2010
DOI: 10.1108/09615531011081414
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Heat transfer enhancement and pressure drop reduction due to mixed convection between two vertical parallel plates

Abstract: Purpose -This paper's aim is to examine flow and heat transfer through vertical channels between parallel plates, which is of prime importance in the design of cooling systems for electronic equipment such as that of finned cold plates in general, plate-and-frame heat exchangers, etc. Design/methodology/approach -Numerical and analytical solutions are presented to investigate the heat transfer enhancement and the pressure drop reduction due to buoyancy effects (for buoyancy-aided flow) for the developing lamin… Show more

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Cited by 1 publication
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“…Many researchers have devoted their efforts to the analysis of the flow and heat transfer in such geometry over the past few decades, e.g. Mokheimer et al (2010), and over the past few years quite a number of researchers focused on the optimization of the flow and heat transfer process in such geometry. Mokheimer (2010) carried out a parametric analysis of the entropy generation because of mixed convection in the entry-developing region between two differentially heated isothermal vertical plates.…”
Section: Introductionmentioning
confidence: 99%
“…Many researchers have devoted their efforts to the analysis of the flow and heat transfer in such geometry over the past few decades, e.g. Mokheimer et al (2010), and over the past few years quite a number of researchers focused on the optimization of the flow and heat transfer process in such geometry. Mokheimer (2010) carried out a parametric analysis of the entropy generation because of mixed convection in the entry-developing region between two differentially heated isothermal vertical plates.…”
Section: Introductionmentioning
confidence: 99%