Titlebook: Microfluidics Based Microsystems; Fundamentals and App S. Kaka?,B. Kosoy,A. Pramuanjaroenkij Conference proceedings 2010 Springer Science+B

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Convective Heat Transfer Correlations in Some Common Micro-Geometries,ted here. At first, forced convection is studied for the following three geometries: microtube, microchannel between two parallel plates and microannulus between two concentric cylinders. Constant heat flux is assumed to be applied at walls. Then mixed convection in a vertical parallel-plate microch

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Convective Heat Transfer in Microscale Slip Flow,egime. Laminar, thermally and/or hydrodynamically developing flows will be considered. In the analyses, in addition to rarefaction, axial conduction, and viscous dissipation effects, which are generally neglected in macroscale problems, surface roughness effects, and temperature-variable thermophysi

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Conjugated Heat Transfer in Microchannels,gy efficient equipments and processes. In this context, the scale reduction in mechanical fabrication has been permitting the miniaturization of thermal devices, such as in the case of micro-heat exchangers [1]. More recently, heat exchangers employing micro-channels with characteristic dimensions b

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Prediction of Critical Heat Flux in Microchannels,f experimental results is described for single channels and for multi-channels in parallel, including non-circular channel shapes. Next, the various empirical methods for predicting CHF are presented and discussed. Then, the theoretically based model of Revellin and Thome for microchannels, includin

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只看該作者 · 發(fā)表于 2025-3-31 17:01:13

An Investigation on Thermal Conductivity and Viscosity of Water Based Nanofluids,ity. Different techniques used for the measurement of thermal conductivity of nanofluids are explained, especially the 3ω method which was used in our measurements. The models used to predict the thermal conductivity of nanofluids are presented. Our experimental results on the effective thermal cond

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Formation of Droplets and Bubbles in Microfluidic Systems,. Systems comprising ducts that have widths of the order of 100 μm produce suspensions of bubbles and droplets characterized by very narrow size distributions. These systems provide control over all the important parameters of the foams or emulsions, from the volumes of the individual bubbles and dr

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