, CCS, US DOE, CCUS, CO2, Office of Fossil Energy,
The National Carbon Capture Center serves as a neutral research and testing facility to advance technologies that reduce greenhouse gas emissions from fossil-based power plants.
Through the evaluation of over 60 technologies, the Center has already reduced the projected cost of carbon capture from fossil generation by one-third, according to the Center which is currently adding infrastructure to expand testing of carbon capture technologies for natural gas power plants.
National Carbon Capture Center partners include DOE and its National Energy Technology Laboratory, American Electric Power, ClearPath, the Electric Power Research Institute, ExxonMobil, the National Rural Electric Cooperative Association, Tennessee Valley Authority, Peabody Energy and Wyoming Infrastructure Authority.
The National Carbon Capture Center is operated by the Southern Company and to date has worked more than 30 organizations from seven countries to evaluate and scale up emerging carbon capture technologies. (Source: National Carbon Capture Center , PR, AAAS, 15 Aug., 2019)
Contact: National Carbon Capture Center, John Northington, Dir., Marc Willis, (202) 586-3628,
More Low-Carbon Energy News TOTAL, National Carbon Capture Center, TOTAL, Carbon Capture,
The initiative is a DOE-wide effort comprising EERE, the Office of Fossil Energy (FE), the Office of Science, and the National Laboratories. The initiative helps to leverage the National Laboratories' high performance computing capabilities to address challenges in manufacturing and materials through state-of-the-art modeling, simulation, and data analysis. Lawrence Livermore National Laboratory (LLNL) leads the HPC4EI program along with partner laboratories Argonne, Lawrence Berkeley, Los Alamos, Oak Ridge, Pacific Northwest and Sandia National Laboratories, as well as the National Renewable Energy Laboratory and National Energy Technology Laboratory. Funded projects include:
Within the High Performance Computing for Materials (HPC4Mtls) Program, EERE's Vehicle Technologies Office has selected two projects:
Should the technical readiness and scalability of the technology be determined, pilot projects at ExxonMobil facilities could follow, according to a MobilExxon press release.
As previously reported, ExxonMobil recently committed to spending as much as $100 million over 10 years with the U.S. DOE National Renewable Energy Laboratory (NREL) and National Energy Technology Laboratory (NETL) on research to bring lower-emission tech to commercial scale. (Source: ExxonMobil, PR, 1 July, 2019)
Contact: ExxonMobil, Vijay Swarup, VP ExxonMobil Research and Engineering Co., William M. Colton, VP Strategic Planning, www.exxonmobil.com;
Global Thermostat, Dr. Graciela Chichilnisky, CEO, 646-798-6217, www.globalthermostat.com
More Low-Carbon Energy News ExxonMobil, CCS, CO2 Emissions, Carbon Capture,
The research aims to advance potential scalable technologies that improve energy efficiency, minimize greenhouse gas emissions, and reduce emissions from the production of fossil fuels and petrochemicals, according to ExxonMobil.
Initial collaborative efforts will explore ways to bring biofuels and carbon capture and storage (CCS) to commercial scale across the power generation, transportation, and manufacturing sectors. (Source: ExxonMobil, GreenCar Congress, 9 May, 2019)Contact: Exxon Mobil, William M. Colton, VP Strategic Planning, www.exxonmobil.com
More Low-Carbon Energy News ExxonMobil, Climate Change, Carbon Emissions, Biouels, CCS,
The R&D projects for coal-fueled power plants and technologies include the following separate funding opportunities:
DOE's National Energy Technology Laboratory (NETL) will manage all of the selected projects.
Download details HERE.
( Source: US DOE, April, 2019) Contact: US DOE, Sec. of Fossil Energy, Steven Winberg, Assist. Sec., www.energy.gov/fe/office-fossil-energy
More Low-Carbon Energy News US DOE, Coal, Clean Coal,
The compact, easily transported new device can detect both above and below ground methane leaks from both above and below-ground from as faraway as 500 feet, process the data it detects rather than simply display information that a human operator has to analyze later.
The system can also be programmed to pick up propane, butane, ethanol, heptane, benzene, ethylene and others.
(Source: NETL, WVNews, 17 Feb., 2019)Contact: National Energy Technology Laboratory, www.netl.doe.gov; SwRI, Adam Hamilton, Pres., CEO, (210) 684-5111, www.swri.org
More Low-Carbon Energy News Methane , National Energy Technology Laboratory, Southwest Research Institute, ,
Selected projects will support the development of solvent, sorbent, and membrane technologies to address scientific challenges and knowledge gaps associated with reducing the cost of carbon capture, supporting DOE's goal to develop technologies that can significantly reduce the cost of CO2 capture from coal fired power plants.
Specifically, projects must address one area of interest, Development of Novel Transformational Materials and Processes. Projects will seek to fill research gaps in either membrane transport properties or process designs. Research in transport properties should lead to new membrane materials with improved performance, while development of new process designs should reduce pressure drop and energy consumption.
Successful applicant projects will join 11 other projects previously chosen by FE to receive approximately $28.9 million during the first closing of this FOA in Fiscal Year 2018. The funded projects will be managed by the National Energy Technology Laboratory (NETL). (Source: US DOE, 27 Sept., 2018) Contact: US DOE, Carbon Capture Program under the Office of Fossil Energy, www.netl.doe.gov/research/coal/carbon-capture; NETL, www.netl.doe.gov
More Low-Carbon Energy News US DOE, Carbon Capture,
The two projects will be managed by the National Energy Technology Laboratory (NETL). The University of Illinois will focus on reservoirs and residual oil zones in the Illinois Basin in three states. The university received $3.4 million in federal funds and will provide $917,881 in matching funds.
The University of North Dakota Energy & Environmental Research Center (UNDEERC) will establish the Williston Basin CO2 Field Laboratory in the South Central Cut Bank oilfield in Montana. The NDEERC received $3.4 million in federal funds and will provide $873,926 in matching funds.
Since 1997, DOE's Carbon Storage program portfolio includes industry cost-shared technology development projects, university research grants, collaborative work with other national laboratories, and research conducted in-house through the NETL Research & Innovation Center. The Carbon Storage program incorporates: Core Storage Research and Development; Storage Infrastructure; and Strategic Program Support to address significant technical challenges in order to meet program goals that support the scale-up and widespread deployment of CCS.
Download details on the US DOE Carbon Storage Program HERE. (Source: DOE Office of Fossil Energy, Kallanish Energy, Others, 30 Aug., 2018)
Contact: DOE Office of Fossil Energy, 202-586-6660, www.energy.gov/fe/office-fossil-energy; University of Illinois, (217) 333-1000, https://illinois.edu; NETL, www.netl.doe.gov; UNDEERC, (701) 777-5000, www.undeerc.org
More Low-Carbon Energy News UNDEERC, Office of Fossil Energy , Carbon Storage, NETL,
The test injected over 13,000 tons of CO2 into stacked unmineable coal seams at depths of 900 to 2,000 feet with the goal of storing CO2 while simultaneously enhancing natural gas recovery. The verification, made using WellDog's proprietary Reservoir Raman System, reveals that carbon dioxide injected over the last two years flowed into all of the targeted coal seams in Buchanan County, Virginia.
The $15.5 million project is funded by the US DOE, Virginia Tech, and private industry.
The project research partners included Virginia Center for Coal and Energy Research, Virginia Tech; Virginia Department of Mines, Minerals and Energy; DOE's National Energy Technology Laboratory; Marshall Miller & Associates; Southern States Energy Board; CONSOL Energy; Geological Survey of Alabama; Sandia Technologies; Det Norske Veritas; WellDog; and Carbon GeoCycle. (Source: WellDog, PR, 27 June, 2018)
Contact: WellDog, John M. Pope, CEO, email@example.com, www.welldog.com; Carbon GeoCycle, www.carbongeocycle.com
More Low-Carbon Energy News Carbon Sequestration, Carbon Storage, CO2,
The selected projects are intended to promote sustainable efforts among fossil resources and cut down on the cost of advanced fossil energy technologies -- permanent geologic storage for carbon dioxide to coincide with the predicted use of transformative carbon capture technologies beginning around 2025.
This marks the second phase of an effort which has already seen approximately $15.4 million distributed among 13 projects. The latest round will be managed by the National Energy Technology Laboratory (NETL) and include projects run by the Battelle Memorial Institute, the Board of Trustees of the University of Illinois and the University of Wyoming. (Source: US DOE, Energy Insider, 29 May, 2018)
Contact: Carbon Storage Assurance Facility Enterprise, www.researchfunding.duke.edu/carbon-storage-assurance-facility-enterprise-carbonsafe-storage-complex-facility; DOE Office of Fossil Energy, www.energy.gov/fe/office-fossil-energy
More Low-Carbon Energy News CCS, Carbon Storage, DOE Office of Fossil Energy,
UK CAER's current 0.7 mw small pilot CO2 capture facility that operates at Kentucky Utilities' E.W. Brown Generating Station in Burgin, Kentucky, has led to scientific and engineering breakthroughs in the field, according to the CAER. The post-combustion system features modular equipment and free-standing columns with built-in advanced controls to continually minimize the CO2 capture energy penalty while responding to a dynamic external demand. The new system will combine several facets to simultaneously address capital cost, energy consumption, load change and environmental impact.
Project collaborators include LG&E and Kentucky Utilities, Carbon Clean Solutions, University of Texas at Austin, Membrane Technology Research, Electric Power Research Institute, Huaneng Clean Energy Research Institute, Koch Modular Process Systems, Worley Parsons and Smith Management Group.
(Source: University of Kentucky, PR, May, 2018)
Contact: University of Kentucky CAER, Kunlei Liu, principal investigator , (859) 257-0200, www.caer.uky.edu
More Low-Carbon Energy News University of Kentucky, CCS, Carbon Capture,
The CCSI Toolset is the nation's only suite of computational tools and models designed to help maximize learning and reduce cost and risk during the scale-up process for carbon capture technologies. The toolset is critically important to perform much of the design and calculations, thus reducing the cost of both pilot projects and commercial facilities.
The release makes the toolset code available for researchers in industry, government, and academia to freely use, modify, and customize in support of the development of carbon capture technologies and other related technologies. The toolset is hosted on GitHub.
The CCSI Toolset capabilities include: rapid computational screening; accelerated design & evaluation and; risk management support
Led by NETL, CCSI leverages the the US DOE's National Laboratories' core strengths in modeling and simulation -- bringing together the best capabilities at NETL, Los Alamos National Laboratory, Lawrence Berkeley National Laboratory, Lawrence Livermore National Laboratory, and Pacific Northwest National Laboratory. CCSI has more than 50 industrial partners representing the power generation industry, equipment manufacturers, technology providers, engineering and construction firms, and software vendors. Academic participants include Carnegie Mellon University, Princeton University, West Virginia University, Boston University, and the University of Texas.
This critical work is being extended by the Carbon Capture Simulation for Industry Impact project, which is using the CCSI Toolset to support the scale up of second-generation capture technologies and the development of new transformational carbon capture systems through partnerships with technology developers.
(Source: NETL, April, 2018) Contact: NETL, www.netl.doe.gov; Carbon Capture Simulation Initiative, www.acceleratecarboncapture.org
More Low-Carbon Energy News NETL, Carbon Capture, Carbon Capture Simulation Initiative,
In the intervening decade since the project got underway Battelle began the third phase of injection in 2013 and, in conjunction with Traverse City, Michigan-based Core Energy LLC, is monitoring, verifying and accounting for the CO2 being used for enhanced oil recovery (EOR) in the depleted oil fields of Michigan's Northern Reef Trend.
The MRCSP comprises a 10-state region that generates almost 25 pct of all electricity generated in the country -- more than half of that by burning coal. The MRCSP is one of seven Regional Carbon Sequestration Partnerships in the U.S. established by DOE's National Energy Technology Laboratory (NETL). (Source: Battelle, PR, Bus.Wire, 12 Mar., 2018) Contact: Core Energy LLC, www.coreenergyholdings.com; Battelle, Neeraj Gupta, Principal Investigator for the MRCSP, T.R. Massey, (614) 424-5544, firstname.lastname@example.org, www.battelle.org
More Low-Carbon Energy News Midwest Regional Carbon Sequestration Partnership, Battelle, Core Energy ,
This FOA will address the cost and operational challenges associated with current CO2 capture technologies that are commercially available for industry, providing for additional development to these technologies at coal-fired power plants. Some of the challenges that will be addressed include a need to improve the reliability and operational flexibility; reduce high capital costs; and reduce the high-energy penalty associated with operating existing technology.
The National Energy Technology Laboratory (NETL) will manage the selected projects, which will concentrate on transformational technologies focused on: developing transformational materials and processes for CO2 capture that will enable step-change reductions in the capital and energy cost; and enabling technologies that facilitate improved performance of transformational CO2 capture processes to reduce capital cost and energy penalties, and improve operational reliability and flexibility. Funding recipients include:
Development and Bench-Scale Testing of a Novel Biphasic Solvent-Enabled Absorption Process for Post-Combustion Carbon Capture University of Illinois -- DOE: $2,999,941; Non-DOE: $750,052; Total: $3,749,993;
Bench-Scale Development of a Transformational Graphene Oxide-Based Membrane Process for Post-Combustion CO2 Capture -- Institute of Gas Technology dba Gas Technology Institute (GTI) -- $2,914,074; Non-DOE: $728,738; Total: $3,642,812;
Development of Self-Assembly Isoporous Supports Enabling Transformational Membrane Performance for Cost-Effective Carbon Capture -- Membrane Technology and Research, Inc. (MTR) (Newark, CA) DOE: $2,907,219; Non-DOE: $726,805; Total: $3,634,024;
Mixed-Salt-Based Transformational Solvent Technology for CO2 Capture -- SRI International -- ; DOE: $2,999,922; Non-DOE: $782,817; Total: $3,782,739
A Process with Decoupling Absorber Kinetics and Solvent Regeneration Through Membrane Dewatering and In-Column Heat Transfer – University of Kentucky Research Foundation -- DOE: $2,998,293; Non-DOE: $750,642; Total: $3,748,935;
Flue Gas Aerosol Pre-Treatment Technologies to Minimize Post-Combustion CO2 Capture Solvent Losses -- Linde, LLC -- DOE: $2,787,742; Non-DOE: $696,936; Total: $3,484,678. (Source: US DSOE, 22 Feb., 2018) Contact:
US DOE Office of Fossil Energy, www.energy.gov/fe/office-fossil-energy; National Energy Technology Laboratory , www.netl.doe.gov
More Low-Carbon Energy News CO2, Carbon Capture, CCS, US DOE,
The carbon capture and storage (CCS) research project, which began in 2002, was supported by the United States DOE National Energy Technology Laboratory (NETL). Based on the positive findings from the exploratory well drilling and seismic survey, AEP decided in 2007 to proceed with a 20 MW pilot test facility, with on-site CO2 capture, compression, transport, and injection. Battelle was then hired by AEP to continue providing geologic CCS expertise followed by a post-injection monitoring and site closeout phase ending in 2017.
It was the first CCS project at a working coal-fired power plant, it was funded primarily by private sources and helped establish the technical viability of CCS to reduce greenhouse gas emissions from coal-fired power plants, and to store carbon dioxide in geologic layers with limited prior data.
The project demonstrated the full life-cycle, from inception, characterization well-drilling to find suitable storage zones, reservoir analysis, integration with pilot-scale system for a CO2 supply, injection, storage assessment, monitoring and final close-out in 2017. (Source: Battelle, PR. 28 Oct., 2017) Contact: Battelle, Katy Delaney, (614) 424-7208, email@example.com, www.battelle.org; AEP, Matt Usher, Director of New Technology Development & Policy Support, (800) 672-2231, www.aepohio.com;
Midwest Regional Carbon Sequestration Partnership, www.mrcsp.org
More Low-Carbon Energy News CCS, CO2, Battelle, AEP,
The U.S. DOE is footing 68 pct of the cost of the $208 million project with the remaining $66 million split among other participating agencies. The federal money came from the American Recovery and Reinvestment Act (ARRA) of 2009, which was intended to help the economy recover following the 2008 recession. The DOE's National Energy Technology Laboratory manages the project which was developed by scientists at the University of Illinois.
(Source: ADM, Herald & Review, Others, Oct., 2017)
Contact: ADM, Alison Taylor, VP, Chief Sustainability Officer, Juan Luciano, CEO, (312) 634-8100, www.adm.com
More Low-Carbon Energy News CCS, Carbon Storage, Archer Daniels Midland,