DOI QR코드

DOI QR Code

ANALYTICAL AND EXPERIMENTAL PROGRAM OF SUPERCRITICAL HEAT TRANSFER RESEARCH AT THE UNIVERSITY OF OTTAWA

  • Published : 2008.03.31

Abstract

The present paper describes the preliminary compilation, assessment and examination of the supercritical heat transfer(SCHT) database. The availability and reliability of the SCHT data are discussed. Similarities in thermodynamic supercritical properties and SCHT behaviour of water, $CO_{2}$ and R-134a have been examined and some tentative conclusions are made. Finally, the future experimental and analytical program at the University of Ottawa is described.

Keywords

References

  1. K.R. Schmidt, 'Warmetechnische Untersuchungen am hochbelasteten Kesselheizflachen', Mitt. Ver. Grosskesselbesitzer 63, 391 (1959)
  2. H. Herkenrath, P. Mork-Morkenstein, U. Jung, and F. J. Weckermann, 'Warmeubergung an Wasser bei Erzwungener Stromung in Druckbereich von 140 bis 250 Bar', EUR-3658d, (1967)
  3. J.D. Jackson, and W.B. Hall, 'Forced convection heat transfer to fluids at supercritical pressure' in Turbulent Forced Convection in Channels and Bundles, Editors S. Kakac and D.B. Spalding, Hemisphere Corp., New York, USA, 2, (1978)
  4. W.B. Hall, J.D. Jackson and A. Watson, 'A review of forced convection heat transfer to fluids at supercritical pressure', Symposium of Heat Transfer and Fluid Dynamics of Near Critical Fluids, Bristol, March 1978, UK, Proc. I Mech., E 82, Pt 31, 1978
  5. I.L. Pioro, H.F. Khartabil and R.B. Duffey, 'Heat transfer to supercritical fluids flowing in channels - Empirical correlations (Survey)', Nucl. Eng. Des., 230 (1), 69 (2004) https://doi.org/10.1016/j.nucengdes.2003.10.010
  6. I.L. Pioro, and H.F. Khartabil, 'Experimental study on heat transfer to supercritical carbon dioxide flowing upward in a vertical tube', 13th Int. Conf. on Nuclear Engineering (ICONE-13), Paper-50118, Beijing, China, May 16-20, 2005
  7. N.L. Dickinson and C.P. Welch 'Heat transfer to supercritical water', Trans. ASME 80, 746 (1958)
  8. P.L. Kirillov, R.S. Pomet'ko, A.M. Smirnov and V.A. Grabezhnaia, 'Investigation of heat transfer to water at supercritical pressures in tubes and rod bundles', FEI-3051, IPPE, Obninsk ( 2005)
  9. D.C. Groeneveld, B.P. Kiameh, and S.C. Cheng, 'Prediction of critical heat flux (CHF) for non-aqueous fluids in forced convective boiling', Proc. 8th Int. Heat Transfer Conference 5, (1986)
  10. D.C. Groeneveld, D. Blumenroehr and S.C. Cheng, 'CHF fluid-to-fluid modelling studies in three laboratories using different modelling fluids', Proc. of the Fifth Int. Topical Meeting on Nuclear Thermal Hydraulics, Salt Lake City, Utah, USA, Sept. 1992
  11. D.C. Groeneveld, S.D. Doerffer, R.M. Tain, N. Hammouda and S.C. Cheng, 'Fluid-to-fluid modelling of the critical heat flux and post-dryout heat transfer', Proc. 4th World Congress on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Brussels, June 2-6, 1997
  12. N. Hammouda, 'Subcooled film boiling in non-aqueous fluid', Ph.D. thesis, Department of Mechanical Engineering, University of Ottawa (1996)
  13. M El Nakla, 'Experimental and analytical study of inverted annular flow film boiling heat transfer in a vertical tube using R-134a', Ph.D. thesis, Department of Mechanical Engineering, University of Ottawa (2007)
  14. I. L. Pioro and R.B. Duffey, 'Experimental heat transfer to supercritical water flowing inside channels (Survey)', Nucl. Eng. Des., 235 (22), 2407 (2005) https://doi.org/10.1016/j.nucengdes.2005.05.034
  15. S.K. Yang and H.F. Khartabil, 'Normal and deteriorated heat transfer correlations for supercritical fluids', Trans. ANS Meeting, 95, Washington DC, USA (2005)
  16. K. Yamagata, K. Nishikawa, and Hasegawa, 'Forced convective heat transfer to supercritical water flowing in tubes', Int. J. Heat Mass Transfer 15 (12), 2575 (1972) https://doi.org/10.1016/0017-9310(72)90148-2
  17. G.V. Alekseev, V.A. Silin, A.M. Smirnov and V.I. Subbotin, 'Study of the thermal conditions on the wall of a pipe during the removal of heat by water at a supercritical pressure', High Temp., 14 (4), 683 (1976)
  18. N.S. Alferov, B.F. Balunov and R.A. Rybin, 'Calculating heat transfer with mixed convection', Therm. Eng., 22 (6), 96 (1975)
  19. M. Bazargan, D. Fraser and V. Chatoorgoon, 'Effect of buoyancy on heat transfer in supercritical water flow in a horizontal round tube', J. Heat Transfer, 127, 897 (2005) https://doi.org/10.1115/1.1929787
  20. I.I. Belyakov, L.Yu. Krasyakova, A.V. Zhukovskii, 'Heat transfer in vertical risers and horizontal tubes at supercritical pressure', Therm. Eng., 18 (11), 55 (1971)
  21. L.F. Glushchenko, S.I. Kalachev and O.F. Gandzyuk, 'Determining the conditions of existence of deteriorated heat transfer at supercritical pressures of the medium', Therm. Eng., 19 (2), 107 (1972)
  22. G.S. Harrison and A. Watson, 'An experimental investigation of forced convection to supercritical pressure water in heated small bore tubes', Heat and Fluid Flow, IMechE, 6(2), 97 (1976)
  23. B.Ya. Kamenetskii, 'Heat transfer characteristics of a non-uniformly circumferentially heated pipe', High Temp., 13 (3), 613 (1975)
  24. B.Ya. Kamenetskii, 'The effectiveness of turbulence promoters in tubes with nonuniformity heated perimeters under conditions of impaired heat transfer'. Therm. Eng., 27 (4), 222 (1980)
  25. L.Yu. Krasyakova, I.I. Belyakov, N.D. Fefelova, 'Heat transfer with a downward flow of water at supercritical pressure', Therm. Eng., 24 (1), 9 (1977)
  26. A.P. Ornatsky, L.P. Glushchenko, E.T. Siomin, 'The research of temperature conditions of small diameter parallel tubes cooled by water under supercritical pressures', Proc. 4th Int. Heat Transfer Conf., Vol. VI, Paper B 8.11, Paris, France. Elsevier, 1970
  27. A.P. Ornatskiy, L.F. Glushchenko, S.I. Kalachev, 'Heat transfer with rising and falling flows of water in tubes of small diameter at supercritical pressures', Therm. Eng., 18 (5), 137 (1971)
  28. V.G. Razumovskiy, 'Experimental study on heat transfer to supercritical water flowing in small diameter vertical tubes and low mass fluxes', Unpublished report, 2005
  29. K.W. Seo, M.H. Anderson, M.L. Corradini, B.D. Oh, and M.H. Kim, 'Studies of supercritical heat transfer and flow phenomena', Paper 162, NURETH-11, Avignon, France (2005)
  30. M.E. Shitsman, 'Impairment of the heat transmission at supercritical pressures', High Temp., 1 (2), 237 (1963)
  31. M.E. Shitsman, 'Temperature conditions in tubes at supercritical pressures', Therm. Eng., 15 (5), 72 (1968)
  32. G.G. Treshchev and V.A. Sukhov, 'Stability of flow in heated channels in the supercritical region of parameters of state', Therm. Eng., 24 (5), 68 (1977)
  33. Yu.V. Vikhrev, Yu.D. Barulin and A.S. Kon'kov, 'A study of heat transfer in vertical tubes at supercritical pressures', Therm. Eng., 14 (9), 116 (1967)
  34. R.P. Bringer and J.M. Smith, 'Heat transfer in the critical region', AIChE J., 3 (1), 49 (1957) https://doi.org/10.1002/aic.690030110
  35. R.B. Duffey and I.L. Pioro, 'Experimental heat transfer of supercritical carbon dioxide flowing inside channels (Survey)', Nucl. Eng. Des., 235 (8), 913 (2005) https://doi.org/10.1016/j.nucengdes.2004.11.011
  36. S.D. Hong, S.Y. Chun, S.Y. Kim and W.P. Baek, 'Heat transfer characteristics of an internally heated annulus cooled with R134a near the critical pressure', J. Korean Nuclear Society, 36 (5), 403 (2004)
  37. V.V. Sergeev, O.V. Remizov and E.F. Galchenko, 'Supercritical heat transfer in an annular channel with bilateral heating', Translated from Atomnaya Energiya, 60 (3), 172 (1986)
  38. W.H. McAdams, W.E. Kennel and J.N. Addoms, 'Heat transfer to superheated steam at high pressures', Trans. Amer. Soc. mech. Engrs, 52, 421 (1950)
  39. M. Anderson , J. Licht and M. Corradini, 'Heat transfer to supercritical pressure water in a circular and square annular flow geometry', Third Int. Symposium on Supercritical Water Cooled Reactors, Shanghai, China, March 12-15, 2007
  40. H.Y. Kim, H. Kim, D.J. Kang, J.H. Song and Y.Y. Bae, 'Heat transfer experiments for an upward flow of supercritical pressure $CO_2$ in a narrow annulus', Third Int. Symposium on Supercritical Water Cooled Reactors, Shanghai, China, March 12-15, 2007
  41. V.A. Grabezhnaya and P.L. Kirillov, 'Heat transfer in pipes and rod bundles during flow of SCP water', Atomic Energy, 96 (5), (2004)
  42. D.C. Groeneveld, L.K.H. Leung, A.Z. Vasic, Y.J. Guo and S.C. Cheng, 'A Look-Up table for fully developed filmboiling heat transfer', Nucl. Eng. Des., 225 (1), 83 (2003) https://doi.org/10.1016/S0029-5493(03)00149-3
  43. D.C. Groeneveld, J.Q. Shan, A.Z. Vasic, L.K.H. Leung, A. Durmayaz, J. Yang, S.C. Cheng and A. Tanase, 'The CHF Look-Up Table', The 11th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH- 11), Paper: 166 Popes' Palace Conference Center, Avignon, France, October 2-6, 2005
  44. X. Cheng and T. Schulenberg, 'Heat transfer at supercritical pressures -- Literature review and application to an HPLWR', Tech. Report FZKA 6609, Forschungszentrum Karlsruhe, May 2001
  45. S.C. Yao, L.E. Hochreiter and W.J. Leech, 'Heat transfer augmentation in rod bundles near grid spacers', J. Heat Transfer, 104, 76 (1982) https://doi.org/10.1115/1.3245071
  46. M. Lowenberg, J. Starflinger, E. Laurien and T. Schulenberg, 'Look-up table for heat transfer of supercritical water', Paper 037, Proc. Global Conf. 2005, Tsukuba, Japan, 2005
  47. G.A. Adebiyi and W.B. Hall, 'Experimental investigation of heat transfer to supercritical pressure carbon dioxide in a horizontal pipe', Int. J. Heat Mass Transfer, 19, 715 (1976) https://doi.org/10.1016/0017-9310(76)90123-X
  48. Y.Y. Bae, 'Recent progress of heat transfer study and safety analysis code development in Korea', SCWR T/H&S PMB, Paris, France, Mar. 21-22, 2006
  49. P.J. Bourke, D.J. Pulling, L.E. Gill and W.H. Denton, 'Forced convective heat transfer to turbulent CO2 in the supercritical region', Int. J. Heat Mass Transfer, 13, 1339 (1970) https://doi.org/10.1016/0017-9310(70)90074-8
  50. J. Fewster, 'Mixed forced and free convective heat transfer to supercritical pressure fluids flowing in vertical pipes', Ph.D. thesis. University of Manchester, UK (1976)
  51. I.L. Pioro, 'Supercritical heat transfer data', 2004 (Private communication)
  52. H. Tanaka, N. Nishiwaki, M. Hirata and A. Tsuge, 'Forced convection heat transfer to fluid near critical point flowing in circular tube', Int. J. Heat Mass Transfer, 14, 739 (1971) https://doi.org/10.1016/0017-9310(71)90104-9
  53. D.J. Brassington and D.N.H. Cairns, 'Measurements of forced convective heat transfer to supercritical helium', Int. J. Heat Mass Trasnfer, 20, 207 (1977) https://doi.org/10.1016/0017-9310(77)90207-1
  54. D. Dimitrov, A. Zahariev and V. Kovachev, 'Forced convective heat transfer to supercritical nitrogen in a vertical tube', Int. J. Heat Fluid Flow, 10 (3), 278 (1989) https://doi.org/10.1016/0142-727X(89)90047-7
  55. R.F. Kalbaliev, 'Experimental investigation of changes in the wall temperature in different regimes of motion of supercritical pressure liquids', J. of Eng. Physics and Thermophysics, 75 (5), 1037 (2002) https://doi.org/10.1023/A:1021186701811
  56. I.G. Kulieva I.T. Arabova, F.Kh. Mamedov and G.I. Isaev, 'Improved heat transfer at supercritical pressures of organic heat transfer agents', Translated from Inzhenerno-Fizicheskii Zhurnal, 62 (3), 356 (1992)
  57. F. Mayinger and M. Scheidt, 'Heat transfer in the supercritical region with vertical upflow', Warme- und Stoffiibertragung 18, 207 (1984) https://doi.org/10.1007/BF01007131