ABSTRACT
The proposed work pertains to the development of a power and refrigeration cycle which combines the Rankine cycle and the double-ejector refrigeration cycle. The resulting cycle would be driven by syngas/waste heats which are available at the exit of steam turbines and heat recovery steam generators, and this cycle will produce power as well as refrigeration. Observations show the increase in first and second law efficiencies of 6.3 and 3.15% by employment of ejectors when coupled to a combined power cycle. The results clearly reveal that thermodynamic investigation based on the first law analysis is inadequate and hence more meaningful evaluation needs to be included in the second law analysis.
Disclosure statement
No potential conflict of interest was reported by the author.