Heat Transfer Studies in the Flow Over Shallow Cavities-Reference-Cited by-同舟云学术

Heat Transfer Studies in the Flow Over Shallow Cavities

Published:2004-12-20 Issue:7 Volume:127 Page:699-712
ISSN:0022-1481
Container-title:Journal of Heat Transfer
language:en
Short-container-title:

Author:

Zdanski Paulo S. B.¹,Ortega M. A.²,Fico Nide G. C. R.²

Affiliation:

1. Department of Mechanical Engineering, State University of Santa Catarina, 89223-000 Joinville, SC, Brazil

2. Department of Aeronautical Engineering, Instituto Tecnológico de Aeronáutica, ITA 12228-900, S. J. dos Campos, SP, Brazil

Abstract

Fluid flows along a shallow cavity. A numerical study was conducted to investigate the effects of heating the floor of the cavity. In order to draw a broader perspective, a parametric analysis was carried out, and the influences of the following parameters were investigated: (i) cavity aspect ratio, (ii) turbulence level of the oncoming flow, and (iii) Reynolds number. A finite-difference computer code was used to integrate the incompressible Reynolds-averaged Navier–Stokes equations. The code, recently developed by the authors, is of the pressure-based type, the grid is collocated, and artificial smoothing terms are added to control eventual odd–even decoupling and nonlinear instabilities. The parametric study revealed and helped to clarify many important physical aspects. Among them, the so called “vortexes encapsulation,” a desirable effect, because the capsule works well as a kind of fluidic thermal insulator. Another important point is related to the role played by the turbulent diffusion in the heat transfer mechanism.

Publisher

ASME International

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Link

http://asmedigitalcollection.asme.org/heattransfer/article-pdf/127/7/699/5538025/699_1.pdf

Reference21 articles.

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4. Zdanski, P. S. B., Ortega, M. A., and FicoJr., N. G. C. R., 2003, “A Novel Algorithm for the Incompressible Navier-Stokes Equations,” AIAA Paper 2003-0434.

5. Turbulent Forced Convection Heat Transfer from a Bottom Heated Open Surface Cavity;Richards;Int. J. Heat Mass Transfer

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