Simulation on the Performance of Carbon Dioxide and HFC-125 Heat Pumpsfor Medium-and High-Temperature Heating
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33090
Simulation on the Performance of Carbon Dioxide and HFC-125 Heat Pumpsfor Medium-and High-Temperature Heating

Authors: Young-Jin Baikand, Minsung Kim

Abstract:

In order to compare the performance of the carbon dioxide and HFC-125 heat pumps for medium-and high-temperature heating, both heat pump cycles were optimized using a simulation method. To fairly compare the performance of the cycles by using different working fluids, each cycle was optimized from the viewpoint of heating COP by two design parameters. The first is the gas cooler exit temperature and the other is the ratio of the overall heat conductance of the gas cooler to the combined overall heat conductance of the gas cooler and the evaporator. The inlet and outlet temperatures of secondary fluid of the gas cooler were fixed at 40/90°C and 40/150°C.The results shows that the HFC-125 heat pump has 6% higher heating COP than carbon dioxide heat pump when the heat sink exit temperature is fixed at 90ºC, while the latter outperforms the former when the heat sink exit temperature is fixed at 150ºC under the simulation conditions considered in the present study.

Keywords: Carbon dioxide, HFC-125, trans critical, heat pump.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1071968

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1624

References:


[1] K. Kusakari, "The Spread Situation and the Future View of the CO2 Refrigerant Heat Pump Water Heater in Japan,"in Proceedings of7th IIR Gustav-Lorentzen Conf. on Natural Working Fluid,Trondheim, Norway, 2006.
[2] P. Neksa, H. Rekstad, G. R. Zakeri, and P. A. Schiefloe, "CO2 heat pump water heater: Characteristics, system design and experimental results,"International Journal of Refrigeration, vol. 21, pp. 172-179, 1998.
[3] X.J. Zhou, Z.W. Lian, Z.H. Li, and Y. Yao, "Experimental study on HFC125 critical heat pump,"Applied Thermal Engineering, vol. 27, pp. 988-993, 2007.
[4] REFPROP Version 8.0, NIST standard reference database 23, 2007.
[5] P. A. Domanski and M. O. McLinden,"A simplified cycle simulation model for the performance rating of refrigerants and refrigerant mixtures,"International Journal of Refrigeration, vol. 15, pp. 81-88, 1992.
[6] M. Utamura, K. Nikitin, and Y. Kato, "A generalized mean temperature difference method for thermal design of heat exchangers,"International Journal of Nuclear Energy and Technology, vol. 4, pp. 11-31, 2008.
[7] A. Bejan, G. Tsatsaronis, and M. Moran,ThermalDesign and Optimization, John Wiley and Sons, Inc., New York, 1995.
[8] R. M. Lewisand V. Torczon, "A globally convergent augmented Lagrangian pattern search algorithm for optimization with general constraints and simple bounds,"SIAM Journal on Optimization, vol. 12, pp. 1075-1089, 2002.
[9] MATLAB Version R2009a, The MathWorks Inc., 2009.