Your search keyword '"Suhanan"' showing total 2 results

1. Exergy Analysis of a Dual-Evaporator Refrigeration Systems.

Author

Dwinanto, Matheus M., Suhanan, and Prajitno

Subjects

*VAPOR compression cycle, *EVAPORATORS, *EXERGY, *TEMPERATURE effect, *ENERGY consumption

Abstract

A performance analysis based on exergetic performance coefficient (EPC) criterion was carried out for a dualevaporator vapor compression refrigeration system. The influence of the condensing and evaporating temperature on the EPC, the coefficient of performance (COP), the second law efficiency and the destruction of exergy will be presented. It is found that the evaporating and condensing temperatures have strong effects on EPC in the system. Condensing temperature increases will decrease EPC, COP, and second law efficiency, while evaporating temperature increases will increase the EPC, COP, and second law efficiency. The EPC increases and the total exergy destruction decreases with decreasing temperature difference between the evaporator and refrigerated space and between the condenser and ambient temperature. The EPC can be used for selection of optimal design parameters and the procedures given in this paper for exergy analysis of a dual evaporator vapor compression refrigeration systems has been applied to actual systems. [ABSTRACT FROM AUTHOR]

Published

2017

2. Exergy Analysis of a Dual-Evaporator Refrigeration Systems.

Author

Dwinanto, Matheus M., Suhanan, and Prajitno

Subjects

*EXERGY, *REFRIGERATION & refrigerating machinery, *VAPOR compression cycle, *CONDENSERS (Vapors & gases), *SYSTEMS design

Abstract

A performance analysis based on exergetic performance coefficient (EPC) criterion was carried out for a dualevaporator vapor compression refrigeration system. The influence of the condensing and evaporating temperature on the EPC, the coefficient of performance (COP), the second law efficiency and the destruction of exergy will be presented. It is found that the evaporating and condensing temperatures have strong effects on EPC in the system. Condensing temperature increases will decrease EPC, COP, and second law efficiency, while evaporating temperature increases will increase the EPC, COP, and second law efficiency. The EPC increases and the total exergy destruction decreases with decreasing temperature difference between the evaporator and refrigerated space and between the condenser and ambient temperature. The EPC can be used for selection of optimal design parameters and the procedures given in this paper for exergy analysis of a dual evaporator vapor compression refrigeration systems has been applied to actual systems. [ABSTRACT FROM AUTHOR]

Published

2016