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A new design method for Organic Rankine Cycles with constraint of inlet and outlet heat carrier fluid temperatures coupling with the heat source

Qicheng Chen, Jinliang Xu and Hongxia Chen

Applied Energy, 2012, vol. 98, issue C, 562-573

Abstract: A design method for ORCs is newly proposed to fully couple the ORC with the heat source. The heat source is characterized by the mass flow rate, inlet and outlet heat carrier fluid temperatures. Example cases were performed to study the optimal running parameters for ORCs with constraint of given heat source and pinch temperature difference in evaporators. Benzene is selected as the working fluid. The results show that a higher turbine inlet temperature requires a lower turbine inlet pressure, leading to a lower system thermal efficiency. The optimal (maximum) thermal efficiency appears at the saturated or slightly-superheated vapor state at the turbine inlet. The pinch temperature differences in evaporators strongly influence the system thermal efficiency. At higher turbine inlet temperatures, either the condenser or the evaporator contributes the major exergy destruction, depending on the flue gas inlet temperatures. At lower turbine inlet temperatures, the evaporator, expander and condenser are the first, second and third contributions of the exergy destruction to the whole system. The exergy destruction by the condenser is significantly decreased with decreases in the turbine inlet temperatures.

Keywords: Low grade energy; Organic Rankine Cycle; Thermal efficiency; Exergy destruction (search for similar items in EconPapers)
Date: 2012
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (48)

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DOI: 10.1016/j.apenergy.2012.04.035

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