Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases

Research Output

Computational fl uid dynamics (CFD) has brought a step change in the fi eld of fl ow analysis,
particularly in the areas of fl uid dynamics and heat transfer, which are intertwined. It has carved a
niche in applications where, a decade back, experimentation was the only way forward. This article
covers the benchmarking of convective heat transfer cases through the use of CFD software. The
cases investigated are common cases of heat transfer involving free convection and one case involving
forced convection. The results from CFD analysis are compared with the regressions available for each
test case. The two sets of data coincide well, with a percentage difference as low as 0.4%. Information
on setting up CFD analysis accurately, particularly for solving problems of natural convection, is also
included.
Keywords heat transfer; computational fl uid dynamics; free convection; natural convection

Type:

Article
Date:

30 April 2008
Publication Status:

Published
Publisher

Sage
DOI:

10.7227/ijmee.36.2.2
Cross Ref:

10.7227/IJMEE.36.2.2
ISSN:

0306-4190
Library of Congress:

TJ Mechanical engineering and machinery
Dewey Decimal Classification:

621.4 Heat engines

http://researchrepository.napier.ac.uk/output/230901 Junaidi, H., Henderson, D., Grassie, T., Currie, J., & Muneer, T. (2008). Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases. International Journal of Mechanical Engineering Education, 36(2), 92-112. https://doi.org/10.7227/ijmee.36.2.2

Citation

Junaidi, H., Henderson, D., Grassie, T., Currie, J., & Muneer, T. (2008). Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases. International Journal of Mechanical Engineering Education, 36(2), 92-112. https://doi.org/10.7227/ijmee.36.2.2