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环形超声速喷管内天然气流场特性 被引量:6

Flow characteristics of natural gas in annular supersonic nozzles
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摘要 依据角动量守恒原理设计了一种用于天然气脱水的环形超声速喷管,建立了相应的物理和数学模型,并采用RNG k-ε湍流模型对喷管内天然气流场特性进行了数值计算。结果表明,天然气进入环形超声速喷管后发生膨胀降温,在喷管出口处马赫数可达1.85,温度低达-70℃,天然气经旋流叶片产生旋流,离心加速度最大可达640 000g,在低温和旋流场的联合作用下,天然气中的水凝结成液滴并被甩向管壁,实现天然气脱水。与传统的拉法尔喷管不同的是,中心体的存在可以有效地加强旋流,但同时旋流效应会降低喷管的膨胀制冷性能。 A new annular supersonic nozzle was designed for natural gas dehydration based on the principle of conservation of angular momentum.Corresponding mathematical and physical models were established.The flow characteristics of natural gas in the annular supersonic nozzle were numerically simulated with the RNG k-εturbulence model.The results showed that natural gas expanded to supersonic velocity,resulting in a low temperature in the annular nozzles.The Mach number could reach 1.85 at a low temperature of-70 ℃ at the nozzle exit.The swirling motion was generated by the vanes located at the entrance of the nozzle,leading to a centrifugal field of about 640 000g.Water could be condensed and removed from natural gas under the combined effects of low temperature and strong centrifugal field.The strong swirling flow could be obtained in the annular nozzle as a result of the central body.When the swirling flow passed through the nozzle,the expansion characteristics of the nozzle was weakened,which was different from the common Laval nozzle.
作者 文闯 曹学文 杨燕 张静
机构地区 中国石油大学储运与建筑工程学院
出处 《化工进展》 EI CAS CSCD 北大核心 2011年第4期720-724,共5页 Chemical Industry and Engineering Progress
基金 国家高技术研究发展计划(2007AA09Z301) 国家科技重大专项(2008ZX05017-004)项目
关键词 环形喷管 超声速 旋流 天然气流场 annular nozzle supersonic swirling flow natural gas flow field
分类号 TE868 [石油与天然气工程—油气储运工程]
作者简介 文闯(1985-),男,博士研究生。E—mail:wenchuang2008@163.com。 联系人:曹学文,教授,博士生导师,从事天然气加工与处理技术的研究。E-mail caoxw@upc.edu.cn。
  • 相关文献

参考文献12

  • 1冯叔初,郭揆常,等油气集输与矿场加工[M].东营:中国石油大学出版社,2006.
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  • 3Alfyorov V, Bagirov L, Dmitriev L, et al. Supersonic nozzle efficiently separates natural gas components[J]. Oil & Gas Journal, 2005, 5: 53-58.
  • 4杨志毅.油气超音速旋流分离技术研究[D].四川:西南石油学院,2004.
  • 5刘恒伟,刘中良,冯永训,顾克宇,颜廷敏.Characteristics of a Supersonic Swirling Dehydration System of Natural Gas[J].Chinese Journal of Chemical Engineering,2005,13(1):9-12. 被引量:24
  • 6曹学文,陈丽,杜永军,林宗虎.超声速旋流天然气分离器的旋流特性数值模拟[J].中国石油大学学报(自然科学版),2007,31(6):79-81. 被引量:17
  • 7蒋文明,刘中良,刘恒伟,张新军,张建,宋辉,鲁树东.新型天然气超音速脱水净化装置现场试验[J].天然气工业,2008,28(2):136-138. 被引量:33
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二级参考文献13

  • 1何策,程雁,额日其太.天然气超音速脱水技术评析[J].石油机械,2006,34(5):70-72. 被引量:30
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  • 6BROUWER J M, EPSOM H D. Twister supersonic gas conditioning for unmanned platforms and subsea gas processing [ R]. SPE 83977,2003.
  • 7BART P, PETER S, BART L, et al. CFD for supersonic gas processing[C]//Multiphase separation and multiphase pumping technologies conference, Aberdeen, UK, September 1-2,2005.
  • 8PASCAL V E, HUGH D E. Supersonic gas conditioning introduction of the low pressure drop twister[C] // Gas Processors Association-Europe Annual Meeting, Oslo, Norway, September 20-22, 2006.
  • 9BROUWER J M, EPSOM H D. Twister Supersonic Gas Conditioning for Unmanned Platforms and Subsea Gas Processing[C] //Offshore European 2003, Aberdeen, UK, September 2-5, 2003.
  • 10PETER S , HUGH E. Supersonic gas conditioning introduction of the low pressure drop twister[C] // Offshore Technology Conference, Houston, USA, May 1-4, 2006.

共引文献59

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二级引证文献36

化工进展
2011年 第4期

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