Group items tagged

The Federal Highway Administration (FHWA) hereby requests applications for assistance to result in the award of a Cooperative Agreement (Agreement), entitled "Development and Deployment of Innovative Asphalt Pavement Technologies." The purpose of this proposed Agreement is to stimulate, facilitate, and expedite the deployment and rapid adoption of new and innovative technology relating to the design, production, testing, control, construction, and investigation of asphalt pavements. The proposed project is a cooperative effort between the FHWA and the Recipient to improve the quality and performance of asphalt pavements. Products shall include developing marketing/implementation plans, engaging subject matter experts to aid in conducting forensic investigations pertaining to deployment and in the refinement of specifications and practices, developing web-based training tools, marketing of case studies, data analysis, market analysis, specification tracking, compilation of findings, and supporting stakeholder engagement. This effort will leverage the unique technology capabilities and facilities of the Recipient with FHWA's mission.

The Office of Energy Efficiency and Renewable Energy (EERE) intends to issue, on behalf of the Fuel Cell Technologies Office, a Funding Opportunity Announcement (FOA) entitled ?Hydrogen and Fuel Cell Technologies Research, Development, and Demonstrations?. This Funding Opportunity Announcement (FOA) will cover a broad spectrum of the FCTO portfolio with topics ranging from research and development (R&D) to demonstration and deployment projects. In particular, the R&D areas of interest for this FOA include hydrogen production via microbial biomass conversion; low PGM catalyst development for PEM fuel cell applications; development of an integrated intelligent hydrogen dispenser; and fuel cell and hydrogen manufacturing R&D focusing on hydrogen delivery pipeline manufacturing R&D. This FOA also includes demonstration topic areas that will help to accelerate adoption of hydrogen and fuel cell technologies with specific interest in mobile hydrogen refue lers, fuel cell powered range extenders for light duty hybrid electric vehicles, and a Communities of Excellence topic featuring hydrogen and fuel cell technologies. The FOA will include two general Areas of Interest each with several Subtopics: Area of Interest 1: Fuel Cell and Hydrogen Technologies Research and Development (R&D) 1a. Hydrogen Production R&D: Microbial Biomass Conversion. 1b. Fuel Cell Technologies R&D: Low Platinum Group Metal Catalysts and Supports. 1c. Hydrogen Delivery R&D: Integrated Intelligent Hydrogen Dispensers for 700 bar Gaseous Refueling of Fuel Cell Electric Vehicles. 1d. Hydrogen and Fuel Cell Manufacturing R&D: Hydrogen Delivery Pipeline Manufacturing. Area of Interest 2: Demonstration and Deployments to Enable Early Adoption of Fuel Cell and Hydrogen Technologies. 2a. Hydrogen and Fuel Cell Technology Validation: Mobile Refueling. 2b. Market Transformation: Demonstration and Deployment of Plug-In Fuel Cell Hybrid Electric Light- Duty Vehicle. 2c. FCTO Crosscutting: America?s Climate Commu

Through this Funding Opportunity Announcement (FOA), the Department's Office of Indian Energy is soliciting applications from Indian tribes (including Alaska Native regional corporations, village corporations, tribal consortia, and tribal organizations) and Tribal Energy Resource Development Organizations to install (1) facility-scale clean energy and energy efficiency projects and (2) community-scale clean energy projects on Indian lands. The Funding Opportunity Announcement is soliciting applications under two Topic Areas: (1) Install clean energy and energy efficiency retrofit projects for tribal buildings (Topic Area 1); a. Clean Energy Systems (Topic Area 1.a.) b. "Deep Energy Retrofit" Energy Efficiency Measures (Topic Area 1.b.) And, (2) Deploy clean energy systems on a community-scale (Topic Area 2). Under Topic Area 1, DOE is seeking applications for the deployment of facility-scale: (a) clean energy systems (renewable energy power systems or combined heat and power systems) to displace electrical, heating and/or cooling loads by at least 15%; and (b) deep energy retrofit energy efficiency measures to reduce the total of all energy used in a building or buildings by at least a 20%. Under Topic Area 2, DOE is soliciting applications for the deployment of community-scale clean energy systems of 50 kW or more (or for heating or cooling the Btu equivalent of 170,607 Btu/hour) on Indian lands to provide electricity, and/or heating or cooling for many buildings or to an entire tribal community. Under this FOA, a 50% cost share of total project costs (100% match against DOE funds) is required, unless an Applicant requests a reduction in the cost share as part of the application and receives approval from DOE. Applicants may request up to a 40% reduction in cost share, to no less than 10% of the total project costs. Cost share reduction requests to less than 10% will not be considered. If DOE does not grant a request for reduced cost share, the Applicant will

Please review important information below about the EERE Exchange website as it relates to this FOA. This FOA supports Research and Development (R&D) partnerships leading to innovative designs and processes for the manufacturing and assembly of wind turbine blades in order to facilitate deployment of the next generation of multi-megawatt wind turbines. Supported projects will develop cost-competitive integrated solutions that address the challenges of fabricating, transporting overland, and assembling rotor blades longer than 60m, with design concepts scalable to greater lengths, and installing them at wind turbine hub heights of at least 120m. This FOA is intended to be forward-looking in addressing U.S. market dynamics and domestic manufacturing opportunities through innovative solutions to constructing and assembling larger blades directly applicable to mitigating U.S. transportation constraints. Awards under the FOA will support partnerships between DOE and research and development (R&D) teams, including manufacturers. The objectives of this FOA are to: 1. Reduce the levelized cost of energy (LCOE) of land-based wind power in appropriate wind regimes by enabling the use of taller towers over their entire lifecycle, allowing wind turbines to capture stronger wind resources aloft. 2. Increase the wind turbine deployment opportunities in lower wind speed regions across the country where wind energy has previously been more expensive to deploy. 3. Increase U.S. competitiveness in alignment with the EERE Clean Energy Manufacturing Initiative (CEMI). Single Topic Area: This FOA is focused solely on R&D projects intended to raise the technology readiness level of large wind turbine blade manufacturing and installation concepts. New innovations in blade design as well as improvements in manufacturing and assembly processes are expected outcomes of this FOA. Solutions may include, but are not limited to, modular, segmented or site-fabricated blade technologies. Resulting

The SunShot Initiative (SunShot) is a national collaborative effort to make solar energy cost-competitive with other forms of electricity by the end of the decade. The installed cost of solar photovoltaics (PV) has reduced significantly in recent years, spurring significant and accelerating deployment of PV systems. With the anticipated proliferation of solar power at the centralized and distributed scales, the variability and uncertainty of the solar resource poses challenges for reliably integrating photovoltaics (PV) with electric power systems, both at the distribution and bulk system levels. The goal of the Department of Energy, Energy Efficiency and Renewable Energy, SHINES Funding Opportunity is to enable the development and demonstration of integrated, scalable, and cost-effective technologies for solar that incorporates energy storage and works seamlessly to meet both consumer needs and the needs of the electricity grid. Such an integrated solution should utilize smart inverters, and be capable of working with smart buildings, smart appliances, and utility communication and control systems. The solutions thus developed will enable widespread sustainable deployment of low-cost, flexible, and reliable PV generation, and provide for successful integration of PV power plants with the electric grid. The full Funding Opportunity Announcement (FOA) is posted on the EERE eXCHANGE website at https://eere-exchange.energy.gov. Applications must be submitted through the EERE eXCHANGE website to be considered for award. The applicant must first register and create an account on the EERE eXCHANGE website. A User Guide for the EERE eXCHANGE can be found on the EERE website https://eere- exchange.energy.gov/Manuals.aspx after logging in to the system. Information on where to submit questions regarding the content of the announcement and where to submit questions regarding submission of applications is found in the full FOA posted on the EERE eXCHANGE website.

The goal of the Carbon Storage Program of the U.S. Department of Energy is to develop and advance both onshore and offshore carbon storage technologies that will significantly improve the effectiveness of the technology, reduce the cost of implementation, and be ready for widespread commercial deployment in the 2025-2035 timeframe. The objective of this announcement is to secure applications that will support efforts to develop technologies that utilize CO2 from coal-fired power plants as a reactant to produce useful products without generating additional CO2 or greenhouse gas emissions validated via a product Life Cycle Analysis.

The goal of the Carbon Storage Program of the U.S. Department of Energy is to develop and advance both onshore and offshore carbon storage technologies that will significantly improve the effectiveness of the technology, reduce the cost of implementation, and be ready for widespread commercial deployment in the 2025-2035 timeframe. The objective of this announcement is to secure applications that will support efforts to develop technologies that utilize CO2 from coal-fired power plants as a reactant to produce useful products without generating additional CO2 or greenhouse gas emissions validated via a product Life Cycle Analysis.

The U.S. Department of Energy (DOE) is seeking input from industry, academia, national laboratories and other biofuels and bioproducts stakeholders to identify existing pilot or process development scale facilities with the capability to perform process verifications for biomass conversion pathways to biofuels, bioproducts or intermediates which integrate multiple unit operations on a scale of approximately 0.5 or greater tons of dry biomass input per day. The mission of DOE's Bioenergy Technologies Office (BETO) is to develop and transform the country's biomass resources into commercially-viable high performance biofuels, bioproducts, and biopower through targeted research, development, demonstration and deployment (RD&D) supported through public and private partnerships.

The U.S. Department of Energy (DOE) is seeking input from industry, academia, national laboratories and other biofuels and bioproducts stakeholders to identify existing pilot or process development scale facilities with the capability to perform process verifications for biomass conversion pathways to biofuels, bioproducts or intermediates which integrate multiple unit operations on a scale of approximately 0.5 or greater tons of dry biomass input per day. The mission of DOE's Bioenergy Technologies Office (BETO) is to develop and transform the country's biomass resources into commercially-viable high performance biofuels, bioproducts, and biopower through targeted research, development, demonstration and deployment (RD&D) supported through public and private partnerships.

To potentially support the full-scale testing of MHK wave energy devices, the Water Power Program intends to evaluate site locations, designs, and estimated costs for an open water, fully energetic domestic wave test facility. It is expected that a viable grid-connected facility will be capable of testing both scaled prototypes and full-scale (utility-scale) wave energy conversion devices in order to evolve reliable, low cost, renewable energy alternatives to fossil fuel. Prototype testing is essential to mature existing wave technologies, validate performance against analytic models, demonstrate compliance with applicable design standards and thereby mitigate the technical and financial risk of developing and deploying mass-produced wave energy devices, plants, technologies and related products. Construction and operation of a full-scale domestic wave test facility will assist the U.S. industry by identifying design and manufacturing deficiencies early in the development cycle and validate modifications and improvements prior to commercial deployment. Ultimately, this new testing capability will improve the country?s competitiveness in MHK energy technology, encourage domestic manufacturing, job creation, and provide a new technology that utilizes an untapped renewable resource to help achieve the nation?s energy goals. This FOA is intended to identify possible site locations and evaluate the potential to establish a national wave testing facility within U.S. territorial waters. 

The Office of Energy Efficiency and Renewable Energy (EERE), within the U.S. Department of Energy (DOE), invests in high-risk, high-value research, development and deployment in energy efficiency and renewable energy technologies. EERE, through the Building Technologies Office (BTO) seeks to develop technologies, techniques, and tools for making buildings more energy efficient, productive, and affordable. BTO's strategic goal is to significantly improve the energy efficiency of new and existing buildings to reduce national energy demand and allow the nation to work toward greater energy independence and a cleaner environment. This Funding Opportunity Announcement (FOA) is targeted specifically at research to increase energy savings and reduce consumer bills through improved compliance with building energy codes. The first and largest topic area for this FOA is to develop and test a methodology for identifying the commercial energy code requirements that can provide the maximum cost-effective energy and cost savings through increased compliance. The methodology will be tested in selected building types and climate zones. Quantifying those savings will create the foundations of a business case for private investors, particularly utilities, to fund programs aimed at increasing compliance. The empirical data to support such an investment does not currently exist.

NSF hereby solicits proposals to manage and operate one or more components of the National Geophysical Observatory for Geoscience (NGEO). NGEO would comprise a distributed, multi-user, national facility for the development, deployment, management, and operational support of modern geodetic, seismic, and related geophysical instrumentation and services to serve national goals in basic research and education in the Earth sciences. In addition, NGEO would support mission goals of the National Aeronautics and Space Administration (NASA), the National Oceanic and Atmospheric Administration (NOAA), and U.S. Geological Survey (USGS) for global real-time earthquake, volcano, and tsunami observations, early warning and hazard mitigation efforts, nuclear test ban verification, precise positioning and timing, and other Earth observation needs. NGEO would also support commercial and international groups that depend on NGEO capabilities for an increasingly wide range of applications.

The purpose of this document is to advise the public that NOAA/NOS/NCCOS/CSCOR is soliciting research applications under the Northern Gulf of Mexico Ecosystems and Hypoxia Assessment Program (NGOMEX) for projects expected to last 2 years in duration. Research applications will propose pilot studies to test application of gliders to measure dissolved oxygen in the large hypoxic zone ("dead zone") along the northern Gulf of Mexico continental shelf and, within 2 years, complete a comprehensive plan to transition to operations the deployment of gliders for hypoxic zone monitoring east and west of the Mississippi delta, to complement shipboard and fixed (mooring/platform) observing system monitoring. Funding is contingent upon the availability of Fiscal Year 2015 Federal appropriations.

The U.S. Department of Energy Federal Energy Management Program (FEMP), within the Office of Energy Efficiency and Renewable Energy, works with key individuals to accomplish energy change within organizations by bringing expertise from all levels of project and policy implementation to enable Federal agencies to meet energy-related goals and to provide energy leadership to the country. The Assisting Federal Facilities with Energy Conservation Technologies Funding Opportunity Announcement (FOA) will provide direct funding to Federal agencies for the development of capital projects to initiate, supplement, improve or otherwise increase the viability and deployment of energy efficiency and renewable energy investments at U.S. Federal government-owned facilities.

This Funding Opportunity Announcement supports the Vehicle Technologies Office's goals and objectives for reducing petroleum consumption through the research, development, and deployment of alternative fuel and vehicle electrification technologies that significantly reduce petroleum consumption and greenhouse gas emissions, while meeting or exceeding vehicle performance and cost expectations.

The United States Department of Energy National Energy Technology Laboratory (NETL) is seeking innovative research and development of the key crosscutting technologies (sensors and controls, high performance materials, simulation based engineering, and water management research) to enable development of next generation advanced energy systems. These technologies will contribute to the goals of high efficiency, near-zero emissions, and effective carbon capture for the next generation energy systems. Innovations in these areas are being supported by NETLs Crosscutting Research Program which aims at bridging the gap between the basic sciences and applied research as it relates to Advanced Energy Systems that utilize domestic resources. Long range transitional type research is needed to support the identification and growth of novel concepts that will lead to scientific breakthroughs and early adoption of innovative concepts into applications for power generation. It is envisioned that the projects will involve multi-organizational teams with phased projects that consider, in part, the needs and interest of the fossil power generation community as a whole, as well as accelerating the development and deployment of crosscutting technologies.

As part of DOE?s Office of Energy Efficiency and Renewable Energy (EERE), FEMP works with key individuals to accomplish energy change within organizations by bringing expertise from all levels of project and policy implementation to enable Federal agencies to meet energy-related goals and to provide energy leadership to the country. The AFFECT FOA for FY 2015 will provide direct funding to Federal agencies for the development of capital projects to initiate, supplement, improve or otherwise increase the viability and deployment of renewable energy investments at U.S. Federal government-owned facilities. The intent of the AFFECT FOA is for these capital projects to help facilitate the wider adoption of these technologies at other Federal facilities. Using the authority provided in Public Law 102-486, funding provided under the AFFECT FOA will implement FEMP?s continuing efforts to promote widespread energy efficiency and renewable energy technology dep loyment in the Federal sector. Projects selected for funding under the AFFECT FOA will support FEMP?s ongoing effort to build agency capacity through project implementation, encourage energy cost savings, and promote significant recipient involvement through cost leveraging from both Federal and non-Federal sources. The full Funding Opportunity Announcement (FOA) is posted on the EERE eXCHANGE website at https://eere-exchange.energy.gov. Applications must be submitted through the EERE eXCHANGE website to be considered for award. The applicant must first register and create an account on the EERE eXCHANGE website. A User Guide for the EERE eXCHANGE can be found on the EERE website https://eere- exchange.energy.gov/Manuals.aspx after logging in to the system. Information on where to submit questions regarding the content of the announcement and where to submit questions regarding submission of applications is found in the full FOA posted on the EERE eXCHANGE website.

Power cycles based on a supercritical carbon dioxide, SCO2, working fluid have the potential for higher thermal efficiencies and a lower capital cost when compared to state of the art steam-based power cycles. The cost and performance of recuperators are currently seen as a significant barrier to the full-scale demonstration and economic viability of SCO2 power cycle technology. The purpose of this FOA is to seek applications for the development of high temperature recuperator technologies that are capable of handling the SCO2 RCBC system requirements while also maintaining a cost effectiveness required for commercial adaptation. Modular concepts and or strategies that are capable of scalability to address the wide variation in size, capacity and temperature anticipated for the varied applications are of particular interest. Responsive applications will provide a plan for focused research and development of innovative designs, materials and manufacturing methods to produce scalable, cost- effective recuperators suitable for deployment in large-scale SCO2 power cycle applications.

The purpose of this modification is to publish questions and responses regarding the FOA and to provide a link to the Webinar download. The questions and responses can be found in Attachment 002. A copy of the March 18, 2015 webinar and its slides can be downloaded from the CERC website: http://www.us-china-cerc.org/Energy_Water.html The Department of Energy is soliciting applications for the formation of a Consortium to pursue five identified R&D topics at the nexus of energy and water. These topics are: 1) water use reduction at thermoelectric plants; 2) treatment and management of non-traditional waters; 3) improving sustainable hydropower design and operation; 4) climate impact modeling, methods, and scenarios to support improved energy and water systems understanding; and 5) data and analysis to inform planning, policy, and other decisions. Each responsive proposal will address all five topics; DOE is offering a mechanism to facilitate partnering during the Application process. The Consortium that is funded through this solicitation will form a new technical track under the U.S.-China Clean Energy Research Center, which is a bilateral initiative to encourage R&D collaboration and accelerate technology development and deployment in both countries (see: http://www.us-china-cerc.org). This DOE funding opport unity will support the U.S. Consortium. In parallel, and with equivalent resources, Chinese funding will support a counterpart Chinese Consortium.

The Department of Energy's (DOE) Office of Nuclear Energy (NE) conducts crosscutting nuclear energy research and development (R&D) and associated infrastructure support activities to develop innovative technologies that offer the promise of dramatically improved performance for advanced reactors and fuel cycle concepts while maximizing the impact of DOE resources. NE strives to promote integrated and collaborative research conducted by national laboratory, university, industry, and international partners under the direction of NE's programs. NE funds research activities through both competitive and direct mechanisms, as required to best meet the needs of NE. This approach ensures a balanced R&D portfolio and encourages new nuclear power deployment with creative solutions to the universe of nuclear energy challenges. This FOA addresses the competitive portion of NE's R&D portfolio as executed through the Nuclear Energy University Programs (NEUP), Nuclear Energy Enabling Technologies Crosscutting Technology Development (NEET CTD), and Advanced Test Reactor National Scientific User Facility (ATR NSUF). NEUP utilizes up to 20 percent of funds appropriated to NE's R&D program for university-based infrastructure support and R&D in key NE program-related areas: Fuel Cycle Research and Development (FC R&D), Reactor Concepts Research, Development and Demonstration (RC RD&D), and Nuclear Energy Advanced Modeling and Simulation (NEAMS). NEET CTD supports national laboratory-, university- and industry-led crosscutting research. By establishing the NSUF in 2007, DOE-NE opened up the world of material test reactors, beam lines, and post-irradiation examination facilities to researchers from U.S. universities, industry and national laboratories by granting no-cost access to world-class nuclear research facilities. In addition to the consolidation of the NSUF Call for Applications (CFA) for access to capabilities, NEUP or NEET CTD projects requiring irradiation testing and/

The Office of Energy Efficiency and Renewable Energy (EERE), within the U.S. Department of Energy (DOE), invests in high-risk, high-value research, development and deployment in energy efficiency and renewable energy technologies. EERE, through the Building Technologies Office (BTO) is issuing a Funding Opportunity Announcement (FOA) DE-FOA-0001117, entitled ?Building America Industry Partnerships for High Performance Housing Innovations?. The FOA seeks to develop technologies, techniques, and tools for making buildings more energy efficient, productive, and affordable. BTO's strategic goal is to significantly improve the energy efficiency of new and existing buildings to reduce national energy demand and allow the nation to work toward greater energy independence and a cleaner environment. With this FOA, EERE anticipates selecting and funding 1 to 4 building science teams in 2015 for the Building America Research Program. Selected teams will conduct applied Research and Development (R&D) in real world houses, develop and implement solutions to three inter-related core technical challenges which are necessary to meet the program goals for both new and existing homes. Core technical challenges include: A) high performance, low risk building envelope assemblies and systems to achieve low heating and cooling loads; B) optimal comfort systems (HVAC and distribution) for low-load homes; and C) high performance ventilation systems and indoor air quality strategies for low-load homes The full Funding Opportunity Announcement (FOA) is posted on the EERE eXCHANGE website at https://eere-exchange.energy.gov. Applications must be submitted through the EERE eXCHANGE website to be considered for award. The applicant must first register and create an account on the EERE eXCHANGE website. A User Guide for the EERE eXCHANGE can be found on the EERE website https://eere- exchange.energy.gov/Manuals.aspx after logging in to the system. Information on where to submit questions regardi

Please review important information below about the EERE Exchange website as it relates to this FOA. A recent study by Oak Ridge National Lab has shown that there is up to 60 GW of new hydropower development potential available in the United States. Most of the available sites come with challenges with regard to environmental and social sustainability and cost effective development. To address these challenges, DOE?s Water Program initiated a new technology program, HydroNEXT to focus on hydropower technology innovation that will foster development of potential new hydropower capacity in the U.S. The HydroNEXT effort continues in 2015, through this FOA, aimed at the development of suitable technologies to overcome environmental, social, and LCOE challenges. DOE will solicit innovative ideas to harness hydropower that can be rapidly built, removed, and replaced when necessary. Applicants will be encouraged to provide new concepts for alternative hydropower systems that will lower costs of civil infrastructure development, can be deployed in a maximum of 2 years with relatively low environmental impacts, and can be removed or replaced after their intended life is completed. These concepts and systems will be able to operate at a cost that is competitive with traditional sources of generation. The three topic areas covered by this FOA are outlined below: Topic Area 1: Design and laboratory testing of new rapidly deployable hydropower technologies that can be easily removed or replaced at the end of their useful life, including, but not limited to, water impounding structures, water conveying systems, and innovative pre-fabricated structures. Topic Area 2: Research on innovative methods and/or materials for construction of conventional hydropower facilities including, but not limited to, concrete alternatives, in-water construction, and innovative advanced tunneling methods. Topic Area 3: Design and laboratory testing of new and innovative conventional hydropower powert