Performance Evaluation of Refrigeration Units in Natural Gas Liquid Extraction Plant

Journal of Thermodynamics Pub Date : 2014-03-25 DOI:10.1155/2014/863408

A. A. Ujile, Dirina Amesi

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引用次数: 1

Abstract

This paper has applied thermodynamics principles to evaluate the reliability of 390 m3/hr natural gas processing plant. The thermodynamics equations were utilized in the evaluation, characterization, and numerical simulation of key process parameters in natural gas liquid extraction plant. The results obtained show the comparison of the coefficient of performance, compression ratio, isentropic work, actual work, electrical power requirements, cooling water consumption in intercoolers, compressor power output, compressor capacity, and isentropic, volumetric, and mechanical efficiency of the two-stage refrigeration unit with a flash gas economizer and these were compared with the designed specifications. The second law of thermodynamics was applied in analyzing the refrigeration unit and the result shows that exergetic losses or lost work due to irreversibility falls within operating limit that is less than 1.0%. Similarly, the performance of expansion turbine (expander) parameters was monitored and the results indicate a considerable decrease in turbine efficiencies as the inlet gas pressure increases resulting in an increased power output of the turbine leading to a higher liquefaction rate.

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天然气液体萃取装置制冷机组性能评价

应用热力学原理对390m3 /hr天然气处理厂的可靠性进行了评价。将热力学方程应用于天然气液体萃取装置关键工艺参数的评价、表征和数值模拟。结果表明，采用闪蒸省煤器的两级制冷机组的性能系数、压缩比、等熵功、实际功、电力需求、中间冷却器冷却水消耗量、压缩机功率输出、压缩机容量、等熵效率、容积效率和机械效率均与设计参数进行了比较。应用热力学第二定律对制冷装置进行了分析，结果表明，由于不可逆性引起的耗能损失或功损失在运行极限范围内，小于1.0%。同样，对膨胀涡轮(膨胀机)参数的性能进行了监测，结果表明，随着进口气体压力的增加，涡轮效率显著降低，导致涡轮输出功率增加，从而导致更高的液化率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Thermodynamics

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