Search Grants — Free, No Account Required

U.S. National Science Foundation

TheCombustion and Fire Systemsprogram is part of the Transport Phenomena cluster, which also includes 1) theFluid Dynamicsprogram; 2) theParticulate and Multiphase Processesprogram; and 3) theThermal Transport Processesprogram. The goal of theCombustion and Fire Systemsprogram is to<span>create new knowledge to support advances in clean energy, climate change mitigation, a cleaner environment and public safety.</span> The program endeavors to createfundamental scientific knowledge that is needed for safe, clean and useful combustion applications and for mitigating the effects of fire.The program aims to identify and understand the controlling basic principles and to use that knowledge to create predictive capabilities for designing and optimizing practical combustion devices and understanding fire. Important outcomesfor this program include: <ul type="disc"> <li>broad-based tools &mdash; experimental, theoretical, andcomputational &mdash; that can be applied to a variety of problems in combustion technologies and fire;</li> <li>science and technology for clean and efficient generation of power;</li> <li>discoveries that enable clean environments (for example, by reduction in combustion-generated pollutants); and</li> <li>enhanced public safety and climate change mitigation through research on wildland and building fire growth, inhibition, and suppression.</li> </ul> Research areas of interest for this program include: <ul type="disc"> <li>Basic combustion science: Combustion of gas, liquid, and solid fuels over abroad range of temperatures, pressures, and compositions; combustion at supercritical conditions; advanced propulsion concepts; flame synthesis ofmaterials; integration of fuel design and combustion; control of reaction pathways; development of chemical kinetics models, analytical and numerical predictive methods, and advanced diagnostic tools.</li> <li>Combustionscience related to clean energy: Increasing efficiency and reducing pollution; production and use of renewable and/or carbon-free fuels; biomass pyrolysis, gasification, and oxidation; technologies such as oxy-fuel combustion and chemical looping combustion for carbon capture.</li> <li>Fireprevention: Improved understanding of building and wildland fires to prevent their spread, inhibit their growth, and suppress them; prediction and mitigation of fires in the wildland-urban interface.</li> <li>Turbulence-chemistry interactions:Fundamental understanding of turbulent flow interactions with finite-rate chemical kinetic pathways at high Reynolds and Karlovitz number conditions, including but not limited to: (1) fundamental experiments to generate physico-chemical data to reduce theuncertainty of combustion chemistry and turbulent combustion models; (2)spatially/temporally well-resolved, multi-scale/multi-physics computations;novel approaches of developing embedded multi-scale direct numericalsimulation (DNS) of complex geometries and data-assimilations forincorporating measured data from the state-of-art in situ diagnostic approaches; (3) other innovative approaches on development and validation of predictive computational methods. NOTE: This is an NSF-AFOSR (Air Force Office of Scientific Research) joint funding area. Proposals will be jointly reviewed by NSF and AFOSR using the NSF merit reviewprocess.Actual funding format and agency split for an award(depending on availabilityof funds) will be determined after the proposal selection process. The AFOSR program that participates in this initiative is the program on Energy, Combustion, and Nonequilibrium Thermodynamics.</li> </ul> Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. <div> <div id="_com_1"> INFORMATION COMMON TO MOST CBET PROGRAMS </div> </div> Proposals should address the novelty and/or<a href="http://www.nsf.gov/about/transformative_research/faq.jsp">potentially transformative nature</a>of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the &ldquo;What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)&rdquo; link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged.Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the<a href="https://www.nsf.gov/funding/pgm_summ.jsp?pims_id=503214">CAREER program description</a>. Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal &amp; Award Policies &amp; Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the<a href="https://www.nsf.gov/publications/pub_summ.jsp?ods_key=pappg">Proposal &amp; Award Policies &amp; Procedures Guide (PAPPG)</a>will be returned without review.

Consolidated Edison Foundation

Supports clean energy education, STEM programs, and environmental sustainability in the greater New York City area.

CA Energy Commission

The focus of applicant projects will vary based on the specific federal funding opportunity. Please check the Section II.A., for a list of currently eligible funding opportunities.

CA Energy Commission

Before applying, applicants are encouraged to check Eligibility Requirements in Section II. of this solicitation. As new eligible cost share opportunities are released, the CEC will revise this document with corresponding information on how to apply for cost share for that funding opportunity. Information on currently eligible funding opportunities can be found in the Eligible Federal Funding Opportunities section of the Eligibility Requirements (Section II.A.). The CEC will provide cost share only to applicants that are applying for a FOA or follow-on funding from DOE as described above. If the applicant has already received a federal award or follow-on funding and is seeking retroactive cost share, that application will not be eligible under this solicitation.

CA Energy Commission

Before applying, applicants are encouraged to check Eligibility Requirements in Section II. of this solicitation. As new eligible cost share opportunities are released, the CEC will revise this document with corresponding information on how to apply for cost share for that funding opportunity. Information on currently eligible funding opportunities can be found in the Eligible Federal Funding Opportunities section of the Eligibility Requirements (Section II.A.). The CEC will provide cost share only to applicants that are applying for a FOA or follow-on funding from DOE as described above. If the applicant has already received a federal award or follow-on funding and is seeking retroactive cost share, that application will not be eligible under this solicitation.

CA Energy Commission

Industrial Decarbonization and Improvements to Grid Operations Program (INDIGO) This program was created under Assembly Bill (AB) 209 (The Energy and Climate Change budget bill, Chapter 251, Section 12, Chapter 7.6, Article 2, enacted in September 2022).[1] The purpose is to implement projects at industrial facilities that can provide significant benefits to the electrical grid, reduce emissions of greenhouse gases, achieve the state’s clean energy goals, and exceed compliance requirements. Eligible industrial facilities include, but are not limited to, a facility involved with manufacturing, production, and processing of materials and related support facilities. For the purposes of this solicitation, food and beverage production and processing facilities are excluded.   Food Production Investment Program (FPIP) Originally funded from the Greenhouse Gas Reduction Fund (GGRF), AB 209 codified the FPIP program.[2] The purpose is to implement projects at food production facilities that can support electrical grid reliability and reduce the emissions of greenhouse gases. Eligible food production facilities include, but are not limited to, facilities that are directly involved in food production and processing and related support facilities.      

European Commission - LIFE2027

Crowding in private finance. Call: LIFE Clean Energy Transition. Programme: LIFE2027. Open call from the EU Funding & Tenders Portal.

U.S. National Science Foundation

Plasma science is a transdisciplinary field of research where fundamental studies in many disciplines, including plasma physics, plasma chemistry, materials science, and space science, come together to advance knowledge for discovery and technological innovation. The primary goal of the ECosystem forLeadingInnovation inPlasmaScience andEngineering (ECLIPSE) program is to identify and capitalize on opportunities for bringing fundamental plasma science investigations to bear on problems of societal and technological need within the scope of science and engineering supported by the participating NSF programs. The ECLIPSE meta-program has been created to foster an inclusive community of scientists and engineers, an ecosystem spanning multiple NSF Directorates, in the pursuit of translational research at the interface of fundamental plasma science and technological innovation. The ECLIPSE program builds on the long history of NSF leadership in supporting multi-disciplinary research in plasma science and engineering, and is intended to enhance organizational unity within NSF, and potentially with other funding agencies, in considering proposals and supporting projects that may otherwise struggle to find a natural home within the existing hierarchy of Directorates, Divisions, and programs within the Foundation. Examples of topical areas within the scope of the ECLIPSE program include but are not limited to: Plasma surface interactions, with applications to, e.g., advanced manufacturing, materials processing, and catalysis. Atmospheric pressure plasmas and microplasmas with applications to, e.g., microelectronics, plasma agriculture, environmental remediation, and other clean and decarbonized energy goals enabled by electrification of the chemical industry. Dusty plasmas with applications to, e.g., development of nanomaterials, aerosols, and functionalized surface coatings. Novel sensor development for highly non-equilibrium plasmas with applications to, e.g., cubesat-based geospace measurements and industrial plasma diagnostics. Novel computational modeling for multi-component and/or multi-phase plasma systems with applications to, e.g., space weather prediction and plasma reactor design. Novel studies of plasmons in nano-photonics and nano-optics with applications to, e.g., sub-THz wireless communication and photocatalytic chemical processes. New chemical measurement science for characterizing processes occurring in plasmas and using plasmas as part of measurement systems with applications to, e.g., analysis of environmental contaminants or identification of forensic evidence. Study of fundamental chemical reactions and mechanisms in plasmas with applications to, e.g., novel chemical synthesis. Proposals submitted for consideration by this program should address societal or technological needs within the scope of science and engineering supported by the National Science Foundation. Proposals addressing technology development primarily supported by other US government funding agencies are not eligible for consideration and may be returned without review. Proposers are strongly encouraged to contact the cognizant Program Officers if they are unsure of the suitability of a project to this program. Proposals submitted for consideration by the ECLIPSE program should satisfy the following criteria: (1) clearly articulate the fundamental scientific and/or engineering challenge in plasma science and engineering that may be relevant to more than one NSF program; and (2) provide a substantive discussion of how a resolution of the stated scientific and/or engineering challenge will address specific societal and/or technological needs identified as priorities by the research communities, policymakers and/or other stakeholders. Depending on the nature of the proposal, the latter may be described as the Intellectual Merit or the Broader Impact of the proposed activity. The program encourages inclusion of specific efforts to increase the diversity of the ECLIPSE community and to broaden participation of under-represented groups in Science, Technology, Engineering, and Mathematics (STEM) as Broader Impacts of proposed work. The program welcomes proposals from Historically Black Colleges and Universities (HBCUs), other Minority Serving Institutions (MSIs), and institutions in EPSCoR-eligible jurisdictions, along with collaborations between these institutions. Proposers are also encouraged to address how the proposed efforts may enhance workforce development towards STEM careers associated with the field of plasma science and engineering. The ECLIPSE program is not intended to replace existing programs. A proposal that is requesting consideration within the context of ECLIPSE should begin the title with the identifying acronym "ECLIPSE:" and should be submitted to one of the "Related Programs" listed below. In choosing the most relevant program, proposers are advised to read program descriptions and solicitations carefully and to consult with cognizant Program Officers in advance of proposal preparation. Proposal submissions outside of the scientific scope of the receiving program may be transferred to a different program or may be returned without review. Proposers should ask for consideration and review as an ECLIPSE proposal only if the proposal addresses both of the criteria listed above. Proposals marked for consideration by the ECLIPSE program that do not address both of these criteria may be returned without review or reviewed within the context of an individual program. Supplement requests to existing awards within a program that address both of the above criteria may also be considered. Information Sharing with other Funding Agencies When permitted under an MOU between NSF and another funding agency, NSF may share information from proposals for consideration of joint funding and may invite employees of such organizations to attend merit review panels as observers.

Empire State Development

The Excelsior Jobs Program provides job creation and investment tax credits to businesses in strategic industries including biotechnology, clean energy, financial services, and software/IT.

Empire State Development

The Employee Training Incentive Program provides refundable tax credits to New York State employers for procuring skills training that upgrades, retrains or improves the productivity of their employees. Businesses can also receive tax credits for approved internship programs that provide training in advanced technology, life sciences, software development, or clean energy. The ETIP will make $5 million in tax credits available to businesses annually, with up to $1 million in credits available for approved internship programs.

NYSERDA

Provides funding to build or expand New York State training infrastructure and capacity to strengthen the pipeline of skilled talent for the Energy Efficiency and Clean Technology labor market. Projects funded through this solicitation are intended to develop and/or deliver technical training, relevant education, and hands-on experience to ensure that both new and existing workers, apprentices, journeypersons, and students, as applicable, have the skills, experience, and qualifications required to meet industry demand.

Energy Foundation

Largest US funder of clean energy policy, supporting efficiency, renewables, and transportation electrification at $100M/year.

European Commission - LIFE2027

Energy renovation solutions – Boosting building renovation through effective markets and instruments. Call: LIFE Clean Energy Transition. Programme: LIFE2027. Open call from the EU Funding & Tenders Portal.

U.S. National Science Foundation

In broadest terms, the field of Environmental Engineering is concerned with understanding the impacts of human activities on the public health, natural environmental quality, and natural resources and with developing the scientific basis for identifying, analyzing, solving, mitigating, or managing environmental problems caused by human activities. The field emerged as a separate engineering discipline during the middle third of the 20th century in response to widespread public concern about water and air pollution and increasingly extensive environmental quality degradation. However, its roots extend back to early efforts in public health engineering in the late 19th century, and to ancient times with regard to urban drinking water systems.The Environmental Engineering program supports fundamental research and educational activities across the broad field it serves. The goal of this program is to encourage transformative research which applies scientific principles to minimize solid, liquid, and gaseous discharges into land, inland and coastal waters, and air that result from human activity, and to evaluate adverse impacts of these discharges on human health and environmental quality. The program fosters cutting-edge scientific research based on fundamental science for identifying, evaluating, and developing new methods and technologies for assessing the waste assimilative capacity of the natural environment and for removing or reducing conventional and emerging contaminants from polluted air, water and soils. The program is based on four types of engineering tools - - measurement, analysis, synthesis, and design.Major areas of interest and activity in the program include: * Developing innovative biological, chemical, and physical treatment processes to remove and degrade pollutants from water and air * Measuring, modeling, and predicting the movement and fate of pollutants in the environment * Developing and evaluating techniques to clean up polluted sites by preserving and enhancing the self-purification ability or waste assimilative capacity of natural environmental systems, such as landfills and contaminated aquifers; restoring the quality of polluted water, air, and land resources, and rehabilitating degraded ecosystems. Along with its sibling environmental programs (Energy for Sustainability, Environmental Implications of Emerging Technologies, and Environmental Sustainability), the program fosters environmental sustainability through pollution control and resource management/conservation, and development of techniques to minimize or avoid generating pollution. Research may be directed toward improving the cost-effectiveness of pollution avoidance, as well as developing new principles for pollution avoidance technologies. Research for new and improved sensors of environmental conditions and innovative waste reduction and recycling processes also are important components of this program.The duration of unsolicited awards is generally one to three years. The average annual award size for the program is $100,000. Small equipment proposals of less than $100,000 will also be considered and may be submitted during these windows. Any proposal received outside the announced dates will be returned without review.The duration of CAREER awards is five years. The submission deadline for Engineering CAREER proposals is in July every year. Please see the following URL for more information: http://www.nsf.gov/pubs/2008/nsf08051/nsf08051.jsp.Proposals for Conferences, Workshops, and Supplements may be submitted at any time, but must be discussed with the program director before submission.Grants for Rapid Response Research (RAPID) and EArly-concept Grants for Exploratory Research (EAGER) replace the SGER program. Please note that proposals of these types must be discussed with the program director before submission. Further details are available in the PAPPG download, available below. Please refer to the Proposal and Award Policies and Procedures Guide (PAPPG), January 2009, (NSF 09-1) when you prepare your proposal.

European Climate Foundation

Supports European climate policy and clean energy transition to achieve net-zero emissions.

European Commission - LIFE2027

Facilitating cooperation among energy communities. Call: LIFE Clean Energy Transition. Programme: LIFE2027. Open call from the EU Funding & Tenders Portal.

UK Foreign, Commonwealth & Development Office

Supports developing countries in reducing greenhouse gas emissions through clean energy, sustainable transport, and green finance capacity building grants.

GA Dept of Economic Development

Grants for technology startups, advanced manufacturing, and clean energy innovation projects.

U.S. National Science Foundation

The Geotechnical Engineering and Materials Program (GEM) supports fundamental research in soil and rock mechanics and dynamics in support of physical civil infrastructure systems. Also supported is research on improvement of the engineering properties of geologic materials for infrastructure use by mechanical, biological, thermal, chemical, and electrical processes. The Program supports the traditional areas of foundation engineering, earth structures, underground construction, tunneling, geoenvironmental engineering, and site characterization, as well as the emerging area of bio-geo engineering, for civil engineering applications, with emphasis on sustainable geosystems. Research related to the geotechnical engineering aspects of geothermal energy and geothermal heat pump systems is also supported. The GEM program encourages knowledge dissemination and technology transfer activities that can lead to broader societal benefit and implementation for provision of physical civil infrastructure. The Program also encourages research that explores and builds upon advanced computing techniques and tools to enable major advances in Geotechnical Engineering. The program supports relevant research topics that address the emerging areas of geotechnical engineering and the Grand Challenges to restore and improve urban infrastructure and provide access to clean water described in the following reports: National Research Council, Geological and Geotechnical Engineering in the New Millennium: Opportunities for Research and Technical Innovation. Washington, DC: The National Academies Press, 2006, http://www.nap.edu/openbook.php?record_id=11558 National Academy of Engineering, Grand Challenges for Engineering, http://www.engineeringchallenges.org (Grand Challenges Report) Research focused on natural hazards, such as earthquakes, windstorms, tsunamis and landslides should be submitted to the Engineering for Natural Hazards (ENH) Program (PD 15-7396), unless the research is directed at fundamental soil/rock behavior at the micro level, rather than behavior of systems such as foundations or levees. The GEM program does not fund research that is more appropriate for mission oriented federal agencies, such as research related to nuclear power plants, bridges, pavements, and other transportation structures. Research on natural resource exploration or recovery is not supported by this Program.

CA Energy Commission

The purpose of this solicitation is to provide cost share funding to applicants that apply for and receive one of the following:  An award under an eligible federal Funding Opportunity Announcement (FOA) and meet the requirements of this solicitation, or  Follow-on funding from the U.S. Department of Energy to continue research from a previously awarded federal grant that also received Energy Commission federal cost share funding under PON-14-308, GFO-18-902, or this GFO and the proposed project meets the requirements of this solicitation.   Continuously Updated Eligible Cost Share Opportunities Before applying, applicants are encouraged to check Eligibility Requirements in Section II of this solicitation. As new eligible cost share opportunities are released, the Energy Commission will revise this document with corresponding information on how to apply for cost share for that funding opportunity. Information on currently eligible funding opportunities can be found in the Eligible Federal Funding Opportunities section of the Eligibility Requirements (Section II.A.). The Energy Commission will provide cost share only to applicants that are applying for a federal funding opportunity or follow-on funding as described above. If the applicant has already received a federal award or follow-on funding and is seeking retroactive cost share, that application will not be eligible for CEC cost share funds under this solicitation.

Government of Ontario

Supports projects that reduce greenhouse gas emissions, improve energy efficiency, and promote clean technology adoption across Ontario.

U.S. Department of Energy

Funds grid hardening, modernization, and resilience improvements to prevent outages and facilitate integration of clean energy into the electric grid.

Hawaii State Energy Office

The Hawaii State Energy Office funds projects advancing the state's goal of 100% renewable energy by 2045, supporting solar, wind, energy storage, energy efficiency, and clean transportation initiatives.

Heising-Simons Foundation

Supports policy research and advocacy for clean energy and climate solutions.