TY - JOUR
T1 - Perforated plates for fluid management
T2 - Plate geometry effects and flow regimes
AU - Bayazit, Yilmaz
AU - Sparrow, Eph M.
AU - Joseph, Daniel D.
PY - 2014/11
Y1 - 2014/11
N2 - Perforated plates are the preferred means of passive management of fluid flow proper and for convective heat transfer applications. The investigation reported here is a synergistic use of numerical simulation and experimentation to provide both in-depth fluid mechanic fundamentals and results for applications. The experimental results validated the choice of the turbulence model. A trio of dimensionless geometrical parameters was varied systematically, as was the Reynolds number to encompass both laminar and turbulent flows. For the laminar flow regime, higher pressure drops were associated with thicker plates and with the staggered-array hole pattern; higher porosities led to lower pressure drops. For the turbulent case, the thinner plate caused higher pressure drops as did the square-array hole pattern; also, the pressure drop was found to depend on the square of the Reynolds number, indicating the dominance of momentum-based losses. These trend reversals are attributable to the differences in separated-flow reattachment patterns for the different plate thicknesses.
AB - Perforated plates are the preferred means of passive management of fluid flow proper and for convective heat transfer applications. The investigation reported here is a synergistic use of numerical simulation and experimentation to provide both in-depth fluid mechanic fundamentals and results for applications. The experimental results validated the choice of the turbulence model. A trio of dimensionless geometrical parameters was varied systematically, as was the Reynolds number to encompass both laminar and turbulent flows. For the laminar flow regime, higher pressure drops were associated with thicker plates and with the staggered-array hole pattern; higher porosities led to lower pressure drops. For the turbulent case, the thinner plate caused higher pressure drops as did the square-array hole pattern; also, the pressure drop was found to depend on the square of the Reynolds number, indicating the dominance of momentum-based losses. These trend reversals are attributable to the differences in separated-flow reattachment patterns for the different plate thicknesses.
KW - Combustion
KW - Convective heat transfer
KW - Flow instrumentation
KW - Fluid homogenization
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U2 - 10.1016/j.ijthermalsci.2014.06.002
DO - 10.1016/j.ijthermalsci.2014.06.002
M3 - Article
AN - SCOPUS:84904553359
SN - 1290-0729
VL - 85
SP - 104
EP - 111
JO - International Journal of Thermal Sciences
JF - International Journal of Thermal Sciences
ER -