直接换热凝液回收工艺高级火用分析

常规火用分析仅仅能对设备的火用损及火用效率进行定量分析,而不能揭示设备的火用损改进潜力.为了分析凝液回收过程中设备的用能情况,对直接换热流程进行了高级火用分析.利用高级火用分析方法评价各设备的火用损形式,以反映出各设备之间的相互作用,识别火用损的改进潜力.结果表明,大部分设备的可避免内源火用损占总火用损的比例较高,表明...

Advanced exergy analysis of direct heat exchange condensate recovery process

Conventional exergy analysis can be only used to make a quantitative analysis of the exergy destruction and exergy efficiency of equipment, and cannot reflect the improvement potential of the exergy destruction of the equipment. In order to analyze the energy consumption of the equipment in the condensate recovery process, an advanced exergy analysis is performed on the direct heat exchange process. Advanced exergy analysis is adopted to evaluate the exergy destruction forms of each component to reflect the interaction between components and identify the improvement potential of exergy destruction. The results show that avoidable endogenous exergy destruction of most equipment accounts for the highest proportion of the total exergy destruction, indicating that process improvements should focus on device performance rather than process structure. The most effective measure to reduce process exergy destruction is to improve compressor efficiency, followed by transforming the heat exchange structure of the cold box. A sensitivity analysis shows the effects of various parameters on the four combined exergy destruction forms of DHX tower, deethanizer, de-butane tower, which reveals that exergy destruction can be reduced by further improvement of condensate recovery process.