Nuclear Engineering and Technology

  • 제34권4호
  • /
  • Pages.396-405
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  • 2002
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  • 1738-5733(pISSN)
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  • 2234-358X(eISSN)
한국원자력학회 (Korean Nuclear Society)
권호 표지

The Effect of Gap Size on Counter Current Flow Limitation Phenomena in Narrow Annular Gaps with Large Diameter

  • 발행 : 2002.08.01
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초록

An experimental study on counter-current flow limitation phenomena in narrow annular passages was carried out The gap sizes tested were 1, 2 and 3 mm. This is very small compared with the outer diameter of the annular passage, 500 mm. It was visually observed that a CCFL might occur in some part of the periphery while the other part is remained in a counter current flow pattern. That is, non-uniform behaviour of fluids due 4o a 2-dimensional effect appear in a large diameter facility. Because of this non-uniformity, a CCFL is defined in the present work as the situation where net water accumulation is sustained. That is, some amount of water should not be allowed to penetrate the gap and accumulate over the gap at CCFL criterion. The measured data are presented in the form of Wallis'type correlation with characteristic length of gap size. It was found that the present correlation is in good agreement with other empirical correlation based on measurements whose test section diameter is close and the gap size is much larger than that of the present test section.

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참고문헌

  1. J.L. Rempe, J.R. Wolf, S.A. Chavez, K.G. Condie, D.L. Hagrman, W.J. Carmack, Investigation of the coolability of a continuous mass of relocated debris to a water-filled lower plenum, EG&G Idaho Report, EGG-RAAM-11145, (1994)
  2. J.H. Jeong, R.J. Park, S.B. Kim, 'Thermal-hydraulic phenomena relevant to global dryout in a hemispherical narrow gap,' Heat and Mass Transfer, 34, 321 (1998) https://doi.org/10.1007/s002310050266
  3. F. Mayinger, P. Weiss, K. Wolfert, 'Two-phase flow phenomena in full-scale reactor geometry,' Nuclear Engineering and Design, 145, 47 (1993) https://doi.org/10.1016/0029-5493(93)90058-H
  4. M.H. Chun, J.W. Park, 'Filmwise reflux condensation length and flooding phenomena in vertical U-tubes,' J. of Korean Nuclear Society, 17, 45 (1985)
  5. S.C. Lee, C. Mo, S.C. Nam, J.Y. Lee, Thermal-hydraulic behaviours and flooding of ECC in DVI systems, KAERI, KAERI/CM-045/95, (1995)
  6. L.Y. Cheng, Counter-current flow limitation in thin rectangular channels, BNL Report, BNL-44836, (1990)
  7. K. Mishima, H. Nishihara, 'The effect of flow direction and magnitude on CHF for low pressure water in thin rectangular channels,' Nuclear Engineering and Design, 86, 165 (1985) https://doi.org/10.1016/0029-5493(85)90221-3
  8. Y. Sudo, M. Kaminaga, 'A CHF characteristic for downward flow in a narrow vertical rectangular channel heated from both sides,' Int. J. Multiphase Flow, 15, 755 (1989) https://doi.org/10.1016/0301-9322(89)90039-6
  9. G.P. Celata, G.E. Farello, M. Furrer, M. Cumo, Flooding experiments in a rectangular geometry, ENEA, RT/TERM/85/3, (1985)
  10. M. Osakabe, Y. Kawasaki, 'Top flooding in thin rectangular and annular passages,' Int. J. Multiphase Flow, 15, 747 (1989) https://doi.org/10.1016/0301-9322(89)90038-4
  11. A.E. Ruggles, Countercurrent flow limited heat flux in the high flux isotope reactor (HFIR) fuel element, ORNL, ORNL/TM-9662, (1990)
  12. K. Mishima, Boiling burnout at low flow rate and low pressure conditions, Ph.D. Thesis, Research Reactor Inst., Kyoto Univ., (1984)
  13. H.J. Richter, G.B. Wallis, M.S. Speers, Effect of scale on two-phase countercurrent flow flooding, USNRC, NUREG/CR-0312, (1979)
  14. Y. Koizurnl, H. Nishida, H. Ohtake, T. Miyashita, 'Gravitational water penetration into narrow-gap annular flow passages with upward gas flow,' Proceedings of NURETH-8, 1, 48 (1997)
  15. W.A. Ragland, W.J. Minkowycz, D.M. France, 'Single- and double-wall flooding of two-phase flow in an annulus,' Int. J. Heat and Fluid Flow, 10, 103 (1989) https://doi.org/10.1016/0142-727X(89)90002-7
  16. H.J. Richter, 'Flooding in tubes and annuli,' Int. J. Multiphase Flow 7,647 (1981) https://doi.org/10.1016/0301-9322(81)90036-7
  17. H. Nakamura, Y. Koizumi, Y. Anoda, K. Tasaka, 'Air-water two-phase flow in large vertical annuli,' Proc. of 27th National Heat Transfer Symposium of Japan, 964 (in Japanese) (1990)
  18. H. Glaeser, 'Downcomer and tie plate countercurrent flow in the upper plenum test facility (UPTF),' Nucl. Eng. & Des., 133, 259 (1992) https://doi.org/10.1016/0029-5493(92)90186-Y
  19. J.H. Jeong, H.C. No, 'Experimental study of the effect of pipe length and pipe-end geometry on flooding,' Int. J. Multiphase Flow, 22, 499 (1996) https://doi.org/10.1016/0301-9322(95)00087-9