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Thermodynamic analysis and parametric optimization of CDTPC-ARC based on cascade use of waste heat of heavy-duty internal combustion engines(ICEs)

Release Time:2025-04-30

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Title of Paper:: Thermodynamic analysis and parametric optimization of CDTPC-ARC based on cascade use of waste heat of heavy-duty internal combustion engines(ICEs)

Summary:: This paper proposes a novel carbon dioxide transcritical power cycle combined with an absorption refrigeration cycle (CDTPC-ARC) to recover waste heat from jacket water and exhaust gas of heavy-duty ICEs. Firstly, a detailed study is conducted to investigate the effects of key operating parameters on the performance of CDTPC-ARC. Secondly, a comparative study on the proposed CDTPC-ARC and the existing CDTPC-DT (consisting of CDTPC with regenerator and CDTPC without regenerator) under the same waste heat conditions shows that CDTPC-ARC can produce approximately constant net power output (when Tcw = 18–36 °C, while CDTPC-DT can’t operate in the transcritical power cycle when Tcw ⩾ 26.1 °C. Finally, parametric optimization is performed to achieve the maximum net power output of the combined cycles by using genetic algorithms (GA). Results show that CDTPC-ARC can produce more net power output and have a larger recycle efficiency compared with CDTPC-DT when Tcw > 20 °C. When Tcw = 25 °C, the optimal net power output of CDTPC-ARC is 14.6–20.2% higher than that of CDTPC-DT and the corresponding ηrec is 9.8–25.5% higher than that of CDTPC-DT. In addition, economic performance comparison between the two cycles is performed. The results show that CDTPC-ARC has better economic performance.