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Numerical Heat Transfer, Part B: Fundamentals
An International Journal of Computation and Methodology
Volume 45, 2004 - Issue 4
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Original Articles

A NEW WALL FUNCTION STRATEGY FOR COMPLEX TURBULENT FLOWS

T. J. Craft Department of Mechanical, Aerospace and Manufacturing Engineering, Manchester, United Kingdom
,
S. E. Gant Department of Mechanical, Aerospace and Manufacturing Engineering, Manchester, United Kingdom
,
H. Iacovides Department of Mechanical, Aerospace and Manufacturing Engineering, Manchester, United Kingdom
&
B. E. Launder Department of Mechanical, Aerospace and Manufacturing Engineering, Manchester, United Kingdom
Pages 301-318 | Received 01 Jun 2003, Accepted 01 Sep 2003, Published online: 17 Aug 2010
 
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Abstract

Wall functions are widely used and offer significant computational savings compared with low-Reynolds-number formulations. However, existing schemes are based on assumed near-wall profiles of velocity, turbulence parameters, and temperature which are inapplicable in complex, nonequilibrium flows. A new wall function has therefore been developed which solves boundary-layer-type transport equations across a locally defined subgrid. This approach has been applied to a plane channel flow, an axisymmetric impinging jet, and flow near a spinning disc using linear and nonlinear k–ε turbulence models. Computational costs are an order of magnitude less than low-Reynolds-number calculations, while a clear improvement is shown in reproducing low-Re predictions over standard wall functions.

This work has been funded by the Engineering and Physical Sciences Research Council, through the ROPA scheme (grant reference GR/M99170), and the Models for Vehicle Aerodynamics (MOVA) EU-BRITE-EURAM Project (contract BRPR-CT98-0624).

Notes

Please note that the authors names appear in alphabetical order.

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