Thermal Transport Processes
🏛 U.S. National Science Foundation (NSF)
✓ Free, no account · Source: Grants.gov · Last verified Jul 15, 2026
Can you apply?
This grant is for academic and research institutions pursuing fundamental engineering research in thermal transport phenomena. Universities, including research universities and HBCUs, can apply along with nonprofit research organizations and potentially some private research institutions. The program supports projects that advance basic knowledge in heat transfer, thermodynamics, fluid mechanics, and related areas. Work must address fundamental thermal transport questions with potential real-world applications in energy, climate, biotechnology, or quantum systems.
NSF grants typically require U.S. citizenship or permanent residency for key personnel and institutions must be based in the United States. Graduate students and postdoctoral researchers may be included on projects under faculty mentorship.
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Program description
TheThermal Transport Processesprogram is part of the Transport Phenomena cluster, which alsoincludes1) theCombustion and Fire Systemsprogram; 2) theFluid Dynamicsprogram; and 3) theParticulate and Multiphase Processesprogram.
TheThermal Transport Processesprogram supports engineering research projects that lay the foundation for newadvances 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 in thermal transport processes. The program seeks transformative projects with the potential for improvingbasic 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 fundamentals are also encouraged. Emphasis is placed on research that demonstrates how thermal transport phenomena affect the existence, behavior and dynamics of components and systems.Priority is given to insightful investigations of fundamental problems with clearly defined economic, environmental and societal impacts.
Some specific areas of interest include:
- Convection/diffusion/radiation: Heat and mass transport incomplex structures and surfaces;thermal-related turbulence; development of form-functionrelationships in thermal processes; thermal design methodology; phonon transport and interactions between energy carriers; radiationamplification, controlling, and extinction; interfacial gas-solid andliquid-solid thermal and species-driven phenomena.
- Thermodynamics: Thermal-electric energy conversion; battery-related thermal issues; power generation and propulsion; phase-change and supercritical energy cycles;non-equilibriumthermal processes.
- Biologicalheatand mass transport: Biomimicry;intra- andextra-cellular heat and mass transport; freeze resistancemechanisms;thermotherapy and thermoregulation; organ conservation(freezing and thawing); mass transport in biomedical and health systems.
- Nanothermics,microthermics,and mesothermics: Scaling upnanoscale heat transport processes or coupledheat-mass transport processes; utilization ofnew multi-functional, meta- and graded-materials in thermal transport;nano-texturingand phase-change; multi-scale thermal transport in aprocess.
- Thermal solutions to climate change: Decarbonizing industrial processes; novel heating and cooling technologies with minimal greenhouse gas emissions; thermal-driven clean energy concepts; thermal and thermochemical energy storage; waste heat recovery and transmission; thermal science and technology to enable electrification of energy services.
- Thermal science and quantum technology interface: Quantum sensors for thermal measurements;quantum computing for thermal sciences;thermodynamics and novel cryogenic cooling concepts for quantum devices;thermal transport in quantum materials and quantum phenomena; thermal solutions for next-generation qubits, qubit coupling, and quantum information storage.
- New metrology and artificial intelligence (AI)/machinelearning methodologies in thermal sciences: Advanced thermal imagingand measurement techniques for high-resolutionin situthermal imaging and non-invasive temperature measurement; novel AI/machine learning methodologies and other data-intensive approaches that can be coupled with physics-based models and/or experiments to enable new understanding and discoveries in thermal transport processes.
NOTE: Proposalsincluding chemical kinetics should be submitted to the ENG/CBETCombustion and FireSystemsprogram. Proposals dealing mainly with materials synthesis, processing and characterization should be directed to the ENG/CMMIAdvanced Manufacturingprogram or the Division of Materials Research (DMR) in the Directorate for Mathematical and Physical Sciences (MPS). Proposals at the interface of computational/mathematical sciences and thermal transport are encouraged but should be submitted to theComputational and Data-Enabled Science & Engineering(CDS&E) program.
Proposals seeking the utilization of the International Space Station U.S. National Laboratory should follow the instructions in the NSF/CASIS solicitations (e.g., NSF 22-539). Proposals related to the Air Force Office of Scientific Research (AFOSR) general area of thermal transport properties of novel materials and heterostructures should be submitted as regular proposals to theThermal Transport Processesprogram. Those proposals may be jointly reviewed by NSF and AFOSR using the NSF merit review process. Actual funding format and agency split for an award (depending on availability of funds) will be determined after the proposal selection process. Proposals related to the Department of Energy (DOE) general area of thermal and thermochemical energy storage materials and processes should be submitted as regular proposals to theThermal Transport Processesprogram. In these cases, the PI should contact the program director to confirm suitability of the topic prior to submitting the proposal. Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the PI contact the program director to avoid the possibility of the proposal being returned without review.
Innovativeproposals 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.
INFORMATION COMMON TO MOST CBET PROGRAMS
Proposals should address the novelty and/orpotentially transformative natureof 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 “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” 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 theCAREER program description.
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 & Award Policies & Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals.
Compliance: Proposals that are not compliant with theProposal & Award Policies & Procedures Guide (PAPPG)will be returned without review.
Who can apply
Eligible applicants
How to apply
Application links
Key dates & requirements
Required documents
- NSF PAPPG forms (Project Description, Budget, Budget Justification)
- Biographical sketches for all senior personnel
- Current and Pending Support documentation
- Facilities and Equipment description
- Letters of collaboration or commitment (if multi-institutional)
- Data Management Plan
Program contact
- 👤 National Science Foundation
- 📧 grantsgovsupport@nsf.gov
- 📞 703-292-4261
Funding track record
Recent awards under CFDA 47.041 from the last 3 years — real organizations that won funding through this same program.
Top 10 Largest Recent Awards
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$41,946,862
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$39,155,237
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$38,277,956
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$37,936,436
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$36,940,111
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$36,277,271
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$36,183,087
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$32,471,912
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$32,414,114
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$31,561,058
Top States by Funding
- TX 3 awards $90.6M
- CA 7 awards $85.0M
- IL 5 awards $83.9M
- AZ 2 awards $68.7M
- NC 2 awards $63.3M
Source: USAspending.gov — federal spending transparency. Data covers last 3 years.
Funding history
Annual funding for this program — Federal obligations (CFDA 47.041). How funding has trended year over year.
| 2024 | $752,230,000 | |
| 2025 | $727,730,000 | |
| 2026 est. | $181,990,000 |
FAQ
Who is eligible to apply?
Universities, colleges, and nonprofit research institutions are eligible. For-profit companies typically cannot be primary applicants but may participate as partners. Check NSF eligibility requirements for your specific institution type.
Is there a deadline?
This program uses rolling review. Proposals can be submitted throughout the year, though review times may vary by submission date. Check the NSF website for any specific target dates.
What types of research projects are funded?
Projects should develop fundamental knowledge in thermal transport, combining theory, experiments, and/or modeling. Collaborative and interdisciplinary work is encouraged. Applied work must be clearly grounded in thermal transport fundamentals.
How competitive is this program?
NSF engineering programs are highly competitive. Strong proposals include novel research questions, qualified teams, and clear contributions to fundamental knowledge. Budget your time for a thorough, well-justified proposal.
What is the typical funding range?
NSF engineering research grants vary widely. Individual investigator grants may range from $150,000–$500,000, while larger collaborative or multi-year projects may exceed $1 million. Review recent awards on nsf.gov for realistic expectations.
💡 Tips for applicants
- Ground your research in fundamental thermal transport science, even if applications are mentioned. NSF prioritizes basic knowledge advances over applied problem-solving.
- Use the specific areas of interest in the solicitation as a roadmap. Explicitly state which research areas your work addresses and why it matters.
- Combine multiple approaches (analytical, experimental, numerical) when possible. NSF values projects that integrate different methodologies to understand thermal phenomena.
- Emphasize broader impacts beyond academia. Clearly articulate economic, environmental, or societal benefits, especially for climate or energy-related work.
- Develop a realistic timeline and budget with justification for each personnel cost, equipment need, and research expense. NSF reviewers scrutinize budgets carefully.
⚠️ Common mistakes
Focusing too heavily on applications without grounding work in fundamental thermal transport theory. Weak or unclear articulation of novel research contributions and why the work matters scientifically. Submitting proposals that lack sufficient detail on methodology, making it hard for reviewers to assess feasibility and merit.
Similar grants
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- ROLLING Fluid Dynamics — U.S. National Science Foundation
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