J. R. Culham scite author profile

A general solution, based on the separation of variables method for thermal spreading resistances of eccentric heat sources on a rectangular flux channel is presented. Solutions are obtained for both isotropic and compound flux channels. The general solution can also be used to model any number of discrete heat sources on a compound or isotropic flux channel using superposition. Several special cases involving single and multiple heat sources are presented.

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Analytical forced convection modeling of plate fin heat sinks

Teertstra

Yovanovich

Culham

et al. 1999

106

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Pressure Drop of Fully-Developed, Laminar Flow in Microchannels of Arbitrary Cross-Section

2006

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The pressure drop of fully developed, laminar, incompressible flow in smooth mini- and microchannels of arbitrary cross-section is investigated. A compact approximate model is proposed that predicts the pressure drop for a wide variety of shapes. The model is only a function of geometrical parameters of the cross-section, i.e., area, perimeter, and polar moment of inertia. The proposed model is compared with analytical and numerical solutions for several shapes. Also, the comparison of the model with experimental data, collected by several researchers, shows good agreement.

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J. R. Culham

Optimization of plate fin heat sinks using entropy generation minimization

Thermal Spreading Resistance of Eccentric Heat Sources on Rectangular Flux Channels

Analytical forced convection modeling of plate fin heat sinks

Pressure Drop of Fully-Developed, Laminar Flow in Microchannels of Arbitrary Cross-Section

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