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This project is being conducted to understand how truck platoons will operate in a realistic, operational environment. Previous research has resulted in the development of truck platooning technology with only limited testing and demonstration in a real-world environment. Proposed Platooning Location: Indiana; Ohio; Pennsylvania.
The US Department of Energy (DOE), General Motors and MathWorks launched the EcoCAR Mobility Challenge, the latest DOE-sponsored Advanced Vehicle Technology Competition ( AVTC ), revealed the 12 competing universities and named the Chevrolet Blazer as the vehicle platform selected for the competition. Embry-Riddle Aeronautical University.
OhioUniversity’s Institute for Sustainable Energy and the Environment was awarded two of the six awards, one that explores how coal waste can be reimagined as energy storage and the second aims to develop ultra-conductive carbon metal composite wire for electric motors. Earlier post.)
The US Department of Energy (DOE) has selected nine universities for awards for research projects that will continue to support innovation and development of advanced, lower emission coal technologies. million investment will be leveraged with additional funds from the universities to support $3.1 Brown University.
GE Aviation, in collaboration with the University of Cincinnati Research Institute (UCRI), has created the GE Aviation Research Center at the company’s world headquarters in Evendale, Ohio. The scope of this agreement marks a first in Ohio between a leading aerospace company and a leading university research institute.
The US Department of Transportation (DOT) is awarding up to $435 million in grant awards for 34 University Transportation Centers (UTC). Consortium members: Arizona State University, Blinn Community College (TX), Michigan State University, Rutgers University and Texas A&M University. $4
The US Department of Transportation has awarded a $15-million grant to renew the Center for Connected and Automated Transportation (CCAT), based in Ann Arbor and led by the University of Michigan. million over its first six years, CCAT is one of 10 regional USDOT University Transportation Centers nationwide.
This pilot institute will bridge the gap between basic research and product development for additive manufacturing; provide shared assets to help companies, particularly small manufacturers; access cutting-edge capabilities and equipment; and create an environment to educate and train workers in advanced additive manufacturing skills.
million in research, education, and training grants to universities that comprise the agency’s Air Transportation Center of Excellence (COE) for Unmanned Aircraft Systems (UAS), also known as the Alliance for System Safety of UAS through Research Excellence (ASSURE). Mississippi State University – lead University.
An Ohio State University team has demonstrated the successful operation of Coal-Direct Chemical Looping (CDCL)—which chemically harnesses coal’s energy and efficiently contains the carbon dioxide produced before it can be released into the atmosphere. The technology is now ready for testing at a larger scale.
Officials at The Ohio State University and West Virginia University have signed a memorandum of understanding creating a shale energy partnership between the two schools, agreeing to work collaboratively to develop a joint program of research in the Appalachian Region’s developing shale energy industry.
GTI and partners, The Ohio State University, Wyoming Integrated Test Center (ITC), and Trimeric Corporation (Trimeric), have been selected for award on a project to advance Ohio State’s transformational membrane technology to provide step-out reductions in CO 2 capture cost and energy penalties.
Simulations of pulsing vortex generating jets, a type of flow control device, created on Ohio Supercomputer Center systems. Researchers at the Ohio State University led by Dr. Jen-Ping Chen are working to improve the computational fluid dynamics (CFD) software that engineers use to simulate and evaluate the operation of turbomachinery.
Optimizing the energy storage solution within the broader vehicle environment will enable Johnson Controls to design, develop and commercialize systems which not only meet our customers’ requirements, but also lead to improvements in function, package and cost. 48V Batteries Hybrids'
The University of Michigan has launched a new $1.2-million —Arun Agrawal, professor of natural resources and environment and co-principal investigator for the project. million research project called the Great Lakes Adaptation Assessment for Cities. SNRE postdoctoral fellow Ahmad Safi is also working on the project.
—Marty Toomajian, president of Battelle’s Energy, Environment and Material Sciences Global Business. Battelle will address the growing demand for subsurface brine disposal from oil and gas production in the Northern Appalachian Basin (in Ohio and neighboring states) during the next two years. Evaluating Wellbore Integrity.
Methane hydrate can form in Arctic and marine environments. University of California at San Diego. University of Mississippi. University of New Hampshire. Oregon State University. Southern Methodist University. The University of Texas at Austin. Source: DOE. Click to enlarge. Description. DOE Funding.
universities and colleges to use their engineering and technical skills to mitigate and address the impact of climate change in their communities. and its environs. Thirty-five students and several faculty members from the Ohio State University engineering college , in Columbus, designed an environmentally friendly solution.
the Environment. Clean Fuels Ohio. The Fast Track to Ohio AFV Adoption project will streamline local and state. The Fast Track to Ohio AFV Adoption project will streamline local and state. on various fuels; and expand the Ohio Green Fleets program and the Ohio. University, North. Center for.
Launched in 2016, ARPA-E’s NEXTCAR program focuses on reducing vehicle energy consumption by developing Connected and Automated Vehicle (CAV) technologies that optimize vehicle dynamic controls and powertrain operation, allowing a vehicle to automatically process and react to its surrounding environment, traffic conditions and nearby vehicles.
A research team led by The University of Texas at Austin has been awarded approximately $58 million to analyze methane hydrate deposits under the Gulf of Mexico. Methane hydrate—natural gas trapped in an ice-like cage of water molecules—occurs in both terrestrial and marine environments.
Researchers at Ohio State University and Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences, have developed a method that can double the output of biobutanol compared to conventional bacterial fermentation through the use of a new strain of bacteria and a new bioreactor.
A new survey by researchers from Columbia University, Ohio State University and Carnegie Mellon University finds that many Americans have a very poor understanding of energy use and savings. For instance, those who identified themselves in the survey as pro-environment tended to have more accurate perceptions.
Energy Industries of Ohio. The Ohio State University. The Ohio State University will partner with Babcock & Wilcox, Tech4Imaging, and American Electric Power to develop an advanced autonomous control architecture and imaging and optimization sensor for the Ohio State chemical looping process. Description.
Their groundbreaking research, conducted at the University of Utah , in Salt Lake City, and at their company, Evans and Sutherland , helped jump-start the computer graphics industry. A ceremony was held at the university on 24 March to recognize the computer graphics and visualization techniques with an IEEE Milestone.
The following projects have been selected for awards: Kansas State University, $5,078,932. Ohio State University, $6,510,183. The goal of this project is to make the oilseed crop camelina a cost-effective biofuel and bioproduct feedstock.
The University of Texas at Austin. The University of Texas at Austin along with Ohio State University and Columbia University-Lamont Doherty Earth Observatory will examine what the primary influences are on the development of persistent, massive hydrate accumulations in deep sediments below the seabed.
The first of the NSFCloud projects will support the design, deployment and initial operation of “Chameleon,” a large-scale, reconfigurable experimental environment for cloud research, co-located at the University of Chicago and The University of Texas at Austin.
The design of the large pilot plant will incorporate an advanced combustion design and control features that have been verified through performance testing on the sub-pilot unit at Ohio State University and further testing on the small-scale pilot at Babcock & Wilcox. University of Illinois. University of Alaska Fairbanks.
The selected projects—spanning 22 states and coordinated at universities, national laboratories, and private companies—will advance technologies for a wide range of areas, including electric vehicles, offshore wind, storage and nuclear recycling. Cornell University. Stanford University. The Ohio State University.
Successful technologies will significantly increase the confidence that CO 2 placed in geologic formations is being accurately tracked and remains permanently stored, thus protecting human health and the environment. Columbia University , New York, N.Y. Montana State University , Bozeman, Mont.
The Research Foundation for The SUNY Stony Brook University. University of Delaware. University of Maryland. Marquette University. Washington State University. Colorado State University. Regents of University of Minnesota. Purdue University. Clemson University. Achates Power.
Since its launch in 2011, CSRC has collaborated with leading North American universities, hospitals, and research institutions on projects aimed at reducing traffic casualties, and sharing the results publicly so that all can benefit. One of the key beneficiaries of CSRC research has been emergency medicine. —Chuck Gulash.
At the meeting of the American Physical Society’s Division of Fluid Dynamics, held 24 – 26 November in Pittsburgh, Igor Adamovich of Ohio State University discussed some of his and his colleagues’ recent experimental results and computer models on low-temperature plasma assisted combustion.
HITEMMP projects include: Michigan State University. Michigan State University’s HIPPED technology is a highly scalable heat exchanger suited for high-efficiency power generation systems that use supercritical CO 2 as a working fluid and operate at high temperature and high pressure. Missouri University of Science and Technology.
Connected and automated vehicle (CAV) technology utilizes on-board or cloud-based sensors, data and computational capabilities to help a vehicle better process and react to its surrounding environment. Michigan Technological University. The Ohio State University. The Pennsylvania State University.
A study by researchers at the University of São Paulo’s Bioscience Institute (IB-USP) in Brazil, with colleagues at the Ohio State University, has found that the rising atmospheric concentration of CO 2 is beneficial for the physiology of sorghum, an economically and nutritionally important crop grown worldwide.
Arizona State University, in partnership with Fluidic Energy Inc., Teaming with Ohio State University are PSRI, CONSOL Energy, Shell/CRI, and Babcock and Wilcox to accelerate this technology towards commercialization and deployment. DOE grant:$5,349,932). DOE grant: $5,000,000). CO 2 Capture with Enzyme Synthetic Analogue.
Ohio State Univ. NC State University. Medical University of South Carolina. Columbia University. A123 Systems, Rutgers University). MIT, Bar-Ilan University). This process will repurpose carbon dioxide for use as a liquid fuel that can be readily used as a high octane gasoline substitute. of Georgia).
Inspired by the damping mechanisms which sustain trees under wind and seismic loads, researchers at The Ohio State University and the University of Michigan are investigating the potential for the development of energy harvesting systems that efficiently convert the same motion- and wind-based excitations into electric power.
The complexity of the event has made it difficult for scientists to determine the long-term fate of oil in this ocean environment. This hadn’t previously been observed at this spatial scale or in this sort of environment, so this work is important in understanding the fate of oil that reaches the seafloor. Bagby, Christopher M.
Engineers at University of Colorado, Boulder have designed a new tiny robot that can passively change its shape to squeeze through narrow gaps. CU Boulder ] We’ve got a huge feature on the University of Zurich’s autonomous vision-based racing drones, which you should absolutely read in full after watching this summary video.
University of North Dakota Energy & Environmental Research Center (Grand Forks, ND) will complete an initial engineering design for a hybrid capture system and estimate associated costs for retrofitting the Red Trail Energy ethanol plant. DOE Funding: $1,500,000; Non-DOE Funding: $405,328; Total: $1,905,328.
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