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过热/过冷对内回热有机朗肯循环影响的热力学分析

徐荣吉张晓晖闫美玉王瑞祥许淑惠

化工进展2016，Vol.35Issue(12)：3783-3792,10.

化工进展2016，Vol.35Issue(12)：3783-3792,10.DOI:10.16085/j.issn.1000-6613.2016.12.008

过热/过冷对内回热有机朗肯循环影响的热力学分析

Thermal dynamics analysis on the organic Rankine cycle (ORC) with internal heat regenerator at superheated and subcooling conditions

徐荣吉 ¹张晓晖 ¹闫美玉 ¹王瑞祥 ¹许淑惠¹

作者信息

1. 北京建筑大学北京市建筑能源综合高效综合利用工程技术研究中心，北京 100044
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摘要

Abstract

Internal heat recovery is a simple and effective way to improve the thermal performance of basic organic Rankine cycle(ORC). Thermodynamics regularity of the cycle is changed due to the process changes of the cycle. The heat recovery process and mechanism of the internal heat regenerator was deeply analysed and R245fa was used as working fluid. A new method that can calculate the performance of the internal regenerator was proposed based on logarithmic temperature difference. The effects of superheat and subcooling temperature on the thermal performance of the IHORC were thermodynamicly analyzed. The results indicated that the evaporation and condensation load was reduced and the thermal efficiency of the cycle was improved. The cycle efficiency and the expander work output were increased almost linearly with the increase of the superheating temperature. According to the subcooling temperatures,there were two kinds of sulbcooling:subcooling and deep subcooling. Under supercooling condition,cycle efficiency gradually decreased,evaporation and condensation load gradually increased with the increase of the subcooling temperature though the heattransfer and efficiency of the regenerator gradually increased. Under deep supercooling condition,for the reason of the heat recovery the cycle efficiency and the heat transfer and efficiency of the regenerator increased with the decrease of the evaperation and condensation load. The critical point of subcooling and deep subcooling depended on the outlet steam dryness. It was deep subcooling when the dryness of less than 1. The recovered heat was restricted by the exhaust gas. The internal regenerative ORC was suitable for conditions of high temperature difference between evaporation and condensation temperature,overheating and deep subcooling.

关键词

热力学/有机朗肯循环/内回热/过热/过冷

Key words

thermaldynamics/organic Rankine cycle/internal heat recovery/superheat/subcooling

分类

能源科技

引用本文复制引用

徐荣吉,张晓晖,闫美玉,王瑞祥,许淑惠..过热/过冷对内回热有机朗肯循环影响的热力学分析[J].化工进展,2016,35(12):3783-3792,10.

基金项目

国家自然科学基金（51506004）、北京市自然科学基金（3162009）及北京市教委科技计划（KM201410016001）项目。（）

化工进展

OA北大核心CSCDCSTPCD

ISSN：1000-6613

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