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MiamiOH OARS

Grand Challenge: 2aAir Liquide Scientific Challenge 2c - 0 views

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    Through the #2018AirLiquideScientificChallenge, Air Liquide embarks the scientific community to innovate using Essential Small Molecules and develop new applications on 3 topics related to improving air quality for the people and fighting climate change for the planet. Be part of the Air Liquide's innovative approach (inventiveness, curiosity, collective intelligence, and agility) by participating in the challenge.

MiamiOH OARS

Sustainable E-Waste Management and Battery Technologies for the Off-Grid Solar Sector - 0 views

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    Sustainable E-Waste Management and Battery Technologies for the Off-Grid Solar Sector
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Solid Oxide Fuel Cells Core Technology Research - 0 views

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    This Funding Opportunity Announcement (FOA) is soliciting applications to develop Solid Oxide Fuel Cell Technology in order to support fuel cells system manufacturers in addressing issues related to cost and reliability of fuel cells systems. Applications are sought in two areas of interest (AOI) that include AOI 1 - Solid Oxide Fuel Cells (SOFC) Core Technology Research and AOI 2 - Core Technology Research and Development (R&D) in Support of Near-Term SOFC Power Systems Prototype Tests. AOI 1 is supporting transformational technologies that are focused on early-stage laboratory-scale R&D. Successful projects will result in validation of concepts at a laboratory-scale. Collaboration with a fuel cell system manufacturer is encouraged. AOI 2 will seek projects that address reliability issues facing 2nd Generation SOFC power systems in an operational environment. This AOI will require a team approach where the participation of at least one fuel cell system manufacturer as a prime or a sub-recipient in the team is required. Teams should be able to take the technology developed during the award to the point that it can be validated in an operational system. Fuel cell technology other than SOFC will be considered non-responsive to both AOIs.
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Coupling, Energetics, and Dynamics of Atmospheric Regions - 0 views

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    The Coupling, Energetics, and Dynamics of Atmospheric Regions (CEDAR) program is a broad-based research program with the goal of understanding the behavior of atmospheric regions from the middle atmosphere upward through the thermosphere and ionosphere into the exosphere in terms of coupling, energetics, chemistry, and dynamics on regional and global scales. These processes are related to the sources of perturbations that propagate upward from the lower atmosphere as well as to solar radiation and particle inputs from above. The activities within this program combine observations from ground based and space based platforms, theory and modeling.
MiamiOH OARS

Coupling, Energetics, and Dynamics of Atmospheric Regions (CEDAR) (nsf18544) | NSF - Na... - 0 views

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    The Coupling, Energetics, and Dynamics of Atmospheric Regions (CEDAR) program is a broad-based research program with the goal of understanding the behavior of atmospheric regions from the middle atmosphere upward through the thermosphere and ionosphere into the exosphere in terms of coupling, energetics, chemistry, and dynamics on regional and global scales. These processes are related to the sources of perturbations that propagate upward from the lower atmosphere as well as to solar radiation and particle inputs from above. The activities within this program combine observations from ground based and space based platforms, theory and modeling.
MiamiOH OARS

Expanding Hydropower and Pumped Storage's Contribution to Grid Resiliency and Reliabilit - 0 views

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    Complete information, including the Request for Information (RFI), can be found on the EERE Exchange website - https://eere-exchange.energy.gov. Through this Request for Information (RFI), the United States Department of Energy (DOE) Office of Energy Efficiency and Renewable Energy (EERE), Water Power Technologies Office (WPTO) seeks input on new research to maximize the value of hydropower's contribution to grid resiliency and reliability today and into the future. This strategy includes pumped storage and traditional hydropower, and covers both new technology design as well as modeling and analysis to assess the range of value streams hydropower provides in the current and future power grid. This research will build targeted insight into economic, policy and technological barriers, inform future hydropower technology development, and improve the tools by which investment and operational decisions are made. WPTO seeks concise feedback from all relevant stakeholders. Responses to this RFI must be submitted electronically to WPTORFI@ee.doe.gov no later than 5:00pm (ET) on April 6, 2018. Responses must be provided as attachments to an email. Complete information, including the RFI, can be found on the EERE Exchange website - https://eere-exchange.energy.gov.
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Transformational Pre-combustion Carbon Capture Technologies - 0 views

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    The mission of DOE's Fossil Energy R&D Program is to ensure the nation can continue to rely on traditional resources for clean, secure and affordable energy while enhancing environmental protection. The Carbon Capture program focuses on developing technologies to control emissions from either post-combustion units (e.g., pulverized coal) or pre-combustion (e.g., Integrated Gasification Combined Cycle, or IGCC). First Generation technologies (i.e. those that are currently being demonstrated or that are commercially available) exist, and Second Generation Technologies (i.e., those that include technology components currently in R&D and are expected to be ready for demonstration in the 2020-2025 timeframe) have shown potential for improvement towards an economic goal for cost of capture at less than $40/tonne, but are still cost prohibitive for broad deployment to the existing coal fleet. For Fiscal Year (FY) 2018, the Carbon Capture Program will solicit applications under this FOA to develop technologies in the area of pre-combustion carbon capture. Approaches that look at either hydrogen (H2) separation or carbon dioxide (CO2) separation will be accepted. The carbon capture technologies developed through this FOA will have direct application to coal gasification processes where coal derived synthesis gas or hydrogen are produced. Additionally, because gasification technology is often used to produce industrial chemicals, the technologies developed through this FOA will also be directly applicable to industrial gasifiers.
MiamiOH OARS

NSF/CASIS Collaboration on Tissue Engineering on the International Space Station to Ben... - 0 views

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    The Division of Chemical, Bioengineering and Environmental Transport (CBET) in the Engineering Directorate of the National Science Foundation (NSF) is partnering with The Center for the Advancement of Science in Space (CASIS) to solicit research projects in the general field of tissue engineering that can utilize the International Space Station (ISS) National Lab to conduct research that will benefit life on Earth. U.S. entities including academic institutions, non-profit independent research labs and academic-commercial teams are eligible to submit proposals.

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How to Apply for a P3 Grant | People, Prosperity and the Planet (P3) Student Design Com... - 0 views

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    Through this EPA program, college students can benefit people, promote prosperity and protect the planet by designing environmental solutions that move us towards a sustainable future.

    EPA considers projects that address challenges from a wide range of categories including water, energy, agriculture, built environment, and materials and chemicals. These can be challenges found in the developed or developing world.

    The P3 Award competition is a two-phase team contest. For the first phase, interdisciplinary student teams compete for $15,000 grants. Recipients use the money to research and develop their design projects during the academic year. The final projects include a Phase I project report and a Phase II proposal.

    In the spring, all teams submit their reports and proposals. Scores from the reports, proposals and the design presentations are combined into a final overall score for each P3 team. Based on these scores, a panel of expert judges recommend to EPA which teams should receive the EPA P3 Award and the opportunity for Phase II funding.

    Given to the best student designs, this is an award and opportunity for grant funding up to $75,000 to further the project design, implement it in the field, and move it to the marketplace.
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Re-entry to Active Research Program (RARE) (nsf18525) | NSF - National Science Foundation - 0 views

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    The Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET) is conducting a Re-entry to Active Research (RARE) program to reengage, retrain, and broaden participation within the academic workforce. The primary objective of the RARE program is to catalyze the advancement along the academic tenure-track of highly meritorious individuals who are returning from a hiatus from active research. By providing re-entry points to active academic research, the RARE program will reinvest in the nation's most highly trained scientists and engineers, while broadening participation and increasing diversity of experience. A RARE research proposal must describe potentially transformative research that falls within the scope of participating CBET programs.
MiamiOH OARS

Field Validation of Laboratory Tests to Assess Cracking Resistance of Asphalt Mixtures - 0 views

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    Cracking is a primary mode of distress in asphalt pavements. There are several modes of asphalt pavement cracking-thermal, reflection, fatigue, and top-down-and all are affected by numerous factors and their interactions. Recent research has evaluated a variety of laboratory tests and models to assess the cracking potential of asphalt mixtures and several are recommended for routine use. As asphalt mix designs become more complex with the use of asphalt modifiers, RAP and RAS, and warm mix asphalt technologies, highway engineers have recognized the need to establish and implement reliable performance tests that can be used to evaluate asphalt mixes and ultimately extend the life of asphalt pavements.
    NCHRP Project 09-57, "Experimental Design for Field Validation of Laboratory Tests to Assess Cracking Resistance of Asphalt Mixtures," developed experimental designs for the ruggedness testing and field validation of candidate laboratory tests to assess the resistance of asphalt mixtures to the four cracking types noted above. Candidate test methods were selected through (a) a critical review of relevant research and state mixture design practices and (b) a workshop with invited experts held in February 2015. The findings and conclusions of the project are summarized in NCHRP Research Results Digest 399: Field Validation of Laboratory Tests to Assess Cracking Resistance of Asphalt Mixtures: An Experimental Design; the contractor's final project report is available at http://onlinepubs.trb.org/onlinepubs/nchrp/docs/NCHRP09-57_FR.pdf.
    This project is the first in a series proposed to accomplish the field validation designed in Project 09-57. Research is needed to conduct ruggedness testing of the candidate test methods in anticipation of future field validation experiments.
MiamiOH OARS

Identification and application of acidification thresholds in coastal ecosystems - 0 views

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    The purpose of this document is to advise the public that NOAA/NOS/National Centers for Coastal Ocean Science (NCCOS and the NOAA Ocean Acidification Program (OAP) are soliciting proposals for the Identification and Application of Acidification Thresholds in Coastal Ecosystems. Funding is contingent upon the availability of Fiscal Year 2018 Federal appropriations. It is anticipated that projects funded under this announcement will have a September 1, 2018 start date. Total funding for this research: Applicants should submit proposals not to exceed $350,000 per year for projects generally 2-3 years in duration, with a total multi-year budget not to exceed $1,050,000. If funds become available for this program, up to approximately $1,000,000 may be available in Fiscal Year 2018 for the first year of about 1-3 projects with expected start dates of September 1, 2018. Funding for this program is contingent upon availability of funds, which may not have been appropriated at the time of this announcement.. While projects are expected to be 2-3 years in scope, funding may be spread over 4 federal fiscal years depending on how project timelines align with federal budgets.
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Dynamics of Coupled Natural and Human Systems - 0 views

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    The Dynamics of Coupled Natural and Human Systems (CNH) Program supports interdisciplinary research that examineshuman and natural system processes and the complex interactions among human and natural systems at diverse scales. Research projects to be supported by CNH must include analyses of four different components: (1) the dynamics of a natural system; (2) the dynamics of a human system; (3) the processes through which the natural system affects the human system; and (4) the processes through which the human system affects the natural system. CNH also supports research coordination networks (CNH-RCNs) designed to facilitate activities that promote future research by broad research communities that will include all four components necessary for CNH funding.
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Research Interests of the Air Force Office of Scientific Research - 0 views

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    The Air Force Office of Scientific Research "we, us, our, or AFOSR" manages the basic research investment for the U.S. Air Force. As a part of the Air Force Research Laboratory (AFRL), our technical experts discover, shape, and champion research within the Air Force Research Laboratory, universities, and industry laboratories to ensure the transition of research results to support U.S. Air Force needs. Using a carefully balanced research portfolio, our research managers seek to foster revolutionary scientific breakthroughs enabling the Air Force and U.S. industry to produce world-class, militarily significant, and commercially valuable products. Our focus is on research areas that offer significant and comprehensive benefits to our national warfighting and peacekeeping capabilities. These areas are organized and managed in two scientific Branches:  Engineering and Information Sciences (RTA) Physical and Biological Sciences (RTB)
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Division of Materials Research: Topical Materials Research Programs | NSF - National Sc... - 0 views

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    Research supported by the Division of Materials Research (DMR) focuses on advancing fundamental understanding of materials, materials discovery, design, synthesis, characterization, properties, and materials-related phenomena. DMR awards enable understanding of the electronic, atomic, and molecular structures, mechanisms, and processes that govern nanoscale to macroscale morphology and properties; manipulation and control of these properties; discovery of emerging phenomena of matter
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Thermal Transport Processes | NSF - National Science Foundation - 0 views

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    The Thermal Transport Processes program is part of the Transport Phenomena cluster, which includes also 1) Combustion and Fire Systems; 2) Fluid Dynamics; and 3) Particulate and Multiphase Processes.
    The Thermal Transport Processes (TTP) program supports engineering research projects that lay the foundation for new discoveries in thermal transport phenomena. These projects should either develop new fundamental knowledge or combine existing knowledge in thermodynamics, fluid mechanics, and heat and mass transfer to probe new areas of innovation. The program seeks transformative projects with the potential for improving our basic understanding, predictability and application of thermal transport processes. Projects should articulate the contribution(s) to the fundamental knowledge supporting thermal transport processes and state clearly the potential application(s) impact when appropriate. Projects that combine analytical, experimental and numerical efforts, geared toward understanding, modeling and predicting thermal phenomena, are of great interest. Collaborative and interdisciplinary proposals for which the main contribution is in thermal transport processes fundamentals are also encouraged.
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Collaborative Research in Magnetic Fusion Energy Sciences on Long-Pulse International S... - 0 views

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    The Fusion Energy Sciences (FES) of the Office of Science (SC), U.S. Department of Energy (DOE), herby announces its interest in receiving applications to carry out experimental research in magnetic fusion energy sciences on long-pulse overseas stellarator facilities, namely Wendelstein 7-X (Germany) and the Large Helical Device (LHD - Japan). The research should be related to the planning, execution, and analysis of experiments concerning the topical areas described below. The FES Burning Plasma Science: Long Pulse portfolio supports U.S. researchers who work in collaboration with foreign scientists to explore critical science and technology issues at the frontiers of magnetic fusion research. These collaborations take advantage of the unique capabilities of the most advanced overseas research facilities.
MiamiOH OARS

Design and Testing of Advanced Carbon Capture Technologies - 0 views

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    The objectives of the Funding Opportunity Announcement (FOA) are to continue the development of carbon capture technologies to either the engineering scale or to a commercial design.
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Great Lakes Restoration Initiative - Bailey's Harbor Coastal Forest Preservation - 0 views

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    The goal of the Great Lakes Restoration Initiative (GLRI) is to target the most significant environmental problems in the Great Lakes ecosystem by funding and implementing projects that address these problems. This single source funding opportunity to The Nature Conservancy funds fee title acquisition of land from a willing seller at the Bailey's Harbor Boreal Forest and Wetlands State Natural Area in Door County, Wisconsin. The program authorizing statutes for GLRI awards are listed in CFDA number 15.662 located at CFDA.gov.
MiamiOH OARS

Chesapeake Bay Trust Proposals Watershed Assistance Grants | RFPs | PND - 0 views

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    The Chesapeake Bay Trust, in partnership with the Maryland Department of Natural Resources and the Maryland Department of the Environment, is accepting proposals for its Watershed Assistance - Two-Year Milestone Support grant program, the purpose of which is to promote local engagement inn the state's Watershed Implementation Plan.
    Through grants of up to $75,000, the program supports design assistance, watershed planning, and programmatic development associated with protection and restoration programs and projects that lead to improved water quality in the Maryland portion of the Chesapeake Bay watershed, the Maryland portion of the Youghiogheny watershed, and the Maryland Coastal Bays. Projects can include but are not limited to using designs, plans, or project proposals to craft future proposals to the Maryland Chesapeake and Atlantic Coastal Bays Trust Fund; developing deliverables that assist implementation of Watershed Implementation Plan Phase II strategies; or crafting proposals for implementation funding through programs at the Chesapeake Bay Trust or other sources of support.
    Local government agencies and nonprofit organizations working on water-quality projects are encouraged to apply.
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