Hypersonic Transition and Turbulence with Non-Equilibrium Thermochemistry

Abstract

The objective of the completed MURI project was to develop various fundamental building blocks required for assembling a reliable predictive capability for hypersonic turbulent flows in Non-Thermochemical-Equilibriiun (NTE) state. A coordinated three-pronged approach addressing fundamental characterization, physics comprehension and computational prediction of hypersonic NTE turbulent flows has been completed. The main contributions from the completed works are: (1) development of a modular theoretical and computational framework for addressing NTE turbulence: (2) identification of the fundamental physical mechanisms that render NTE mrbulence different from standard incompressible turbulence: (3) compilation of experimental and numerical databases in homogeneous and canonical flows that highlight nonequilibrimn and compressibility effects: (4) proposal of closure models at various degree of sophistication: (4) development of new laser diagnostic techniques developed specifically for characterization of hypersonic NTE mrbulence; and (6) preliminary integration of numerical methods and mrbulence models for efficient CFD simulations. Overall, the completed work should result in crucial improvement in the predictive capabilities.

Document Details

Document Type

Technical Report

Publication Date

Aug 31, 2009

Accession Number

ADA593043

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