西安交通大学教师主页管理系统王顺森 System optimisation and performance analysis of CO2 transcritical power cycle for waste heat recovery 中文主页

System optimisation and performance analysis of CO2 transcritical power cycle for waste heat recovery

发布时间：2025-04-30

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论文名称：: System optimisation and performance analysis of CO2 transcritical power cycle for waste heat recovery

摘要：: Compared with the organic Rankine cycle (ORC) and the steam Rankine cycle, the Carbon Dioxide transcritical power cycle (CDTPC) shows a higher potential in converting middle-grade waste heat into useful work. To overcome the shortcomings of the CDTPC in utilizing waste heat of exhaust gas from gas turbines or internal combustion engines, a new type of single-pressure, multi-stage CDTPC was proposed in this work. System parameter optimization was carried out on various CDTPC using the genetic algorithm(GA) to achieve the maximum net power output of cycle. A comparative study between the existing CDTPC and the proposed new type of CDTPC with the same Tgi (from 250°C to 500°C) shows that the new type of CDTPC can increase the net power output by 3.9–26.3% and decrease the optimum working pressure by 13.2–31.0%. If the exhaust gas is non-corrosive, waste heat can be utilized more effectively by the double-stage CDTPC when 250°C ≤Tgi≤412°C and by the three-stage CDTPC when 412°C≤Tgi≤ 500°C. However, if the exhaust gas is corrosive, waste heat is utilized more effectively by the single-stage CDTPC when 250°C≤Tgi≤ 338°C and by the double-stage CDTPC when 338°C ≤Tgi≤500°C. In addition, the effect of regenerator on the thermal performance of various CDTPC is studied.