Pressure drop and friction factor correlations of supercritical flow

Nuclear Engineering and Design

Volumn 242, Issue , 2012, Pages 323-330

  Fang, Xiande ^a   Xu, Yu ^a   Su, Xianghui ^a   Shi, Rongrong ^a  

^a NANJING UNIVERSITY OF AERONAUTICS AND ASTRONAUTICS   (China)

Author keywords

[No Author keywords available]

Indexed keywords

ANALYSIS AND SIMULATION; COMPARATIVE STUDIES; EXPERIMENTAL DATA; EXPERIMENTAL INVESTIGATIONS; FRICTION FACTOR CORRELATION; FRICTION FACTORS; FRICTION PRESSURE DROP; NEW CORRELATIONS; REACTOR COOLING SYSTEMS; SUPER-CRITICAL; SUPERCRITICAL CARBON DIOXIDES; SUPERCRITICAL CONDITION; SUPERCRITICAL FLOW; TRANSCRITICAL CYCLE;

CARBON DIOXIDE; COOLING; COOLING SYSTEMS; FRICTION; HEAT PUMP SYSTEMS; NUCLEAR REACTORS; PRESSURE DROP; TRIBOLOGY; WELDING ELECTRODES;

SUPERCRITICAL FLUID EXTRACTION;

EID: 84355162006     PISSN: 00295493     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.nucengdes.2011.10.041     Document Type: Article

References (47)

1. Andresen, U.C.; 2006. Supercritical gas cooling and near-critical- pressure condensation of refrigerant blends in micochannels. Ph.D. thesis. G.W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology.
2. A. Cavallini, D. Col, M. Matkovic, and L. Rossetto Pressure drop during two-phase flow of R134a and R32 in a single minichannel ASME Journal of Heat Transfer 131 2009 033107 33111
3. 2 cooling in macro- and micro-channels International Journal of Refrigeration 31 2008 1301 1316
4. S.W. Churchill Friction-factor equation spans all fluid-flow regimes Chemical Engineering 7 1977 91 92
5. C.F. Colebrook Turbulent flow in pipes, with particular reference to the transition region between the smooth and rough pipe laws Journal of the Institution of Civil Engineers 11 1938-39 133 156
6. C. Dang, and E. Hihara In-tube cooling heat transfer of supercritical carbon dioxide. Part 1. Experimental measurement International Journal of Refrigeration 27 2004 736 747
7. C. Dang, K. Iino, K. Fukuoka, and E. Hihara Effect of lubricating oil on cooling heat transfer of supercritical carbon dioxide International Journal of Refrigeration 30 2007 724 731 (Pubitemid 46660094)
8. C. Dang, K. Iino, and E. Hihara Effect of PAG-type lubricating oil on heat transfer characteristics of supercritical carbon dioxide cooled inside a small internally grooved tube International Journal of Refrigeration 33 2010 558 565
9. R.B. Duffey, and I.L. Pioro Experimental heat transfer of supercritical carbon dioxide flowing inside channels (survey) Nuclear Engineering and Design 235 2005 913 924 (Pubitemid 40114694)
10. W.M. Dziedzic, S.C. Jonest, C. Dana, D.C. Gould, and D.H. Petley Analytical comparison of convective heat transfer correlations in supercritical hydrogen Journal of Thermophysics and Heat Transfer 7 1 1993 68 73 (Pubitemid 23619670)
11. X.D. Fang, C.B. Bullard, and P.S. Hrnjak Heat transfer and pressure drop of gas coolers ASHRAE Transactions 107 1 2001 255 266 (Pubitemid 32861156)
12. X.D. Fang, Q.M. Dai, Y.X. Yin, and Y. Xu A compact and accurate empirical model for turbine mass flow characteristics Energy 35 2010 4819 4823
13. X.D. Fang, and Y. Xu Development of an empirical model of turbine efficiency using the Taylor expansion and regression analysis Energy 36 2011 2937 2942
14. 2 cooling Applied Thermal Engineering 31 2011 3036 3042
15. X.D. Fang, Y. Xu, and Z.R. Zhou New correlations of single-phase friction factor for turbulent pipe flow and evaluation of existing single-phase friction factor correlations Nuclear Engineering and Design 241 2011 897 902
16. P. Fernando, B. Palm, T. Ameel, P. Lundqvist, and E. Granryd A minichannel aluminum tube heat exchanger. Part II. Evaporator performance with propane International Journal of Refrigeration 31 2008 681 695
17. Garimella, S.; 2008. Near-critical/supercritical heat transfer measurements of R410A in small diameter tubes. ARTI Report No. 20120-01, George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, USA.
18. V. Gnielinski New equations for heat and mass transfer in turbulent pipe and channel flow International Chemical Engineering 16 2 1976 359 368
19. X.L. Huai, S. Koyama, and T.S. Zhao An experimental study of flow and heat transfer of supercritical carbon dioxide in multi-port mini channels under cooling conditions Chemical Engineering Science 60 2005 3337 3345 (Pubitemid 40554198)
20. Jiang, Y.; 2004. Quasi single-phase and condensation heat transfer and pressure drop of refrigerant R404A at supercritical and near critical pressures. Thesis. Mechanical Engineering Department, Iowa State University.
21. 2 Proceedings of 2003 ASME Summer Heat Transfer Conference Las Vegas, NV 2003 HT2003-47473
22. S.S. Kutateladze The Element of Heat Exchange 1962 Mashgiz Moscow-Leningrad
23. S.M. Liao, and T.S. Zhao Measurement of heat transfer coefficient from supercritical carbon dioxide flowing in horizontal mini/micro channels Journal of Heat Transfer 124 2002 413 420 (Pubitemid 34641766)
24. M. Matkovic, A. Cavallini, D.D. Col, and L. Rossetto Experimental study on condensation heat transfer inside a single circular minichannel International Journal of Heat and Mass Transfer 52 9-10 2009 2311 2323
25. M.A. Mikheev Fundamentals of Heat Transfer 1956 Gosenergoizdat Publishing House Moscow, Russia (in Russian)
26. Mitra, B.; 2005. Supercritical gas cooling and condensation of refrigerant R410A at near-critical pressures. Ph.D. Thesis. G.W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology.
27. L.F. Moody Friction factors for pipe flow Transaction of the ASME November 1944 671 684
28. R.H. Myers Classical and Modern Regression with Applications 2nd edition 2005 High Education Press Beijing, China
29. J. Nikuradse Strömungsgesetze in rauhen Rohren Forschungsheft, No. 361, Verein Deutscher Ingenieure 1933
30. 2 fluid in collectors of solar Rankine cycle system Applied Thermal Engineering 31 6-7 2011 1279 1285
31. 2 in horizontal macro-tubes Experimental Thermal and Fluid Science 34 8 2010 1230 1241
32. A.P. Ornatskiy, Y.G. Dashkiev, and V.G. Perkov Steam Generators of Supercritical Pressures 1980 Vyscha Shkola Publishing House Kiev, Ukraine pp. 35-36 (in Russian)
33. N.E. Petrov, and V.N. Popov Heat transfer and resistance of carbon dioxide being cooled in the supercritical region Thermal Engineering 32 3 1985 131 1985
34. N.E. Petrov, and V.N. Popov Heat transfer and hydraulic resistance with turbulent flow in a tube of water under supercritical parameters of state Thermal Engineering 35 10 1988 577 580
35. 2 in microchannel tubes. Final Technical Report for United States Army. Contract No. N68171-99-M-5674. European Research Office of the U.S. Army, London, England.
36. I.L. Pioro, R.B. Duffey, and T.J. Dumouchel Hydraulic resistance of fluids flowing in channels at supercritical pressures (survey) Nuclear Engineering and Design 231 2004 187 197
37. A.F. Polyakov Heat transfer under supercritical pressures Advances in Heat Transfer 21 1991 1 50
38. V.N. Popov Theoretical calculation of heat transfer and friction resistance for supercritical carbon dioxide C. Gazley Jr. J.P. Hartnett, E.R.C. Ecker, Proceedings of Second All-Soviet Union Conference on Heat and Mass Transfer Minsk, Belarus, May, 1964 1967 Published as Rand Report R-451-PR 1, 46-56
39. 7D-Soft High Technology Inc. April 2010. 1stOpt Manual, Release 3.0. http://www.7d-soft.com/.
40. E. Sobierska, R. Kulenovic, R. Mertz, and M. Groll Experimental results of flow boiling of water in a vertical microchannel Experimental Thermal and Fluid Science 31 2 2006 111 119 (Pubitemid 44693180)
41. C.H. Son, and S.-J. Park An experimental study on heat transfer and pressure drop characteristics of carbon dioxide during gas cooling process in a horizontal tube International Journal of Refrigeration 29 2006 539 546 (Pubitemid 44255544)
42. D. Steiner, and J. Taborek Flow boiling heat transfer in vertical tubes correlated by an asymptotic model Heat Transfer Engineering 13 2 1992 43 69
43. N.V. Tarasova, and A.I. Leont'ev Hydraulic resistance during flow of water in heated pipes at supercritical pressures High Temperature 6 4 1968 721 722
44. J.R. Thome, and J.E. Hajal Flow boiling heat transfer to carbon dioxide: general prediction method International Journal of Refrigeration 27 2004 2004 294 301
45. T. Yamshita, H. Mori, S. Yoshida, and M. Ohno Heat transfer and pressure drop of a supercritical pressure fluid flowing in a tube of small diameter Memoirs of the Faculty of Engineering, Kyushu University 63 4 2003 227 244 (Pubitemid 38394129)
46. S.H. Yoon, J.H. Kim, Y.W. Hwang, M.S. Kim, K. Min, and Y. Kim Heat transfer and pressure drop characteristics during the in-tube cooling process of carbon dioxide in the supercritical region International Journal of Refrigeration 26 2003 857 864
47. 2/oil mixture in a minichannel tube International Journal of Heat Mass Transfer 50 2007 4796 4804 (Pubitemid 47483744)