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Numerical computations of recirculating turbulent flows using different linear eddy-viscosity models

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Abstract

The present report compares a modified k-{epsilon} model, the k-W model amd a multiple-time-scale model with the standard k-{epsilon} model through computations on recirculating flow problems. In order to investigate the importance of numerical diffusion errors, two different discretisation schemes and several different grid sizes are employed. The sensitivity to inlet boundary conditions is also presented. The computational results of the different models is presented for three flow configurations. (11 figs., 48 refs., 1 tab.).
Authors:
Publication Date:
Sep 01, 1992
Product Type:
Technical Report
Report Number:
LUTMDN-TMVK-3154-1-23-92
Reference Number:
SCA: 420400; PA: SWD-93:007032; SN: 93000928704
Resource Relation:
Other Information: PBD: Sep 1992
Subject:
42 ENGINEERING; TURBULENT FLOW; MATHEMATICAL MODELS; VISCOUS FLOW; REYNOLDS NUMBER; ANISOTROPY; NUMERICAL SOLUTION; 420400; HEAT TRANSFER AND FLUID FLOW
OSTI ID:
10120731
Research Organizations:
Lund Univ. (Sweden). Dept. of Heat and Power Engineering
Country of Origin:
Sweden
Language:
English
Other Identifying Numbers:
Other: ON: DE93761483; TRN: SE9307032
Availability:
OSTI; NTIS
Submitting Site:
SWD
Size:
26 p.
Announcement Date:
Jun 30, 2005

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Citation Formats

Noren, B. Numerical computations of recirculating turbulent flows using different linear eddy-viscosity models. Sweden: N. p., 1992. Web.
Noren, B. Numerical computations of recirculating turbulent flows using different linear eddy-viscosity models. Sweden.
Noren, B. 1992. "Numerical computations of recirculating turbulent flows using different linear eddy-viscosity models." Sweden.
@misc{etde_10120731,
title = {Numerical computations of recirculating turbulent flows using different linear eddy-viscosity models}
 author = {Noren, B}
 abstractNote = {The present report compares a modified k-{epsilon} model, the k-W model amd a multiple-time-scale model with the standard k-{epsilon} model through computations on recirculating flow problems. In order to investigate the importance of numerical diffusion errors, two different discretisation schemes and several different grid sizes are employed. The sensitivity to inlet boundary conditions is also presented. The computational results of the different models is presented for three flow configurations. (11 figs., 48 refs., 1 tab.).}
 place = {Sweden}
 year = {1992}
 month = {Sep}
 }