Bubble dynamics and flow instabilities in microchannels

D. Bogojevic, K. Sefiane*, G. Duursma, A. J. Walton

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

This work describes an experimental investigation of bubble dynamics and the effect on flow boiling instabilities and heat transfer in a multiple-microchannel heat sink. In this paper, results of the experimental investigation of bubble dynamics are presented and discussed. The microchannel heat sink contained 40 parallel, rectangular channels having hydraulic diameter of 194 μm, and an aspect ratio of 0.549. The experiments were conducted with deionised water over a mass flux range from 71 to 204 kg/m2 s, and an inlet temperature of 71 °C. Bubble growth rate and departure diameter under subcooled and saturated flow boiling are studied using a microscope and a high speed camera. The effects of mass flux and heat flux on bubbles growth characteristics are investigated and discussed. The results of this study demonstrate that the bubble growth rate in microchannels is different from that in macroscale channels. Confinement of microchannel and interaction between channels result in the unique bubble dynamic in microchannels.
Original languageEnglish
Pages (from-to)663-675
Number of pages13
JournalInternational journal of heat and mass transfer
Volume58
Issue number1-2
Early online date23 Dec 2012
DOIs
Publication statusPublished - Mar 2013

Keywords / Materials (for Non-textual outputs)

  • Flow boiling
  • Microchannels
  • Bubble dynamics
  • PARALLEL MICRO-CHANNELS
  • HEAT-TRANSFER
  • SINGLE MICROCHANNEL
  • 2-PHASE FLOW
  • PRESSURE-DROP
  • GROWTH
  • WATER
  • PATTERNS
  • BEHAVIOR
  • SINKS

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  • SMART microsystems

    Walton, A.

    EPSRC

    1/04/1028/02/15

    Project: Research

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