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D&P L.L.C.
UEI: L4EJBS8F1457
# of Employees: 3
HUBZone Owned: No
Socially and Economically Disadvantaged: Yes
Woman Owned: Yes
Award Charts
Award Listing
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An Efficient CFD Algorithm for Store Separation Prediction
Amount: $749,987.00This Small Business Innovation Research project proposes to develop a hybrid Cartesian grid/gridless solver for fast prediction of store separation. In this approach, a Cartesian grid is used to cover ...
SBIRPhase II2010Department of Defense Navy -
A Computational Tool for Modeling Geometric Proximity of Independent Systems
Amount: $99,948.00This SBIR Phase I project proposes to develop an accurate viscous CFD algorithm which can include various small gaps between both static and moving components into the analysis. It is not an easy task ...
SBIRPhase I2009Department of Defense Air Force -
A Coupled Computational Aeroelasticity and Thermal Response Analysis Tool
Amount: $99,968.00This Small Business Innovation Research Phase I project develops a coupled computational aeroelasticity and thermal response analysis tool that can be used to analyze and design ballistic reentry vehi ...
SBIRPhase I2008Department of Defense Air Force -
An Efficient CFD Algorithm for Store Separation Prediction
Amount: $79,942.00This SBIR Phase I project proposes to develop an efficient Computational Fluid Dynamics algorithm for store separation prediction. Compared with overset grid approach, the proposed approach avoids the ...
SBIRPhase I2008Department of Defense Navy -
Gas-Kinetic Computational Algorithms for Hypersonic Flows in Continuum and Transitional Regimes
Amount: $99,992.00This SBIR Phase I project explores two gas-kinetic computational algorithms for simulation of hypersonic flows in both continuum and transitional regimes. One is the gas-kinetic BGK-Burnett solver and ...
SBIRPhase I2008National Aeronautics and Space Administration -
A Cartesian Mesh Method For Turbulent Flow Simulation
Amount: $69,987.00This STTR Phase I project proposes to develop a Cartesian mesh solver for high Reynolds number turbulent flow simulations. Due to its ease of grid generation, simplicity of flow solver, lower computat ...
STTRPhase I2008Department of Defense Navy -
Gas-Kinetic Simulation of Separated Flows
Amount: $749,891.00This SBIR project proposes to develop a gas-kinetic CFD solver for separated turbulent flow simulation. After successfully developing prototype two-dimensional gas-kinetic BGK-NS/Burnett solvers and d ...
SBIRPhase II2008Department of Defense Defense Advanced Research Projects Agency -
STTR Phase I: Experimentally Validated Simulation Tool for Two-Phase Microscale Flows
Amount: $149,972.00This Small Business Technology Transfer (STTR) Phase I project will develop a two-phase cooling system analysis tool based on a two-phase gas-kinetic BGK-Burnett solver. Different from the macroscopic ...
STTRPhase I2008National Science Foundation -
Reduced-Order Modeling of Rotor Induced Flow with Shipboard Interactions
Amount: $79,926.00This SBIR Phase I project proposes to use overset grid HRLES (Hybrid RANS/LES) approach to simulate helicopter shipboard operations. After obtaining the computational results at a set of training poin ...
SBIRPhase I2007Department of Defense Navy -
Gas-Kinetic Simulation of Separated Flows
Amount: $98,981.00This SBIR project proposes to develop a gas-kinetic CFD solver for separated flow simulation. Compared with the traditional macroscopic CFD approach, a gas-kinetic CFD approach is more suitable for tu ...
SBIRPhase I2007Department of Defense Defense Advanced Research Projects Agency