Article ID Journal Published Year Pages File Type
11033006 Thermal Science and Engineering Progress 2018 47 Pages PDF
Abstract
The present study investigates the exergy and energy centered parametric performance of parabolic trough collectors (PTC) driven combined Supercritical CO2 (SCO2) cycle/vapor absorption refrigeration (VAR) system in order to produce power, cooling and heating effect. Selected independent parameters such as direct normal irradiance (DNI), maximum cycle temperature, and the compressor pressor ratio has an incremental effect on the system efficiency in contrast to the compressor inlet temperature, generator temperature, and absorber and condenser temperature due to the inverse effect of these variables on the efficiency. Additionally, the effect of the local apparent time (LAT) has also been assessed on the performance of combined cycle (SCO2-VAR cycle) and reveal that for the location of Mumbai, the maximum value of exergy and thermal efficiency was about 75.71% and 42.18% at LAT (h) = 1230, respectively on the April 15 and 70.1% and 39.05% at LAT (h) = 1130 & 1230, respectively for the December 15. Apart from this, study concludes that the maximum value of exergy and thermal efficiency of PTC was about 33.9% and 65.32% at DNI of 0.96 kW/m2, respectively. Whereas, the exergy destruction rate follows the reverse behaviour from exergy efficiency and the maximum amount of exergy destructions have been noticed in a PTC field (i.e. 3696 kW) as compared to other components. Furthermore, at the maximum cycle temperature of 650 K, the exergy and thermal efficiency of the SCO2-VAR cycle was about 75.2% and 41.89%, respectively, however, the coefficient of performance (COP) of VAR cycle for cooling and heating was about 0.4675 and 1.435, respectively. Moreover, the network output of the SCO2-VAR cycle was found to be as 1570 kW at 650 K.
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Physical Sciences and Engineering Energy Energy Engineering and Power Technology
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