2009
DOI: 10.1016/j.ijheatmasstransfer.2008.09.013
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Heat transfer enhancement in self-sustained oscillatory flow in a grooved channel with oblique plates

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Cited by 43 publications
(14 citation statements)
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“…Domain extension technique is a concise and effective way to handle irregular domain problems, which had been successfully used for the computation of heat convection and transient heat conduction problems in a unitary domain containing both the solid and fluid regions. Korichi et al (2009) employed this method to solve the sudden changes of the thermophysical Fig. 4 The influence of CCR coefficient β * on the profiles of a the stretch ratio λ along the inletoutlet centerline, b the principal stress difference along the inletoutlet centerline, c the first normal stress difference N1 along the inlet-outlet centerline, and d the shear stress σ xy along the line y = 0.525; (v ¼ 5:0 mm s −1 ) properties at the solid-fluid interface.…”
Section: The Behavior Of Polystyrenes In Cross-slot Flowmentioning
confidence: 99%
“…Domain extension technique is a concise and effective way to handle irregular domain problems, which had been successfully used for the computation of heat convection and transient heat conduction problems in a unitary domain containing both the solid and fluid regions. Korichi et al (2009) employed this method to solve the sudden changes of the thermophysical Fig. 4 The influence of CCR coefficient β * on the profiles of a the stretch ratio λ along the inletoutlet centerline, b the principal stress difference along the inletoutlet centerline, c the first normal stress difference N1 along the inlet-outlet centerline, and d the shear stress σ xy along the line y = 0.525; (v ¼ 5:0 mm s −1 ) properties at the solid-fluid interface.…”
Section: The Behavior Of Polystyrenes In Cross-slot Flowmentioning
confidence: 99%
“…Gholami et al [8] found that the wavy rectangular winglet vortex generator can significantly enhance heat transfer performance of the fin-and-tube compact heat exchangers. Installing the obstacles in the flow field is an effective way to improve the heat transfer performance [9]. An impingement flow was induced on the sidewall by the P-vortex flows and the inter-baffle cavity leaded a drastic increase of the heat transfer in channel [10].…”
Section: Introductionmentioning
confidence: 99%
“…They also found that using larger diameter vortex generators and larger pitch space between the ribs increases wall heat transfer. Korichi et al [7] studied heat transfer enhancement in self-sustained oscillatory flow in a grooved channel with oblique plates on the opposite wall at 250 Re 1000 and analysed the fluid flow and heat transfer at different plate length, plate angle and Reynolds numbers. The presence of vortex generators at the upper surface was found to be a powerful mean to enhance the heat transfer compared to the basic grooved channel.…”
Section: Introductionmentioning
confidence: 99%