In this study, a new parabolic solar collector integrated combined power and refrigeration system with the
thermoelectric generator (CPR-PTSC with TEG) was proposed. The suggested system was evaluated through
energy, exergy, and exergo-economic analyses, and the effect of the TEG on the power generation performance
was investigated. The influences of significant parameters such as pressure ratio of supercritical Brayton cycle
(BC), length of parabolic solar collector, turbine inlet pressure (TIP) of transcritical Rankine cycle (RC), compressor
discharge pressure (CDP) of vapor compression refrigeration cycle (VCRC) were determined. According
to the results, it was found that the integration of the thermoelectric units to the system improved the exergy
performance of the system with an exergy destruction rate of 803.4 kW, where it was calculated as 821.38 kW
for the system without TEG. The result of parametric analyses represented that the various system parameters
have the same effects on the performance of both CPR-PTSC with and without TEG. Furthermore, with the
exergo-economic analysis of CPR-PTSC with TEG, the cost of generated power for TEG I and II were determined
to be 0.6311 US$/h and 2.202 US$/h, respectively, and the cooling costs were calculated as 0.994 US$/h and
0.7462 US$/kWh.