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OVERFLOW - the OVERset grid FLOW solver - is a software package for simulating fluid flow around solid bodies using computational fluid dynamics (CFD). It is a compressible 3-D flow solver that solves the time-dependent, Reynolds-averaged, Navier-Stokes equations using multiple overset structured grids.

History

OVERFLOW was developed as part of a collaborative effort between NASA's Johnson Space Center in Houston, Texas and NASA Ames Research Center (ARC) in Moffett Field, California. The driving force behind this work was the need for evaluating the flow about the Space Shuttle launch vehicle. Originally developed in the early 1990s by NASA's Pieter Buning, Dennis Jespersen and others, the code is an outgrowth of earlier codes F3D and ARC3D, and a result of ARC's long history of flow-solver development.[1]
Usage

Scientists use OVERFLOW to better understand the aerodynamic forces on a vehicle by evaluating the flowfield surrounding the vehicle. While wind tunnel testing provides limited data at many flow conditions, CFD simulations provide detailed information about selected conditions, and also provide a distribution of forces on the vehicle, aiding in structural design.

OVERFLOW has also been used to simulate the effect of debris on the space shuttle launch vehicle.[2]
See also

Computational fluid dynamics

References

Judy Conlon (April 1998). "OVERFLOW code empowers Computational Fluid Dynamics". NASA. Retrieved 2008-01-24.

"The Impact of High-End Computing on the Space Shuttle Program" (PDF). NASA Ames Research Center. Retrieved 2008-01-24.

External links

Official NASA OVERFLOW CFD Code web site
Article on OVERFLOW from NASA Insights

Physics Encyclopedia

World

Index

Hellenica World - Scientific Library

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