• Title of article

    Experimental research on transient critical heat flux in vertical tube under oscillatory flow condition

  • Author/Authors

    Zhao، نويسنده , , D.W. and Su، نويسنده , , G.H. and Liang، نويسنده , , Zh. H. Zhang، نويسنده , , Y.J. and Tian، نويسنده , , W.X. and Qiu، نويسنده , , S.Z.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2011
  • Pages
    10
  • From page
    1235
  • To page
    1244
  • Abstract
    The transient critical heat flux (CHF) experiments with forced sinusoidal inlet flow oscillation (oscillation period in 1–11 s, normalized amplitude of inlet flow oscillation in 0–3.0) were conducted in a vertical tube under low pressure condition. To analyze the triggering mechanism and aftermath of periodic dryout, the wall temperature fluctuation characteristics at the onset of periodic dryout and during post-periodic dryout were investigated. Under inlet flow oscillation condition, periodic dryout would be triggered at the wave trough of liquid film oscillation as wall heat flux far below the stable-flow CHF. The transient periodic dryout would give rise to temperature fluctuations on the tube wall, the amplitude of which increased with oscillation period and heat flux. The large wall temperature fluctuation during long-playing periodic dryout could significantly pre-trigger continuous dryout. The changing trends of the periodic dryout heat flux show a reasonable agreement with Okawa’s theoretical model, in which the liquid film oscillation was supposed be weakened by the axial mixing of liquid film. Moreover, the droplet entrainment at the oscillatory interface also has noticeable influence on the oscillation characteristics of liquid film. Based on the analysis of parameter effects on periodic dryout, a semi-empirical correlation was proposed to predict the periodic dryout heat flux under inlet flow oscillation condition.
  • Keywords
    Flow oscillation , Periodic dryout , Continuous dryout , Critical heat flux
  • Journal title
    International Journal of Multiphase Flow
  • Serial Year
    2011
  • Journal title
    International Journal of Multiphase Flow
  • Record number

    1410787