Experimental Investigation of a Miniature-Scale Refrigeration System for Electronics Cooling

Trutassanawin, Suwat; Groll, Eckhard A.; Garimella, Suresh V.; Cremaschi, Lorenzo

doi:10.1109/tcapt.2006.881762

Cited by 108 publications

(57 citation statements)

References 5 publications

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“…Trutassanawin et al (2006) reviewed the available technologies for vapor compression systems in electronics cooling. Several prototype systems were discussed but there appeared to be no commercially viable solutions which are complete miniature systems.…”

Section: Introductionmentioning

confidence: 99%

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A comprehensive model of a miniature-scale linear compressor for electronics cooling

Bradshaw

Groll

Garimella

2011

International Journal of Refrigeration

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A comprehensive model of a miniature-scale linear compressor for electronics cooling is presented. Linear compressors are appealing for refrigeration applications in electronics cooling. A small number of moving components translates to less theoretical frictional losses and the possibility that this technology could scale to smaller physical sizes better than conventional compressors. The model developed here incorporates all of the major components of the linear compressor including dynamics associated with the piston motion. The results of the compressor model were validated using experimental data from a prototype linear compressor. The prototype compressor has an overall displacement of approximately 3cm3 , an average stroke of 0.6 cm. The prototype compressor was custom built for this work and utilizes custom parts with the exception of the mechanical springs and the linear motor. The model results showed good agreement when validated against the experimental results. The piston stroke is predicted within 1.3% MAE. The volumetric and overall isentropic efficiencies are predicted within 24% and 31%, MAE respectively.

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Section: Introductionmentioning

confidence: 99%

“…In particular the compressor is a critical component which can greatly affect the overall size and performance of the refrigeration system, as shown by Trutassanawin et al (2006).…”

Section: Introductionmentioning

confidence: 99%

A comprehensive model of a miniature-scale linear compressor for electronics cooling

Bradshaw

Groll

Garimella

2011

International Journal of Refrigeration

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“…Trutassanawin et al [6] designed, built and evaluated the performance of a miniature-scale refrigeration system (MSRS) suitable for electronics cooling applications. It was concluded that, although COP's in the order of 1.9-3.2 were obtained, a suitable control strategy was required to improve its performance.…”

Section: Introductionmentioning

confidence: 99%

A review of on-chip micro-evaporation: Experimental evaluation of liquid pumping and vapor compression driven cooling systems and control

et al. 2012

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“…Miniature-scale vapor compression refrigeration systems have received increased recent attention for use in electronics-cooling applications (Trutassanawin et al, 2006). An 3 electrostatically actuated diaphragm compressor offers promise for use in miniature-scale vapor compression systems because of its potential for high efficiency, compactness and…”

Section: Introductionmentioning

confidence: 99%

Dynamic analysis of an electrostatic compressor

Sathe¹,

Groll²,

Garimella³

2010

International Journal of Refrigeration

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This paper presents an analytical approach for modeling the transient dynamic forces in a diaphragm compressor which operates under the action of an electrostatically actuated diaphragm. An experimentally validated, quasi-static model for a diaphragm compressor for electronics cooling was previously developed in which dynamic effects were neglected. In the new model, the dynamic forces induced due to the finite time

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Experimental Investigation of a Miniature-Scale Refrigeration System for Electronics Cooling

Cited by 108 publications

References 5 publications

A comprehensive model of a miniature-scale linear compressor for electronics cooling

A comprehensive model of a miniature-scale linear compressor for electronics cooling

A review of on-chip micro-evaporation: Experimental evaluation of liquid pumping and vapor compression driven cooling systems and control

Dynamic analysis of an electrostatic compressor

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