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Development of a Complete Model of Turbulence Revisited

The primary technical objective of this research project has been to develop and test a new set of constitutive equations suitable for general engineering applications. In accomplishing this objective, particular emphasis has been focused upon predicting rates of departure from and return to equilib...

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Main Author:	Wilcox,David C
Format:	Report
Language:	English
Subjects:	BOUNDARY LAYER ENGINEERING EQUATIONS EQUATIONS OF MOTION Fluid Mechanics MATHEMATICAL MODELS MOMENTUM TRANSFER NUMERICAL METHODS AND PROCEDURES PHYSICS REYNOLDS NUMBER Reynolds Stress SHEAR STRESSES TURBULENCE UNSTEADY FLOW
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creator	Wilcox,David C
description	The primary technical objective of this research project has been to develop and test a new set of constitutive equations suitable for general engineering applications. In accomplishing this objective, particular emphasis has been focused upon predicting rates of departure from and return to equilibrium. Throughout the research in this project, a secondary goal has been to devise out turbulence model equations subject to the self imposed constraints that the resulting equations pose no special difficulties for conventional numerical procedures, and, to the greatest extent possible, reflect much more of the physics of turbulence than previously attempted in an engineering model. Keywords: Unsteady Boundary layers; Engineering Applications; Turbulence Model Equations; Reynolds Stress; Boundary Layers.
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source	DTIC Technical Reports
subjects	BOUNDARY LAYER ENGINEERING EQUATIONS EQUATIONS OF MOTION Fluid Mechanics MATHEMATICAL MODELS MOMENTUM TRANSFER NUMERICAL METHODS AND PROCEDURES PHYSICS REYNOLDS NUMBER Reynolds Stress SHEAR STRESSES TURBULENCE UNSTEADY FLOW
title	Development of a Complete Model of Turbulence Revisited
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