Title of article
Entropy generation due to flow across the abrupt contraction of pipe joints
Author/Authors
Atilla Biyikoglu، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
7
From page
841
To page
847
Abstract
The flow experiencing the abrupt contraction suffers from the viscous dissipation due to vast change in flow field across the plane of contraction. In the present study, simulation of flow field and entropy generation rate due to viscous dissipation are carried out for different upstream Reynolds numbers. The flow situation is considered to be isothermal to avoid the influence of heat transfer on the entropy generation rate. A control volume approach is introduced when discretizing the governing equations of flow. In order to secure the grid independent solution the grid independent tests are conducted. It is found that overshooting of axial velocity occurs along the symmetry axis across the plane of contraction. Entropy generation rate enhances with increasing Reynolds numbers. The location of maximum entropy generation rate becomes almost identical for all Reynolds numbers considered in the present study.
Keywords
Entropy generation , Pipe contraction , CV approach
Journal title
Applied Thermal Engineering
Serial Year
2009
Journal title
Applied Thermal Engineering
Record number
1041868
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