References
- United nations environment programme, 1987, Montreal protocol on substances that deplete the ozone layer, Final act, New York, United Nations.
- United nations environment programme, 2002, Production and consumption of ozone depleting substances under the montreal protocol 1986-2000, Ozone secretariat, UNEP, Nairobi, Kenya.
- Dupont fluorochemicals, 1988, Disassembly and inspection of compressor in laboratory refrigerator charged with R-134a, Report NIST- 13, E. I., Dupont de nemours and company incorporated, Wilmington, DE, USA.
- Global environmental change report, 1997, A brief analysis of the kyoto protocol, Vol. IX, No. 24.
- Intergovernmental panel on climate change, 1996, Climate change 1995 : the science of climate change, Cambridge university Press, p. 22.
- Tasi, W. T., 2005, An overview of environmental hazards and exposure and explosive risk of hydrofluorocarbon HFCs, Chemosphere Vol. 61, pp. 1539-1547. https://doi.org/10.1016/j.chemosphere.2005.03.084
- Directive 2006/40/EC of the european parliament and of the council, 2006, Official journal of the european union, Vol. 14. No. 6.
- Horrocks, P., 2006, EU F-Gases regulation and MAC directive, ECCP-1 Review, European commission environment directorate, Brussels, Belgium, 01.03.06.
- Jetter, J., 1996, Evaluation of alternatives for HFC-134a refrigerant in motor vehicle air conditioning, Proceedings of the international conference on ozone protection technologies, Washington, DC, pp. 845-854.
- Park, K. J., Woo, S. G. and Jung D., 2007, Lower flammability limits of flammable refrigerants according to ASTM E681-04 standard, SAREK, Vol. 19, No. 10, pp. 726-734.
- Shin, J. S., Park, W. G. and Kim, M. H., 2008, Test results of refrigerant R152a in a mobile air-conditioning system, Int. j. air-conditioning and refrigeration, Vol. 16, pp. 44-50.
- Baker, J., Ghodbane, M., Scherer, L. Kadle, P. and Hill, W., 2003, R-152a refrigeration system for mobile air conditioning, SAE, 2003-01-0731.
-
Lee, J. I., Kwon, I. W. and Ha, O. N., 2003, A study on the characteristics an azeotropic mixture combined with
$CF_3I$ and a refrigerant for air-conditioner HFC-152a and HFC-152a, Int. j. air-conditioning and refrigeration, Vol. 11, pp. 140-149. - Kruse, H., 1996, The state of the art of the hydrocarbon technology in household refrigeration, Proc. of the int. conferences on ozone protection technologies, Washington, DC, pp. 179- 188.
- Jung, D., Kim, C., Song, K. and Park, B., 2000, Testing of propane/isobutane mixture in domestic refrigerators, int. j. refrigeration, Vol. 23, pp. 517-527. https://doi.org/10.1016/S0140-7007(99)00084-5
- Int. energy agency's heat pump center, Informative fact sheet, 2002, Hydrocarbons as refrigerants in residential heat pumps and airconditioners.
- Purkayastha, B. and Bansal, P. K., 1998, An experimental study on HC290 and a commercial liquefied petroleum gas(LPG) mix as suitable replacements for HCFC22, Int. j. refrigeration, Vol. 21, pp. 3-17. https://doi.org/10.1016/S0140-7007(97)00083-2
- Jung, D., Park, B. and Lee, H., 1999, Evaluation of supplementary/retrofit refrigerants for automobile air-conditioners charged with CFC12, Int. j. refrigeration, Vol. 22, pp. 558-568. https://doi.org/10.1016/S0140-7007(99)00022-5
- Mulroy, W., Kauffeld, M., McLinden, M. O. and Didion, D. A., 1988, Experimental evaluation of two refrigerant mixtures in a bread-board air conditioner, Proc. of int. inst. refrigeration, Purdue conference on CFCs, Commissions B1, B2, E1 and E2, pp. 27-34.
- Didion, D. A. and Bivens, D. B., 1990, Role of refrigerant mixtures as alternatives to CFCs, Int. j. refrigeration, Vol. B, pp. 163-175.
- Lemmon, E. W., Huber, M. L., McLinden, M. O., 2007, NIST Reference fluid thermodynamics and transport properties, REFPROP version 8.0.
- Domanski, P. A., Didion, D. A. and Chi, J., 2003, NIST Vapor compression cycle design program, CYCLE-D version 3.0.
- Maclaine-cross, I. L. and Leonardi., E., 1997, Why hydrocarbons save energy?, Australian AIRAH journal, Vol. 51, pp. 33-37.