化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
12期
4978-4984
,共7页
有机朗肯循环%低温%环境%亚临界%跨临界%工质
有機朗肯循環%低溫%環境%亞臨界%跨臨界%工質
유궤랑긍순배%저온%배경%아림계%과림계%공질
organic Rankine cycle%exergy%low temperature%environment%subcritical%transcritical%working fluid
为综合评价有机朗肯循环(ORC)系统的热经济和环保性能,采用?参数量化工质的环境影响,提出了结合工质环境影响和循环热经济性能的综合评价指标“综合环境影响?效率”,在150℃的低温热源条件下,对考虑工质环境影响的亚临界有机朗肯循环和跨临界有机朗肯循环的系统性能进行了分析对比,结果表明,综合考虑循环热经济性能和工质环境影响因素时,R123和 R32分别为亚临界有机朗肯循环系统和跨临界朗肯循环系统的最佳工质;跨临界ORC系统循环净输出功率要高于亚临界ORC系统,但是跨临界ORC系统较高的循环蒸发压力会引起工质泄漏量的增加,进而造成综合环境影响?效率并不高,所以综合考虑环保和循环性能时,亚临界ORC系统是较好的选择。
為綜閤評價有機朗肯循環(ORC)繫統的熱經濟和環保性能,採用?參數量化工質的環境影響,提齣瞭結閤工質環境影響和循環熱經濟性能的綜閤評價指標“綜閤環境影響?效率”,在150℃的低溫熱源條件下,對攷慮工質環境影響的亞臨界有機朗肯循環和跨臨界有機朗肯循環的繫統性能進行瞭分析對比,結果錶明,綜閤攷慮循環熱經濟性能和工質環境影響因素時,R123和 R32分彆為亞臨界有機朗肯循環繫統和跨臨界朗肯循環繫統的最佳工質;跨臨界ORC繫統循環淨輸齣功率要高于亞臨界ORC繫統,但是跨臨界ORC繫統較高的循環蒸髮壓力會引起工質洩漏量的增加,進而造成綜閤環境影響?效率併不高,所以綜閤攷慮環保和循環性能時,亞臨界ORC繫統是較好的選擇。
위종합평개유궤랑긍순배(ORC)계통적열경제화배보성능,채용?삼수양화공질적배경영향,제출료결합공질배경영향화순배열경제성능적종합평개지표“종합배경영향?효솔”,재150℃적저온열원조건하,대고필공질배경영향적아림계유궤랑긍순배화과림계유궤랑긍순배적계통성능진행료분석대비,결과표명,종합고필순배열경제성능화공질배경영향인소시,R123화 R32분별위아림계유궤랑긍순배계통화과림계랑긍순배계통적최가공질;과림계ORC계통순배정수출공솔요고우아림계ORC계통,단시과림계ORC계통교고적순배증발압력회인기공질설루량적증가,진이조성종합배경영향?효솔병불고,소이종합고필배보화순배성능시,아림계ORC계통시교호적선택。
In order to consider thermal economic performance and environmental impact of an organic Rankine cycle(ORC)system, the exergy parameter is used to quantify the environment influence of working fluids and composite performance indicator“comprehensive exergy efficiency integrated environmental influence” is proposed, which combines the environmental effect and cycle thermal economic performance. At thermal source of 150℃, the performance of working fluids of subcritical and transcritical ORC systems is evaluated by the composite performance indicator. Results show that R123 and R32 are suitable for subcritical and transcritical ORC systems respectively when considering the cycle thermal economic performance and refrigerant environmental impact. Although the net power output of transcritical ORC system is higher, the composite performance indicator shows that due to its high circulation evaporation pressure the leakage of working fluids increases. Therefore, subcritical ORC system is a better choice with considering the environmental protection and circulation performance.