References
- G. Lorentzen, 'The Use of Natural Refrigerants: A Complete Solution to the CFC/HCFC Predicament,' Int. J. Refrig., Vol.18, No.3, pp.190-197, 1995 https://doi.org/10.1016/0140-7007(94)00001-E
-
J. Petternsen, 'An Efficient New Automobile Air-Conditioning System based on
$CO_2$ Vapor Compression,' ASHRAE Transactions, Symposia, pp.657-665, 1994 - K. F. Steven, 'Total Environmental Warming Impact (TEWI) Calculations for Alternative Automotive Air-Conditioning Systems,' SAE 970526, 1997
-
M. H. Kim, J. Pettersen and C. W. Bullard, 'Fundamental Process and System Design Issues in
$CO_2$ Vapor Compression Systems,' Progress in Energy and Combustion Science, Vol.30, pp.119-174, 2004 https://doi.org/10.1016/j.pecs.2003.09.002 -
J. Petternsen, A. Hafner, G. Skaugen and H. Rekstad, 'Development of Compact Heat Exchangers for
$CO_2$ Air-Conditioning Systems,' Int. J. Refrigeration, Vol.21, No.3, pp.180-193, 1998 https://doi.org/10.1016/S0140-7007(98)00013-9 - R. P. McEnaney, Y. C. Park, J. M. Yin and P. S. Hrnjak, 'Performance of the Prototype of a Transcritical R744 Mobile A/C System,' SAE 1999-01-0872, 1999
-
Y. C. Park, J. M. Yin, C. W. Bullard and P. S. Hrnjak, 'Experimental and Model Analysis of Control and Operating Parameters of Transcritical
$CO_2$ Mobile A/C System,' VTMS-4 Conference, London, England, pp.163-170, 1999 -
J. P. Won, Y. S. Kim, H. K. Lee and D. H. Lee, 'Experimental Study on the Performance Characteristics of the Mobile Air-conditioning System Using a
$CO_2$ Refrigerant,' Fall Conference Proceedings, Vol.I, KSAE, pp.433-439, 2004 -
J. K. Lee, D. H. Lee, H. K. Lee and J. P. Won, 'Development of Optimum High Pressure Algorithm for a Transcritical
$CO_2$ Mobile Air-Conditioning System,' Spring Conference Proceedings, Vol.IV, KSAE, pp.2453-2459, 2006 -
D. Han and K. Jang, 'Dynamic Models and Intelligent Control Algorithms for a
$CO_2$ Automotive Air Conditioning System,' Transactions of KSAE, Vol.14, No.4, pp.49-58, 2006