CALCULATION OF FLOW OVER BACKWORD-FACING STEP IN OPEN CHANNEL USING LOW-REYNOLDS NUMBER TURBULENCE MODEL

Low-Reynolds number turbulence models have been incorporated in the computational method for two-dimensional but complex turbulent flows with a free surface and flow separation so that the boundary complexity and the mean position of the free surface are directly represented. The models used are one...

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Veröffentlicht in:	PROCEEDINGS OF HYDRAULIC ENGINEERING 1998/02/20, Vol.42, pp.625-630
Hauptverfasser:	FUKUCHI, Masataka, NAKAYAMA, Akihiko
Format:	Artikel
Sprache:	eng
Schlagworte:	backward-facing step finite difference free surface k-ω model Low Reynolds number turbulence model
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creator	FUKUCHI, Masataka NAKAYAMA, Akihiko
description	Low-Reynolds number turbulence models have been incorporated in the computational method for two-dimensional but complex turbulent flows with a free surface and flow separation so that the boundary complexity and the mean position of the free surface are directly represented. The models used are one of the low-Reynolds number k-ε methods that has been proved accurate in simple geometry and the k-ω model that is known to be versatile. Calculations have been performed for flow over a backward-facing step in open channel and the results are compared with experiments and calculations with conventional high-Reynolds number model. Overall results using the low-Reynolds number models do not drastically improve over the high-Reynolds number version using wall-function assumptions, but they do show marked improvements in the recirculating region near the wall.
doi_str_mv	10.2208/prohe.42.625
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source	J-STAGE Free; Open Access Titles of Japan; Alma/SFX Local Collection
subjects	backward-facing step finite difference free surface k-ω model Low Reynolds number turbulence model
title	CALCULATION OF FLOW OVER BACKWORD-FACING STEP IN OPEN CHANNEL USING LOW-REYNOLDS NUMBER TURBULENCE MODEL
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