A uniform temperature heat sink for cooling of electronic devices

G. Hetsroni; A. Mosyak; Z. Segal; G. Ziskind

doi:10.1016/S0017-9310(02)00048-0

A uniform temperature heat sink for cooling of electronic devices

G. Hetsroni
, A. Mosyak
, Z. Segal
, G. Ziskind

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

296 Scopus citations

Abstract

Experimental investigation of a heat sink for cooling of electronic devices is performed. The objective is to keep the operating temperature at a relatively low level of about 323-333 K, using a dielectric liquid that boils at a lower temperature, while reducing the undesired temperature variation in the both streamwise and transverse directions. The experimental study is based on systematic measurements of temperature, flow and pressure, infrared radiometry and high-speed digital video imaging. The heat sink has parallel triangular microchannels with a base of 250 μm. Experiments on flow boiling of Vertrel XF in the microchannel heat sink are performed to study the effect of mass velocity and vapor quality on the heat transfer, as well as to compare the two-phase results to a heat sink cooled by single-phase water flow.

Original language	English
Pages (from-to)	3275-3286
Number of pages	12
Journal	International Journal of Heat and Mass Transfer
Volume	45
Issue number	16
DOIs	https://doi.org/10.1016/S0017-9310(02)00048-0
State	Published - 27 May 2002

ASJC Scopus subject areas

Condensed Matter Physics
Mechanical Engineering
Fluid Flow and Transfer Processes

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10.1016/S0017-9310(02)00048-0

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abstract = "Experimental investigation of a heat sink for cooling of electronic devices is performed. The objective is to keep the operating temperature at a relatively low level of about 323-333 K, using a dielectric liquid that boils at a lower temperature, while reducing the undesired temperature variation in the both streamwise and transverse directions. The experimental study is based on systematic measurements of temperature, flow and pressure, infrared radiometry and high-speed digital video imaging. The heat sink has parallel triangular microchannels with a base of 250 μm. Experiments on flow boiling of Vertrel XF in the microchannel heat sink are performed to study the effect of mass velocity and vapor quality on the heat transfer, as well as to compare the two-phase results to a heat sink cooled by single-phase water flow.",

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AU - Hetsroni, G.

AU - Mosyak, A.

AU - Segal, Z.

AU - Ziskind, G.

PY - 2002/5/27

Y1 - 2002/5/27

N2 - Experimental investigation of a heat sink for cooling of electronic devices is performed. The objective is to keep the operating temperature at a relatively low level of about 323-333 K, using a dielectric liquid that boils at a lower temperature, while reducing the undesired temperature variation in the both streamwise and transverse directions. The experimental study is based on systematic measurements of temperature, flow and pressure, infrared radiometry and high-speed digital video imaging. The heat sink has parallel triangular microchannels with a base of 250 μm. Experiments on flow boiling of Vertrel XF in the microchannel heat sink are performed to study the effect of mass velocity and vapor quality on the heat transfer, as well as to compare the two-phase results to a heat sink cooled by single-phase water flow.

AB - Experimental investigation of a heat sink for cooling of electronic devices is performed. The objective is to keep the operating temperature at a relatively low level of about 323-333 K, using a dielectric liquid that boils at a lower temperature, while reducing the undesired temperature variation in the both streamwise and transverse directions. The experimental study is based on systematic measurements of temperature, flow and pressure, infrared radiometry and high-speed digital video imaging. The heat sink has parallel triangular microchannels with a base of 250 μm. Experiments on flow boiling of Vertrel XF in the microchannel heat sink are performed to study the effect of mass velocity and vapor quality on the heat transfer, as well as to compare the two-phase results to a heat sink cooled by single-phase water flow.

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JO - International Journal of Heat and Mass Transfer

JF - International Journal of Heat and Mass Transfer

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ER -

A uniform temperature heat sink for cooling of electronic devices

Abstract

ASJC Scopus subject areas

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