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چکیده
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A novel dual-evaporator system with dual-source (renewable and electrical energies) is proposed to
provide negative and positive evaporator temperatures. The system is a combination of the generator
eabsorber heat exchange (GAX), ejector-expansion transcritical CO2 refrigeration (EETC), Organic Rankin
Cycle (ORC) and supercritical CO2 power cycles. The system is analyzed and optimized thermodynamically in detail. It is found that allocating the lower temperatures (�25 to �45 C) for EETC evaporator and
higher temperatures (5e10 C) for GAX evaporator is more suitable. Detailed exergy analyses reveal that
19.89% and 5.92% of total input exergy, are useful in EETC evaporator and GAX evaporator, respectively.
The ejector is found to be the highest source of irreversibility in the system. Moreover, the system
performs better than dual-evaporator systems recently reported in literature.
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