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NIELSEN ENGINEERING & RESEARCH, INC.
UEI: N/A
# of Employees: 4
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Automated System for CFD Solution Quality Assessment
Amount: $70,000.00N/A
SBIRPhase I1999National Aeronautics and Space Administration -
A Practical Variable Geometry Aero/Hydrodynamic Control Surface
Amount: $743,331.00Nielsen Engineering & Research (NEAR) is proposing the development of a practical, variable geometry fluid mechanical control surface which offers reduced weight, complexity, power consumption, and co ...
SBIRPhase II1998Department of Defense Defense Advanced Research Projects Agency -
Innovative Solid-State All-Weather Shear Stress Transducers
Amount: $99,363.00Nielsen Engineering & Research (NEAR) is proposing to investigate the feasibility of two innovative solid-state concepts for MEMS-based turbulent wall shear-stress transducers. The first design, whic ...
SBIRPhase I1998Department of Defense Army -
An Intelligent Information Search Agent For The Aerodynamics Engineering Process
Amount: $502,083.00N/A
SBIRPhase II1998National Aeronautics and Space Administration -
A Wireless Mems Instrument For Flow Measurements In Turbomachinery
Amount: $599,005.00N/A
SBIRPhase II1998National Aeronautics and Space Administration -
An Integrated Aerodynamic Design/Analysis Approach for Advanced Launch Vehicles
Amount: $70,000.00N/A
SBIRPhase I1998National Aeronautics and Space Administration -
Development of an Indicial Prediction System for Unsteady Aerodynamic Modeling in Simulation and Design of Maneuvering Fighter Aircraft Co
Amount: $422,043.00The goal of the proposed research is to evaluate the use of nonlinear indicia function to efficiently model unsteady aerodynamic responses. Despite the need for enhanced aerodynamic prediction capabi ...
SBIRPhase II1997Department of Defense Air Force -
Advanced Adaptive CFD Methodology for Dynamic Stall
Amount: $614,423.00The overall objective of the proposed SBIR project is to develop a highly accurate, dynamically adaptive grid, Navier-Stokes prediction methodology which will be applicable to the problem of dynamic s ...
SBIRPhase II1997Department of Defense Army -
High Accuracy CFD for Rapid and Efficient Airflow Calculations on Advanced Air Vehicles
Amount: $100,000.00The proposed work will decrease the computer CPU time required for computational fluid dynamics (CFD) caluations by two orders of magnitude relative to CFD methods currently used for design. This wil ...
SBIRPhase I1997Department of Defense Air Force -
High Accuracy CFD for Internal Weapon Carriage and Release
Amount: $69,967.00The proposed work will use computational fluid dynamics (CFD) methods with high-accuracy spatial discretization and improved modeling to provide accurate predictions of weapon bay flows. The spatia ...
SBIRPhase I1997Department of Defense Navy
