Abstract:The heat transfer characteristics of supercritical carbon dioxide in a horizontal tube with water in the vertical cross flow form were experimentally investigated. The results indicate that the changes of inlet pressure, mass flow rate, and cooling water flow rate have major effects on heat transfer performance. The variations of Reynolds number and Prandtl number were obtained in counter flow and vertical cross flow. The four conventional correlations for convection heat transfer of supercritical carbon dioxide were verified by the experimental data in this study and the correlation agree with this experimental condition was determined.
出版日期: 2008-09-05
引用本文:
. Experimental study on heat transfer characteristics
of supercritical carbon dioxide in horizontal tube[J]. Frontiers of Energy and Power Engineering in China - Selected Publications from Chinese Universities, 2008, 2(3): 339-343.
LV Jing, FU Meng, QIN Na, DONG Bin. Experimental study on heat transfer characteristics
of supercritical carbon dioxide in horizontal tube. Front. Energy, 2008, 2(3): 339-343.
Jackson J D . Some striking features on heat transfer with fluids at pressuresand temperatures near the critical point. Keynote Paper for International Conference on Energy Conversion andApplication (ICECA 2001), Wuhan, 2001
2
Halozan H, Rieberer R . CO2 as refrigerant-possible applications. Proceeding of 4th IIR-Gustav Lorentzen Conference on Natural WorkingFluids, Purdue University, 2000, 43–50
3
Bourke P J, Pulling D J, EGill L, et al.. Forced convective heat transfer to turbulentin the supercritical region. Int J HeatMass Transfer, 1970, 13: 1339–1348. doi:10.1016/0017‐9310(70)90074‐8
4
Tanaka H, Nishiwaki N, Hirata M, et al.. Forced convection heat transfer to fluid nearcritical point flowing in circular tube. Int J Heat Mass Transfer, 1971, 14: 739–750. doi:10.1016/0017‐9310(71)90104‐9
5
Brassington D J, Cairn D N . Measurements of forced convectiveheat transfer to supercritical Helium. Int J Heat Mass Transfer, 1977, 20: 207–214. doi:10.1016/0017‐9310(77)90207‐1
6
Gnielinski. . Newequation for heat and mass transfer in turbulent pipe and channelflow. Int Chem Eng, 1976, 16: 359–368
7
Yoon S H, Kim J H, Kim M S . Heat transfer and pressure drop characteristics duringin-tube gas cooling process of carbon dioxide in the supercriticalregion. Int J Refrigeration, 2003, 26: 857–864. doi:10.1016/S0140‐7007(03)00096‐3
8
Pitla S . Numericalheat transfer analysis in heat exchangers for transciritical carbondioxide system. Lorentzen 4th II R GustavLorentzen Conference on Natural Working Fluids. Purdue UniversityPress, 2000, 307–314
9
Liao S M . Heat transfer of supercritical carbon dioxide in mini/micro tubes. Dissertation for the Doctoral Degree. Hong Kong: The Hong Kong University, 2002
