Local heat transfer coefficients in spray cooling systems measured with temperature oscillation IR thermography

Research output: Contribution to journalArticleResearchpeer review

Authors

  • S. Freund
  • A. G. Pautsch
  • T. A. Shedd
  • S. Kabelac

External Research Organisations

  • Helmut Schmidt University
  • University of Wisconsin Madison (UW)
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Details

Original languageEnglish
Pages (from-to)1953-1962
Number of pages10
JournalInternational Journal of Heat and Mass Transfer
Volume50
Issue number9-10
Early online date12 Dec 2006
Publication statusPublished - May 2007
Externally publishedYes

Abstract

This paper describes the application of the temperature oscillation IR thermography method to a spray cooling system in order to measure the spatial distribution of the heat transfer coefficients with a resolution of 0.4 mm. This technique allows for the rapid and fluid-independent evaluation of the heat transfer coefficient at the back side of a heat-transferring wall, relying on radiant heating, infrared temperature measurements, and a finite difference model of the wall. The results reveal the distribution of the local heat transfer coefficients over a surface cooled by a single- and a four-nozzle array of a multi-chip spray cooling module. The area averaged results from this method were compared to previous data measured using a conventional approach with a thermal test die and were found to be in good agreement.

Keywords

    Local heat transfer coefficient, Spray cooling, Temperature oscillations

ASJC Scopus subject areas

Cite this

Local heat transfer coefficients in spray cooling systems measured with temperature oscillation IR thermography. / Freund, S.; Pautsch, A. G.; Shedd, T. A. et al.
In: International Journal of Heat and Mass Transfer, Vol. 50, No. 9-10, 05.2007, p. 1953-1962.

Research output: Contribution to journalArticleResearchpeer review

Freund S, Pautsch AG, Shedd TA, Kabelac S. Local heat transfer coefficients in spray cooling systems measured with temperature oscillation IR thermography. International Journal of Heat and Mass Transfer. 2007 May;50(9-10):1953-1962. Epub 2006 Dec 12. doi: 10.1016/j.ijheatmasstransfer.2006.09.028
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abstract = "This paper describes the application of the temperature oscillation IR thermography method to a spray cooling system in order to measure the spatial distribution of the heat transfer coefficients with a resolution of 0.4 mm. This technique allows for the rapid and fluid-independent evaluation of the heat transfer coefficient at the back side of a heat-transferring wall, relying on radiant heating, infrared temperature measurements, and a finite difference model of the wall. The results reveal the distribution of the local heat transfer coefficients over a surface cooled by a single- and a four-nozzle array of a multi-chip spray cooling module. The area averaged results from this method were compared to previous data measured using a conventional approach with a thermal test die and were found to be in good agreement.",
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note = "Funding Information: The authors appreciate funding granted by Cray, Inc. to the Multiphase Flow Analysis and Visualization Laboratory at the University of Wisconsin–Madison through the Defense Advance Research Projects Agency High Performance Computing program and by the German Research Council (DFG) for the project “Heat Transfer on Complex Flows” at the University of the Federal Armed Forces in Hamburg. The authors are grateful to the Wisconsin Electric Machines and Power Electronics Consortium for the use of their IR camera. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.",
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AU - Freund, S.

AU - Pautsch, A. G.

AU - Shedd, T. A.

AU - Kabelac, S.

N1 - Funding Information: The authors appreciate funding granted by Cray, Inc. to the Multiphase Flow Analysis and Visualization Laboratory at the University of Wisconsin–Madison through the Defense Advance Research Projects Agency High Performance Computing program and by the German Research Council (DFG) for the project “Heat Transfer on Complex Flows” at the University of the Federal Armed Forces in Hamburg. The authors are grateful to the Wisconsin Electric Machines and Power Electronics Consortium for the use of their IR camera. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.

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N2 - This paper describes the application of the temperature oscillation IR thermography method to a spray cooling system in order to measure the spatial distribution of the heat transfer coefficients with a resolution of 0.4 mm. This technique allows for the rapid and fluid-independent evaluation of the heat transfer coefficient at the back side of a heat-transferring wall, relying on radiant heating, infrared temperature measurements, and a finite difference model of the wall. The results reveal the distribution of the local heat transfer coefficients over a surface cooled by a single- and a four-nozzle array of a multi-chip spray cooling module. The area averaged results from this method were compared to previous data measured using a conventional approach with a thermal test die and were found to be in good agreement.

AB - This paper describes the application of the temperature oscillation IR thermography method to a spray cooling system in order to measure the spatial distribution of the heat transfer coefficients with a resolution of 0.4 mm. This technique allows for the rapid and fluid-independent evaluation of the heat transfer coefficient at the back side of a heat-transferring wall, relying on radiant heating, infrared temperature measurements, and a finite difference model of the wall. The results reveal the distribution of the local heat transfer coefficients over a surface cooled by a single- and a four-nozzle array of a multi-chip spray cooling module. The area averaged results from this method were compared to previous data measured using a conventional approach with a thermal test die and were found to be in good agreement.

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