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We present the numerical method for explaining cooling enhancement in a microchannel heat sink which utilizes carbon nanotubes-in-fluid suspensions as coolant. We also show that by increasing CNT nanolayer thickness, the microchannel heat sink temperature gradient is decreased. The temperature contours of the microchannel heat sink with CNTs (with ~25 nm diameter) dispersed in water is investigated...
The merits of water-fed microchannel heat sinks have shown that the technology may be a plausible and effective cooling solution for the ever-increasing power dissipation of high speed microprocessors. Favorable factors such as high heat transfer surface area and heat flux removal for reasonable operating pressures, as well small heat sink mass and volume continue to drive the technology. However,...
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