Open
Fluid Dynamics
Federal funding opportunity PD-23-1443 from National Science Foundation.
- Posted
- March 21, 2023
- Closes
- See announcement
- Program funding
- $9,175,000
- Cost sharing
- No
- Instrument
- Grant
- Assistance listing
- 47.041
Program funding history
Awards made under Assistance Listing 47.041 across FY2024–FY2026, from public federal spending records.
- FY2024 obligated
- $757M
- FY2025 obligated
- $744.2M
- FY2026 (to date) obligated
- $151.7M
- Awards in window
- 6,130
Top recipients: Regents of the University of Michigan, Purdue University, Georgia Tech Research Corp, Trustees of the University of Pennsylvania, the, Ohio State University, the
Source: USAspending.gov · refreshed July 2026
Synopsis
TheFluid Dynamicsprogram is part of the Transport Phenomena cluster, which also includes 1) theCombustion and Fire Systemsprogram; 2) theParticulate and Multiphase Processesprogram; and 3) theThermal Transport Processesprogram.
TheFluid Dynamicsprogram supports fundamental research toward gaining an understanding of the physics of various fluid dynamics phenomena. Proposed research should contribute to basic scientific understanding via experiments, theoretical developments, and computational discovery.
Major areas of interest and activity in the program include:
- Turbulence and transition: High Reynolds number experiments; large eddy simulation; direct numerical simulation; transition to turbulence; 3-D boundary layers; separated flows; multi-phase turbulent flows; flow control and drag reduction. High-speed boundary layer transition and turbulence at Mach numbers greater than 5 to understand modal and/or non-modal interactions leading to boundary layer transition and the ensuing developing and fully developed turbulent boundary layer flows.Combined experiments and simulations are encouraged.
- Bio-fluid physics:Bio-inspired flows; biological flows with emphasis on flow physics.
- Non-Newtonian fluid mechanics:Single-phase viscoelastic flows; solutions of macro-molecules.
- Bubble dynamics: Bubbles related to cavitation and/or drag reduction or impacting the fluid viscosity (locally) or manipulation of bubbles with external excitation (acoustofluidics).
- Microfluidics and nanofluidics: Micro-and nano-scale flow physics.
- Wind and ocean energy harvesting: Focused on fundamental fluid dynamics associated with renewable energy. The NSF-DOE (Department of Energy) joint funding area is focused on high Reynolds number aerodynamics of thick airfoils (> 21% thickness/chord) operating in complex (3D) steady, unsteady, and separated flows. Impacts of blade surface quality/roughness rotor performance on the aerodynamic/aeroelastic performance of novel rotor geometries and supporting structures are also of interest. Air/sea interactions, including waves/currents, on the hydrodynamic loading for offshore wind turbines. Improved measurement techniques and sensing/control technologies required to characterize the metocean environment impact on performance. The DoE participates in this initiative throughthe Wind Energy Technologies Office (program manager Michael Derby, email: michael.derby@ee.doe.gov).
- Fluid-structure interactions:General FSI applications across the low- to high-Reynolds number range are of interest to NSF. In addition, NSF-AFOSR (Air Force Office of Scientific Research) joint funding area is focused on theory, modeling and/or experiments for hypersonic applications. AFOSR participates in this initiative through the Aerothermodynamics program.
- Canonicalconfigurations:Experimental research is encouraged to develop spatiotemporally resolveddatabases for canonical configurations to either confirm historicalresults or to provide data in an unexplored parameter region. Fidelity and completeness for theoretical/computational validation is a key attribute of theproposed experimental data.
- Artificial intelligence (AI)/machine learning:Innovative AI ideas related to the use of machine learning and other AI approaches in fluid dynamics research to model and control the flows are encouraged.Verifying new models with canonicalconfigurations, when appropriate, is encouraged for theComputational andData-Enabled Science & Engineering(CDS&E) program.
- Instrumentation and Flow Diagnostics: Instrument development for time-space resolvedmeasurements; shear stress sensors; novel flow imaging; and velocimetry.
Who can apply
- Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled "Additional Information on Eligibility"
How to apply
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