Jung‐Yang San scite author profile

The irreversible generation of entropy for two limiting cases of combined forced-convection heat and mass transfer in a two-dimensional channel are investigated. First, convective heat transfer in a channel with either constant heat flux or constant surface temperature boundary conditions are considered for laminar and turbulent flow. The entropy generation is minimized to yield expressions for optimum plate spacing and optimum Reynolds numbers for both boundary conditions and flow regimes. Second, isothermal convective mass transfer in a channel is considered, assuming the diffusing substance to be an ideal gas with Lewis number equal to unity. The flow is considered to be either laminar or turbulent with boundary conditions at the channel walls of either constant concentration or constant mass flux. The analogy between heat and mass transfer is used to determine the entropy generation and the relations for optimum plate spacing and Reynolds number. The applicable range of the results for both limiting cases are then investigated by non-dimensionalizing the entropy generation equation.

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Entropy generation in combined heat and mass transfer

San

Worek²,

Lavan

1987

International Journal of Heat and Mass Transfer

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Impingement cooling of a confined circular air jet

San

Huang

Shu

1997

International Journal of Heat and Mass Transfer

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Effects of jet plate size and plate spacing on the stagnation Nusselt number for a confined circular air jet impinging on a flat surface

San

Shiao

2006

International Journal of Heat and Mass Transfer

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Jung‐Yang San

Optimum jet-to-jet spacing of heat transfer for staggered arrays of impinging air jets

Entropy Generation in Convective Heat Transfer and Isothermal Convective Mass Transfer

Entropy generation in combined heat and mass transfer

Impingement cooling of a confined circular air jet

Effects of jet plate size and plate spacing on the stagnation Nusselt number for a confined circular air jet impinging on a flat surface

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