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Stability of explicit Navier-Stokes procedures using k-[epsilon] and k-[epsilon]/algebraic Reynolds stress turbulence models

Journal Article · · Journal of Computational Physics; (United States)
;  [1]
  1. Pennsylvania State Univ., Univ. Park, PA (United States)
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A three-dimensional explicit Navier-Stokes procedure has been developed for application to compressible turbulent flows, including rotation effects. In the present work, a numerical stability analysis of the discrete, coupled system of seven governing equations is presented. Order of magnitude arguments are presented for flow and geometric properties typical of internal flows, including turbomachinery applications, to ascertain the relative importance of grid stretching, rotation and turbulence source terms, and effective diffusivity on the stability of the scheme. It is demonstrated through both analysis and corroborative numerical experiments that: (1) It is quite feasible to incorporate, efficiently, a two-equation k-[epsilon] turbulence model in an explicit time marching scheme, provided certain numerical stability constraints are enforced. (2) The role of source terms due to system rotation on the stability of the numerical scheme is not significant when appropriate grids are used and realistic rotor angular velocities are specified. (3) The direct role of source terms in the turbulence transport equations on the stability of the numerical scheme is not significant when appropriate grids are used and realistic freestream turbulence quantities are specified, except in the earliest stages of iteration (a result which is contrary to that generally perceived). (4) There is no advantage to numerically coupling the two-equation model system to the mean flow equation system, in regard to convergence or accuracy. (5) For some flow configurations, including turbomachinery blade rows, it is useful to incorporate the influence of artificial dissipation in the prescription of a local timestep (6) Explicit implementation of an algebraic Reynolds stress model (ARSM) is intrinsically stable provided that the discrete two-equation transport model which provides the necessary values of k and [epsilon] is itself stable. 33 refs., 11 figs.

OSTI ID:
7205131
Journal Information:
Journal of Computational Physics; (United States), Journal Name: Journal of Computational Physics; (United States) Vol. 103:1; ISSN 0021-9991; ISSN JCTPAH
Country of Publication:
United States
Language:
English

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Related Subjects

42 ENGINEERING
420400* -- Engineering-- Heat Transfer & Fluid Flow
99 GENERAL AND MISCELLANEOUS
990200 -- Mathematics & Computers
COMPRESSIBLE FLOW
DIFFERENTIAL EQUATIONS
EQUATIONS
FLUID FLOW
NAVIER-STOKES EQUATIONS
NUMERICAL SOLUTION
PARTIAL DIFFERENTIAL EQUATIONS
THREE-DIMENSIONAL CALCULATIONS
TURBULENT FLOW