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million to establish a multidisciplinary program of transportation research, education, and technology transfer for a Tier 1 University Transportation Center to be headquartered at the Virginia Tech Transportation Institute. The 22 centers selected are all consortia, involving a total of 121 different universities.
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. Giner ELX Inc.
University of Hawaii of Honolulu, Hawaii will receive $3 million to develop photoelectrodes for direct solar water splitting. University of Colorado, Boulder of Boulder, Colorado will receive $2 million to develop a novel solar-thermal reactor to split water with concentrated sunlight. FuelCell Energy Inc.
Phinix,LLC; Rare Earth Element Separation Using Gas-Assisted Micro-Flow Extraction with Task-Specific Ionic Liquids Partners: NICHE Industrial Chemicals, Virginia Polytechnic Institute and State University DOE share:$500,000; Cost share $225,000; Total costs: $725,000. 525 Solutions, Inc.;
The University of Michigan. The University of Michigan proposes the RAFT concept as a solution for hydrokinetic energy harvesting. University of Washington. The project aims to demonstrate a significant step-change up in efficiency with a step-change down in cost of energy. University of Virginia.
The projects selected are located in 25 states, with 50% of projects led by universities, 23% by small businesses, 12% by large businesses, 13% by national labs, and 2% by non-profits. University of Massachusetts, Amherst. Development of a Dedicated, High-Value Biofuels Crop The University of Massachusetts, Amherst will develop an.
The Research Foundation for The SUNY Stony Brook University. University of Delaware. University of Maryland. AOI 02: LowCost Electric Traction Drive Systems Using No Heavy Rare Earth Materials. LowCost, High-Performance, Heavy Rare Earth-Free 3-In-1 Electric Drive Unit. Marquette University.
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. Boston University. Stanford University. University of Wisconsin, Madison. West VirginiaUniversity.
ARPA-E selected the following 12 teams from universities, national laboratories and the private sector to address and remove key technology barriers to EV adoption by developing next-generation battery technologies: 24M Technologies will develop low-cost and fast-charging sodium metal batteries with good low-temperature performance for EVs.
Winning BETHE projects are: Category A: Development of Lower-Cost Concepts. University of Wisconsin-Madison. An HTS Axisymmetric Magnetic Mirror on a Faster Path to Lower Cost Fusion Energy - $5,000,000. University of Maryland, Baltimore County. University of Washington.
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).
The selected projects consist of leading scientists and engineers from universities, private industry, and government, and will facilitate sharing expertise and technologies. Low-cost one-step syngas to distillates. University of California, Davis; UOP LLC; Virent Energy Systems; and Washington State University.
Using electricity and heat generated at nuclear energy facilities to produce hydrogen via extremely efficient high temperature electrolysis (HTE) is one promising integration approach for generating low-cost hydrogen. FuelCell Energy will receive $1.5
Low-Cost Retrofit Kit for Integral Reciprocating Compressors to Reduce Emissions and Enhance Efficiency. The University of Oklahoma (Norman, OK) plans to develop, build, and validate a low-cost, field-installable, remotely-controlled natural gas compressor retrofit kit.
The Ohio State University. Low-Cost Rare Earth Element (REE) Recovery from Acid Mine Drainage Sludge Research Triangle Institute plans to use a staged, membrane-based treatment approach to separate, concentrate, and ultimately recover REEs from acid mine drainage (AMD) sludge that will take place over an 18-month performance period.
Two projects will research, develop, and use integrated computation materials engineering (ICME) techniques to develop lowcost carbon fiber from a variety of feedstocks and precursors that can be used to make carbon fiber with less energy and lower cost. University of Maryland: College Park. Penn State University Park.
Boston University. Core-Shell Heterostructures as Solid Oxide Fuel Cell Electrodes Boston University will research ways to synthesize and deploy core-shell heterostructures as SOFC cathodes that will improve SOFC performance by increasing oxygen reduction rates and improving cathode resistance to degradation. Boston University.
This project will develop a low-cost, mobile process to treat the total dissolved solids in the flowback water from hydraulic fracturing operations. West VirginiaUniversity, Morgantown, W.Va. University of Arkansas, Fayetteville, Ark. University of Pittsburgh, Pittsburgh, Pa.
Clemson University will develop a lightweight, multi-material passenger vehicle body structure, addressing challenges in joining dissimilar materials. SUNY University @ Stony Brook. Penn State University. Penn State University. University of California, San Diego. University of Illinois at Chicago.
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.
Virginia Tech , in collaboration with Resolute Marine Energy, Energy Harvesting Technology, LLC, THK America, Inc., Pennsylvania State University , in State College, Pennsylvania, in collaboration with Verdant Power, will develop a low-cost, single-piece, three-blade composite turbine with integrated “health management” technology.
West VirginiaUniversity (WVU) researchers are opening a new facility to capture rare earth elements (REEs) from acid mine drainage (AMD) from coal mining. China has been able to provide a low-cost supply of rare earths using these methods, and therefore, dominates the global market.
BREAKERS projects include: Drexel University, Ultra-Efficient Intelligent MVDC Hybrid Circuit Breaker – $4,413,913. Drexel University aims to design a significantly more efficient, fast, low-cost, compact, and reliable circuit breaker for medium-voltage direct-current (MVDC) power system.
Drawing on both fundamental and applied research capabilities within National Labs, universities, and industry, the Plastics Innovation Challenge accelerates innovations that will significantly reduce plastic waste in oceans and landfills and position the US as global leaders in advanced plastics recycling technologies.
The project team expects this research to result in an optimized materials and processing solution that will significantly reduce component costs for a critical SOFC subsystem. DOE: $2,500,000 Non DOE: $625,149 Total: $3,125,149 (20% cost share). The University of South Carolina. The Tennessee Technological University.
LowCost e-mode GaN HEMT Gate Driver IC: Enables Revolutionary Energy Savings in Variable Speed Drives for Appliance Motors. Infineon Technologies will develop a new, low-cost gate driver integrated circuit (IC) for use with GaN switches, an important component for controlling variable speed electric motors (VSD).
Assess the technical and economic feasibility of thermal compression for cost-effective pressurization of hydrogen to 700 bar for hydrogen fueling stations, as well as demonstrate the concept in a small-scale test system. Northeastern University. University of California, Irvine. University of Delaware. Virginia Tech.
million of non-Federal cost sharing. In order for low-cost electricity from coal-fired power plants to remain available, the DOE said, economical methods for capturing and storing the greenhouse gas emissions from these plants must be developed. Columbia University , New York, N.Y. Stanford University , Stanford, Calif.
REFUEL projects will convert low-cost renewable energy into a transportable chemical fuel and use these fuels for transportation applications, while reducing production costs and environmental impact. University of Delaware. University of Minnesota Twin Cities. FuelCell Energy, Inc. Giner, Inc. The Giner, Inc.
NETL will partner with Penn State, West VirginiaUniversity, and the University of Pittsburgh in the 2-year effort. One NETL project that will improve capabilities for predicting the behavior and performance of fracture networks in enhanced geothermal systems.
This research is being performed through teamwork with local universities: the University of Pittsburgh, the Pennsylvania State University, West VirginiaUniversity, and the University of Maryland. Innovative fabrication methods can also lead to significant energy storage system improvements.
In 2007, with support from Carnegie Mellon University, Dr. Jay Whitacre began researching low-cost electrochemical approaches to bulk energy storage. Roski is a Managing Director at Protiviti, a Virginia-based consulting firm offering professional services around entering and exiting bankruptcy situations.
Accelerated Development and Deployment of Low‐Cost Automotive Mg Sheet Components (Area of Interest 3). Ohio State University. Advances for the Production of Low‐Cost Electric Drive vehicle Motors (Area of Interest 5). Iowa State University. University of Pittsburgh. Penn State University Park.
The US Department of Energy (DOE) awarded nearly $34 million to 19 industry- and university-led research projects that will advance technology solutions to make clean hydrogen a more available and affordable fuel for electricity generation, industrial decarbonization, and transportation. Earlier post.)
Now, team of researchers at the University of Maryland Energy Research Center and A. Goodenough, Virginia H. Cockrell Centennial Chair in Engineering at the University of Texas (who was also unaffiliated with the study) commented : Xiaogang Han et al. Lithium-ion battery pioneer John B.
Clemson University. Breeding High Yielding Bioenergy Sorghum for the New Bioenergy Belt Clemson University, along with the Carnegie Mellon Robotics Institute and partners, will phenotype an exhaustive set of international germplasm and plant varieties. Purdue University. University of Illinois at Urbana-Champaign.
The Department of Energy is working with industry, universities, national laboratories, and other groups to develop technologies capable of harnessing these resources to generate environmentally sustainable, cost-competitive power. DOE Funding: $142,000. Total Project Value: $179,000. DOE Funding: $158,000. Sunlight Photonics, Inc.
West VirginiaUniversity Research Corporation. University of Central Florida. The project will help incorporate low-cost training on alternative fuel vehicles and infrastructure into state training systems, allowing far more first responders to be trained on these technologies than would be otherwise.
"The Lucid Air is the first car to show range that's not just competitive (with Tesla), but better, an astonishing achievement," said Venkat Viswanathan , battery researcher and associate professor of mechanical engineering at Carnegie Mellon University. "It It shows it's no longer a one-horse race." It all sounds amazing, on paper.
as early as 2050 , according to a recent study by the National Security College of the Australian National University, in Canberra. This timing is particularly significant because the enormous costs required to design and build a submarine are meant to be spread out over at least 60 years. It may come. billion , according to the U.S.
Stuart Licht, a chemistry professor at the George Washington University, and his team of researchers are among the finalists announced today in the $20-million Carbon XPRIZE competition.
Rahman is a professor of electrical and computer engineering at Virginia Tech. These include low-cost solutions such as using more efficient light bulbs and lowering the temperature of your air conditioner. Climate change and global warming are universal. that provides buildings with energy-efficiency solutions.
Lynchburg, Virginia). Northern Illinois University (DeKalb, Illinois). ENTR Alliance (Charlottesville, Virginia). Development of a Low-cost and Hardware Friendly Instantaneous Waveform Measurement Technology for Distribution System, $1,000,000. Framatome Inc. Beam Suntory, Inc. Clermont, Kentucky). IP Group, Inc.
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