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Computation and modeling of aero-thermal fields in turbine cascades and strongly curved ductsAdvanced turbulence models are crucial for accurate prediction of rocket engine flows, due to existence of very large extra strain rates, such as strong streamline curvature. Numerical simulation of the turbulent flow in a strongly curved turn-around duct (TAD) has been carried out with a Reynolds stress model (RSM), an algebraic Reynolds stress model (ARSM) and a kappa-epsilon model. the RSM model and the ARSM model are found to capture the turbulence damping due to the convex curvature, but underpredict the turbulence enhancement caused by the concave curvature. To capture the concave curvature effects, it is necessary to modify the epsilon-equation. The modification of episilon-equation suggested by Launder, et.al, provides the correct trend, but over-corrects the curvature effects. A comparative study of two modes of transition in gas turbine, the by-pass transition and the separation-induced transition, has been carried out with several low-Reynolds-number (LRN) kappa-epsilon models. Effects of blade surface pressure gradient, freestream turbulence and Reynolds number on the blade boundary layer development, and particularly the inception of transition are examined in detail. The present study indicates that the turbine blade transition, in the presence of high freestream turbulence, is predicted well with LRN kappa-epsilon models employed.
Document ID
19950002754
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Luo, J.
(Pennsylvania State Univ. University Park, PA, United States)
Lakshminarayana, B.
(Pennsylvania State Univ. University Park, PA, United States)
Date Acquired
August 17, 2013
Publication Date
November 1, 1994
Publication Information
Publication: NASA Propulsion Engineering Research Center, Volume 2
Subject Category
Fluid Mechanics And Heat Transfer
Accession Number
95N70874
Funding Number(s)
CONTRACT_GRANT: NAS8-38867
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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