In this paper, the inefficiency of the studied energy conversion system is identified to reduce losses and improve performance. A conventional exergy analysis has limitations that it is not able to detect and this detection is done with advanced exergy analysis. The main role of advanced exergy analysis is to help engineers improve system design and performance by providing information. This provision of information is done by isolating the exergy destruction. Separation of exergy destruction into endogenous/exogenous and unavoidable/avoidable components presents a new development in the exergy analysis of energy conversion systems, which in this paper combines both concepts. This separation increases the accuracy of the exergy analysis and facilitates the improvement of a system. The method used in this paper for separation is the thermodynamic cycle method, which is based on determining the temperature levels for ideal and irreversible cycles.

中文翻译：

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单个闪现地热循环的常规和高级火用分析

在本文中，确定了所研究的能量转换系统的低效率，以减少损失并提高性能。传统的火用分析具有无法检测的局限性，并且这种检测是通过高级火用分析完成的。高级火用分析的主要作用是通过提供信息帮助工程师改进系统设计和性能。这种信息的提供是通过隔离火用破坏来完成的。将火用破坏分为内源性/外源性和不可避免/可避免的成分，这是能量转换系统火用分析的新发展，本文结合了这两个概念。这种分离提高了火用分析的准确性并促进了系统的改进。