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PREDICTION TECHNIQUE FOR MINIMUM-HEAT-FLUX (MHF)-POINT CONDITION OF SATURATED POOL BOILING.

Author(s) : NISHIO S.

Type of article: Article

Summary

THE TEMPERATURE-CONTROLLED HYPOTHESIS FOR THE MINIMUM-HEAT-FLUX-POINT CONDITION, IN WHICH THE MHF-POINT TEMPERATURE IS REGARDED AS THE CONTROLLING FACTOR AND IS EXPECTED TO BE INDEPENDENT OF SURFACE CONFIGURATION AND DIMENSIONS, IS INDUCTIVELY STUDIED FOR SATURATED POOL BOILING. SUCH FEATURES OF THE MHF-POINT CONDITION ARE EXPERIMENTALLY PROVED FIRST. SECONDLY, A CORRELATION OF THE MHF-POINT TEMPERATURE IS DEVELOPED FOR THE EFFECT OF SYSTEM PRESSURE. FINALLY, A SIMPLE TECHNIQUE IS PRESENTED TO ESTIMATE THE EFFECTS OF SURFACE CONFIGURATION, DIMENSIONS AND SYSTEM PRESSURE ON THE MINIMUM HEAT FLUX.

Details

  • Original title: PREDICTION TECHNIQUE FOR MINIMUM-HEAT-FLUX (MHF)-POINT CONDITION OF SATURATED POOL BOILING.
  • Record ID : 1988-1399
  • Languages: English
  • Source: International Journal of Heat and Mass Transfer - vol. 30 - n. 10
  • Publication date: 1987/10

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