References
- Molina, M. J. and Rowland, F. S., 1974, Stratosphere sink for chlorofluoromethanes: Chlorine atom catalyzed destruction of ozone, Nature, Vol. 249, pp.810-812
- Kim, M. H., Shin, J. S. and Kim, K J., 1997, An experimental study on the performance of a window system air-conditioner using R407C and R41OB, Korean Journal of Air-Conditioning and Refrigerating Engineering, Vol. 9, No.4, pp. 536-544
- Ebisu, T. and Torikoshi, K, 1995, Experimental studies on cross-flow heat exchanger performance using non-azeotropic refrigerant mixture, Proceedings of 19th International Congress of Refrigeration, 4a, pp. 163-170
- Ebisu, T., Kasai, D. and Torikoshi, K, 1996, A study thermal performance of air-cooled heat exchangers using alternative refrigerant, 33rd National Heat Transfer Symposium of Japan, Nigata, Vol. 2, pp.525-526
- Chen, S., Judge, J. F., Groll, R. and Radermacher, R., 1994, Theoretical analysis of hydrocarbon refrigerant mixtures as a replacement for R-22 for residential uses, Proceedings of 1994 International Refrigeration Conference at Purdue University, West Lafayette, Indiana, USA, pp.225-230
- ARl, Participants Handbook: R-22 Alternative Refrigerants Evaluation Program (AREP), June 1993, ARI.
- Ryuzaburo, Y., Nobumo, D., Sigeharu, T., Isamu, T., Ebisu, T. and Torikoshi, K, 1994, In-tube heat transfer characteristics of refrigerant mixtures of HFC-32/134a and HFC32/125/134a, Proceedings of 1994 International Refrigeration Conference at Purdue, pp. 293-298
- McLinden, M. O., Klein, S. A, Lemmon, E. W. and Peskin, A. P., 1998, Thermodynamic and transport properties of refrigerants and refrigerant mixtures database (REFPROP), Ver.6.01, NIST.
- ASHRAE, 1993, Fundamental Handbook (SI).
- Kline, S.J. and McClintock, F. A., 1953, Describing uncertainties in single sample experiments, Mechanical Engineering, Vol. 75, pp.3-8
- Wang, C. C. and Chiang, C. S., 1997, Two-phase heat transfer characteristics for R22/R407C in a 6.5mm smooth tube, Int. J. Heat and Fluid Flow 18, pp. 550-558
- Sami, S. M. and Maltais, H., 2000, Experimental investigation of two phase flow condensation of alternatives to HCHC-22 inside enhanced surface tubing, Applied Thermal Engineering, Vol. 20, pp.1113-1126
- Cavallini, A, Censi, G., Col, D. Del, Doretti, L., Longo, G. A and Rossetto, L., 2001, Experimental investigation on condensation heat transfer and pressure drop of new HFC refrigerants, International Journal of Refrigeration, Vol. 24, pp. 73-87
- Hwang, S. M., 1999, Condensation heat transfer coefficients of R22 alternative refrigerants on enhanced tubes, International Journal of KSME, Vol. 23, No.4, pp. 459-469
- Haraguchi, H., Koyama, S., Esaki, J. and Fujii, T., 1993, Condensation heat transfer of refrigerants HFCI34a, HCFC123 and HCFC22 in horizontal smooth tube and a horizontal micro fin tube, Proc., 30th National Symposia of Japan, Yokohama, pp. 343-345
- Choi, J. Y, 1999, Study on the prediction of pressure drop for condensation and evaporation of alternative refrigerants in microfin tubes, Yonsei University, Seoul, Korea
- Kedzierski, M. A and Goncaves, J. M., 1997, Horizontal convective condensation of alternative refrigerant within a micro-fin tube, NISTIR 6095, US Dept. Commerce
- Cavallini, A, Doretti, L., Klammsteiner, N., Longo, G.A and Rossetto, L., 1995, Condensation of new refrigerant inside smooth and enhanced tube, Proceeding 19th International Refrigeration Conference at Hague, Vol.4, pp. 105-114
- Shah, M. M., 1979, A general correlation for heat transfer during film condensation inside pipes, Journal of Heat and Mass Transfer, Vol. 22, pp.547-556
- Traviss, D. P., Rohsenow, W. M. and Baron, A B., 1972, Force convection condensation inside tube: a heat transfer equation for condenser design, ASHRAE Transactions, Vol.79, pp.157-165
- Jung, D. S., Bae, J. S., Lee, Y. H., Song, Y. J. and Lee, J. K., 1998, Predict pool boiling heat transfer coefficients of pure and mixed refrigerants, Report of Inha University