A variant of the low-Reynolds-number two-equation turbulence model applied to variable property mixed convection flows

M. A. Cotton; P. J. Kirwin

A variant of the low-Reynolds-number two-equation turbulence model applied to variable property mixed convection flows

M. A. Cotton
, P. J. Kirwin

Research output: Contribution to journal › Article › peer-review

Abstract

Previous work has demonstrated that the low-Reynolds-number model of Launder and Sharma (1974) offers significant advantages over other two-equation turbulence models in the computation of highly non-universal buoyancy-influenced (or "mixed convection") pipe flows. It is known, however, that the Launder and Sharma model does not possess high quantitative accuracy in regard to simpler forced convection flows. A variant of the low-Reynolds-number scheme is developed here by reference to data for constant property forced convection flows. The re-optimized model and the Launder and Sharma formulation are then examined against experimental measurements for mixed convection flows, including cases in which variable property effects are significant. © 1995.

Original language	English
Pages (from-to)	486-492
Number of pages	6
Journal	International Journal of Heat and Fluid Flow
Volume	16
Issue number	6
Publication status	Published - Dec 1995

Keywords

mixed convection
turbulence models
variable properties
vertical pipe flow

Cite this

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title = "A variant of the low-Reynolds-number two-equation turbulence model applied to variable property mixed convection flows",

abstract = "Previous work has demonstrated that the low-Reynolds-number model of Launder and Sharma (1974) offers significant advantages over other two-equation turbulence models in the computation of highly non-universal buoyancy-influenced (or {"}mixed convection{"}) pipe flows. It is known, however, that the Launder and Sharma model does not possess high quantitative accuracy in regard to simpler forced convection flows. A variant of the low-Reynolds-number scheme is developed here by reference to data for constant property forced convection flows. The re-optimized model and the Launder and Sharma formulation are then examined against experimental measurements for mixed convection flows, including cases in which variable property effects are significant. {\textcopyright} 1995.",

keywords = "mixed convection, turbulence models, variable properties, vertical pipe flow",

author = "Cotton, \{M. A.\} and Kirwin, \{P. J.\}",

year = "1995",

month = dec,

language = "English",

volume = "16",

pages = "486--492",

journal = "International Journal of Heat and Fluid Flow",

publisher = "Elsevier BV",

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T1 - A variant of the low-Reynolds-number two-equation turbulence model applied to variable property mixed convection flows

AU - Cotton, M. A.

AU - Kirwin, P. J.

PY - 1995/12

Y1 - 1995/12

N2 - Previous work has demonstrated that the low-Reynolds-number model of Launder and Sharma (1974) offers significant advantages over other two-equation turbulence models in the computation of highly non-universal buoyancy-influenced (or "mixed convection") pipe flows. It is known, however, that the Launder and Sharma model does not possess high quantitative accuracy in regard to simpler forced convection flows. A variant of the low-Reynolds-number scheme is developed here by reference to data for constant property forced convection flows. The re-optimized model and the Launder and Sharma formulation are then examined against experimental measurements for mixed convection flows, including cases in which variable property effects are significant. © 1995.

AB - Previous work has demonstrated that the low-Reynolds-number model of Launder and Sharma (1974) offers significant advantages over other two-equation turbulence models in the computation of highly non-universal buoyancy-influenced (or "mixed convection") pipe flows. It is known, however, that the Launder and Sharma model does not possess high quantitative accuracy in regard to simpler forced convection flows. A variant of the low-Reynolds-number scheme is developed here by reference to data for constant property forced convection flows. The re-optimized model and the Launder and Sharma formulation are then examined against experimental measurements for mixed convection flows, including cases in which variable property effects are significant. © 1995.

KW - mixed convection

KW - turbulence models

KW - variable properties

KW - vertical pipe flow

M3 - Article

VL - 16

SP - 486

EP - 492

JO - International Journal of Heat and Fluid Flow

JF - International Journal of Heat and Fluid Flow

IS - 6

ER -

A variant of the low-Reynolds-number two-equation turbulence model applied to variable property mixed convection flows

Abstract

Keywords

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