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|Author(s):||Piotr A. Domanski; J S. Brown; Janusz Wojtusiak; Mark O. McLinden;|
|Title:||A THERMODYNAMIC ANALYSIS OF REFRIGERANTS: PERFORMANCE LIMITS OF THE VAPOR COMPRESSION CYCLE|
|Published:||October 24, 2013|
|Abstract:||This paper explores the thermodynamic performance limits of the vapor compression cycle. In particular, we apply evolutionary algorithms to explore the performance of thousands of hypothetical refrigerants defined by their thermodynamic parameters used by the extended corresponding states model. We identified optimal values of these fundamental parameters required to reach the performance limits. The study confirmed the fundamental trade-off between the coefficient of performance (COP) and volumetric capacity, and indicated refrigerant critical temperature as the dominant parameter influencing the tradeoff. Thermodynamic performance limits depend on the operating conditions and the cycle design. These limits are represented by Pareto fronts developed for the objective functions COP and volumetric capacity. As expected, the performance of current refrigerants falls below the Pareto front limits. We demonstrate that for practical cycles the developed methodology and resulting Pareto fronts are more realistic benchmarks for the performance potentials of refrigerants than is COP alone, which is an efficiency only metric.|
|Citation:||International Journal of Refrigeration-Revue Internationale Du Froid|
|Keywords:||coefficient of performance,refrigeration, refrigerants, vapor compression cycle|
|Research Areas:||Energy Efficiency, High Performance Buildings, Building Equipment Efficiency|
|DOI:||http://dx.doi.org/10.1016/j.ijrefrig.2013.09.036 (Note: May link to a non-U.S. Government webpage)|
|PDF version:||Click here to retrieve PDF version of paper (820KB)|