ANALYSIS OF THERMODYNAMIC EFFICIENCY OF SMALL-SCALE NATURAL GAS LIQUEFYING PLANT OPERATING ON MEDIUM-PRESSURE CYCLE

A. M. Arkharov; V. Yu. Semenov

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ANALYSIS OF THERMODYNAMIC EFFICIENCY OF SMALL-SCALE NATURAL GAS LIQUEFYING PLANT OPERATING ON MEDIUM-PRESSURE CYCLE

机译：中压循环小规模天然气液化厂热力效率分析

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The sole Russian Federation LNG plant operating in Ekaterinburg on medium-pressure expander cycle (Claude cycle) allows utilization of the energy of pressure fall at a gas distributing station. The thermodynamic efficiency of the plant is 17.5%, which matches the current level of development in this category of cryogenic plants. Statistical entropy analysis showed that the major contribution to the nonequilibrity of the liquefaction process is made by remote mainline compressor (up to 40%) and turboexpander-compressor aggregate (up to 25%). This fact opens up possibilities of improving LNG plants further by switching to other methods of cold generation using, in particular, rotor wave cryogenerator.

机译：在叶卡捷琳堡以中压膨胀机循环（克劳德循环）运行的唯一俄罗斯联邦液化天然气工厂可以利用加气站的压力下降能量。该设备的热力学效率为17.5％，与当前此类低温设备的发展水平相称。统计熵分析表明，液化过程不平衡的主要原因是远程干线压缩机（最多40％）和涡轮膨胀机-压缩机总成（最多25％）。这一事实为通过改用其他特别是使用转子波低温致冷器的冷法生产开辟了进一步改善LNG设备的可能性。

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来源
《Chemical and Petroleum Engineering》 |2016年第10期|656-664|共9页
作者
A. M. Arkharov; V. Yu. Semenov;
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作者单位

Bauman Moscow State Technical University, Moscow, Russia;

Bauman Moscow State Technical University, Moscow, Russia;

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原文格式 PDF
正文语种 eng
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关键词
natural gas liquefier; rotor wave cryogenerator; thermodynamic efficiency; compressor; turboexpander;

机译：天然气液化器转子波低温发生器热力学效率压缩机;涡轮膨胀机;

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1. Thermodynamic analysis for working fluids comparison in Rankine-type cycles exploiting the cryogenic exergy in Liquefied Natural Gas (LNG) regasification [J] . Ferreira P. A., Catarino I., Vaz D. Applied thermal engineering: Design, processes, equipment, economics . 2017,第期

机译：在液化天然气（LNG）重新升值中利用低温漏洞的rancient型循环中的工作流体的热力学分析
2. Thermodynamic analysis of a Brayton cycle and Rankine cycle arranged in series exploiting the cold exergy of LNG (liquefied natural gas) [J] . Manuel Romero Gomez, Ramon Ferreiro Garcia, Javier Romero Gomez, Energy . 2014,第mara1期

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3. Thermodynamic analysis and optimization of a two-stage organic Rankine cycle for liquefied natural gas cryogenic exergy recovery [J] . Xue Xiaodi, Guo Cong, Du Xiaoze, Energy . 2015,第apra1期

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ANALYSIS OF THERMODYNAMIC EFFICIENCY OF SMALL-SCALE NATURAL GAS LIQUEFYING PLANT OPERATING ON MEDIUM-PRESSURE CYCLE

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