Milnes P. David scite author profile

Vapor-venting microchannel heat exchangers are promising because they address the problems of high pressure drop, flow instability, and local dryout that are common in conventional two-phase microchannel heat sinks. We present a 3D numerical simulation of the vapor-venting process in a rectangular microchannel bounded on one side by a hydrophobic porous membrane for phase-separation. The simulation is based on the volume of fluid (VOF) method together with models for interphase mass transfer and capillary force. Simulation shows the vapor-venting mechanism can effectively mitigate the vapor accumulation issue, reduce the pressure drop, and suppress the local dry-out in the microchannel. Pressure surge is observed in the vapor-venting channel. The simulation provides some insight into the design and optimization of vapor-venting heat exchangers.

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Server liquid cooling with chiller-less data center design to enable significant energy savings

Iyengar¹,

David²,

Parida³

et al. 2012

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Hydraulic and thermal characteristics of a vapor venting two-phase microchannel heat exchanger

David

Miler

Steinbrenner

et al. 2011

International Journal of Heat and Mass Transfer

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Impact of operating conditions on a chiller-less data center test facility with liquid cooled servers

David¹,

Iyengar²,

Parida

et al. 2012

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Experimental characterization of an energy efficient chiller-less data center test facility with warm water cooled servers

David¹,

Iyengar²,

Parida

et al. 2012

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Milnes P. David

Volume of Fluid Simulation of Boiling Two-Phase Flow in a Vapor-Venting Microchannel

Server liquid cooling with chiller-less data center design to enable significant energy savings

Hydraulic and thermal characteristics of a vapor venting two-phase microchannel heat exchanger

Impact of operating conditions on a chiller-less data center test facility with liquid cooled servers

Experimental characterization of an energy efficient chiller-less data center test facility with warm water cooled servers

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