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JOURNALS // Teplofizika vysokikh temperatur

TVT, 2010, Volume 48, Issue 2, Pages 262–268 (Mi tvt718)

The procedure for investigation of the efficiency of purification of natural gases in a supersonic separator
M. M. Malyshkina

This publication is cited in the following articles:
  1. Jianan Chen, Tongsheng Wang, Anna Li, YuanYuan Gao, Zhu Huang, Wenming Jiang, Guang Xi, “Influence of inner wall roughness of supersonic separator on non-equilibrium condensation of CO2 benefiting flue gas decarbonization”, Journal of Cleaner Production, 434 (2024), 139964  crossref
  2. Isfandiyar Eminli, Babak Emdadi, Rasoul Moradi, Advances in Natural Gas: Formation, Processing, and Applications. Volume 5: Natural Gas Impurities and Condensate Removal, 2024, 111  crossref
  3. Esmail Lakzian, Shima Yazdani, Fahime Salmani, Omid Mahian, Heuy Dong Kim, Mohammad Ghalambaz, Hongbing Ding, Yan Yang, Bo Li, Chuang Wen, “Supersonic separation towards sustainable gas removal and carbon capture”, Progress in Energy and Combustion Science, 103 (2024), 101158  crossref
  4. Jianan Chen, YuanYuan Gao, Anna Li, Zhu Huang, Wenming Jiang, “Virtual nozzle phenomenon caused by separation bubble during CO2 capture”, Energy, 303 (2024), 131994  crossref
  5. Jianan Chen, Zhu Huang, “Geometric factors affecting CO2 separation in a supersonic separator”, Process Safety and Environmental Protection, 189 (2024), 1303  crossref
  6. Seyed Sorosh Mirfasihi, Abolfazl Jomekian, Bahamin Bazooyar, Advances Natural Gas: Formation, Processing, and Applications. Volume 8: Natural Gas Process Modelling and Simulation, 2024, 279  crossref
  7. Bahamin Bazooyar, Abolfazl Jomekian, Seyed Sorosh Mirfasihi, Advances Natural Gas: Formation, Processing, and Applications. Volume 8: Natural Gas Process Modelling and Simulation, 2024, 255  crossref
  8. Chenyu Han, Wenming Jiang, Yang Liu, Zhuoying Dou, Bingxu Jin, “Numerical study on carbon dioxide removal from the hydrogen-rich stream by supersonic Laval nozzle”, International Journal of Hydrogen Energy, 48:38 (2023), 14299  crossref
  9. Chenyu Han, Wenming Jiang, Yang Liu, Zhuoying Dou, “Energy separation and CO2 nonequilibrium condensation effects in the pressure recovery process of hydrogen-rich fuel purification and decarburization”, Journal of the Energy Institute, 111 (2023), 101358  crossref
  10. Aihong Zou, Yupei Zeng, Ercang Luo, “New generation hydrogen liquefaction technology by transonic two-phase expander”, Energy, 272 (2023), 127150  crossref
  11. Jianan Chen, Anna Li, Zhu Huang, Wenming Jiang, Guang Xi, “Numerical study on CO2 non-equilibrium condensation considering shock waves for the potential of flue gas decarbonization”, International Communications in Heat and Mass Transfer, 144 (2023), 106749  crossref
  12. Jianan Chen, Anna Li, Zhu Huang, Wenming Jiang, Guang Xi, “Effect of shock wave on nucleation and droplet growth of CO2 in flue gas in supersonic separators”, Gas Science and Engineering, 113 (2023), 204975  crossref
  13. Yong Zheng, Lei Zhao, Yujiang Wang, Feng Chang, Weijia Dong, Xinying Liu, Yunfei Li, Xiaohan Zhang, Ziyuan Zhao, “Title Supersonic Condensation and Separation Characteristics of CO2-Rich Natural Gas under Different Pressures”, Energy Engineering, 120:2 (2023), 529  crossref
  14. Yupei Zeng, Aihong Zou, Ercang Luo, “Numerical study on two-phase supersonic expansion refrigeration in novel CO2 refrigeration technology”, Applied Thermal Engineering, 230 (2023), 120732  crossref
  15. Chenyu Han, Wenming Jiang, Yang Liu, Zhanzhao Hu, ZhuoYing Dou, “Numerical simulation study on the structure optimization of liquid separation device in supersonic separator”, Separation Science and Technology, 58:4 (2023), 789  crossref
  16. Jianan Chen, Zhu Huang, Wenming Jiang, “Non-equilibrium condensation of carbon dioxide in flue gas with the coexistence of swirl flows and supersonic flows”, International Communications in Heat and Mass Transfer, 138 (2022), 106369  crossref
  17. Jianan Chen, Zhu Huang, “Spontaneous condensation of carbon dioxide in flue gas at supersonic state”, Energy, 254 (2022), 124418  crossref
  18. Pengbo Yin, Tingting Li, Xuewen Cao, Lin Teng, Qigui Li, Jiang Bian, “Condensation properties of water vapor under different back pressures in nozzle”, Case Studies in Thermal Engineering, 31 (2022), 101783  crossref
  19. Jianan Chen, Zhu Huang, Anna Li, Ran Gao, Wenming Jiang, “Carbon capture in laval nozzles with different bicubic parametric curves and translation of witoszynski curves”, Energy, 260 (2022), 125144  crossref
  20. Shoghl S.N. Naderifar A. Farhadi F. Pazuki G., “A Novel Strategy For Comprehensive Optimization of Structural and Operational Parameters in a Supersonic Separator Using Computational Fluid Dynamics Modeling”, Sci Rep, 11:1 (2021), 21850  crossref  isi  scopus
  21. Jia-nan Chen, Wen-ming Jiang, Xing-yu Lai, Jiang Bian, Xue-wen Cao, Proceedings of the International Petroleum and Petrochemical Technology Conference 2020, 2021, 222  crossref
  22. Ghorbanian K. AminiMagham M., “Swirl Intensity as a Control Mechanism For Methane Purification in Supersonic Gas Separators”, J. Nat. Gas Sci. Eng., 83 (2020), 103572  crossref  isi  scopus
  23. Majidi D., Farhadi F., “Supersonic Separator'S Dehumidification Performance With Specific Structure: Experimental and Numerical Investigation”, Appl. Therm. Eng., 179 (2020), 115551  crossref  isi  scopus
  24. Wang Y. Yu Ya. Hu D., “Experimental Investigation and Numerical Analysis of Separation Performance For Supersonic Separator With Novel Drainage Structure and Reflux Channel”, Appl. Therm. Eng., 176 (2020), 115111  crossref  isi  scopus
  25. Ding H., Sun Ch., Wang Ch., Wen Ch., Tian Yu., “Prediction of Dehydration Performance of Supersonic Separator Based on a Multi-Fluid Model With Heterogeneous Condensation”, Appl. Therm. Eng., 171 (2020), 115074  crossref  isi  scopus
  26. Chen J. Jiang W. Lai X. Cao X. Bian J. Bi Zh., “Study on the Influence of Wall-Mounted Cyclone on the Purification and Separation Performance of Supersonic Separator”, Chem. Eng. Process., 150 (2020), 107898  crossref  isi  scopus
  27. Bian J. Cao X. Yang W. Gao S. Xiang Ch., “a New Liquefaction Method For Natural Gas By Utilizing Cold Energy and Separating Power of Swirl Nozzle”, AICHE J., 66:2 (2020), e16811  crossref  isi  scopus
  28. Duan Zh., Ma Zh., Guo Y., Zhang J., Sun Sh., Liang L., “Study on Supersonic Dehydration Efficiency of High Pressure Natural Gas”, Sustainability, 12:2 (2020), 488  crossref  isi  scopus
  29. Wang Y., “Analysis For Spiral Vortex and Effect of Profile of Nozzle and Swirler on Performance of Supersonic Separator”, Chem. Eng. Process., 147 (2020), 107676  crossref  isi  scopus
  30. Jiang Bian, Xuewen Cao, Yang Liu, Yuan Sun, Qi Chu, Springer Series in Geomechanics and Geoengineering, Proceedings of the International Field Exploration and Development Conference 2018, 2020, 1841  crossref
  31. Cao X. Bian J., “Supersonic Separation Technology For Natural Gas Processing: a Review”, Chem. Eng. Process., 136 (2019), 138–151  crossref  isi  scopus
  32. Popkova O.S., Wu Linh Nguyen, Dmitrieva O.S., Madyshev I.N., Nikolaev A.N., Xii International Scientific and Technical Conference Applied Mechanics and Systems Dynamics, Journal of Physics Conference Series, 1210, IOP Publishing Ltd, 2019  crossref  isi  scopus
  33. Huirong Liang, Shuai Zhang, Yong Kang, Kegang Ling, International Petroleum Technology Conference, 2019  crossref
  34. Bian J. Cao X. Yang W. Du H. Yin P., “Effects of External Particles on the Liquefaction Property of Natural Gas in a Laval Nozzle”, Powder Technol., 339 (2018), 894–902  crossref  isi  scopus
  35. Bian J. Cao X. Yang W. Edem M.A. Yin P. Jiang W., “Supersonic Liquefaction Properties of Natural Gas in the Laval Nozzle”, Energy, 159 (2018), 706–715  crossref  isi  scopus
  36. Shooshtari S.H.R. Shahsavand A., “Optimal Operation of Refrigeration Oriented Supersonic Separators For Natural Gas Dehydration Via Heterogeneous Condensation”, Appl. Therm. Eng., 139 (2018), 76–86  crossref  isi  scopus
  37. Jiang W. Bian J. Wu A. Gao S. Yin P. Hou D., “Investigation of Supersonic Separation Mechanism of Co2 in Natural Gas Applying the Discrete Particle Method”, Chem. Eng. Process., 123 (2018), 272–279  crossref  isi  scopus
  38. Zheng H. Ma Yu. Mei H. Xu X. Chen X. Cao X., “Supersonic Condensation Characteristics of Co2 in Natural Gas Under Different Temperature Conditions”, Front. Heat Mass Transf., 11 (2018), 34  crossref  isi
  39. Liu X. Liu Zh., “Numerical Investigation and Improvement Strategy of Flow Characteristics Inside Supersonic Separator”, Sep. Sci. Technol., 53:6 (2018), 940–952  crossref  isi  scopus
  40. Yang Ya. Wen Ch., “Cfd Modeling of Particle Behavior in Supersonic Flows With Strong Swirls For Gas Separation”, Sep. Purif. Technol., 174 (2017), 22–28  crossref  isi  scopus
  41. Yang Ya. Li A. Wen Ch., “Optimization of Static Vanes in a Supersonic Separator For Gas Purification”, Fuel Process. Technol., 156 (2017), 265–270  crossref  isi  scopus
  42. Chuang Wen, Yan Yang, Jens Honore Walther, Kar Mun Pang, Yuqing Feng, “Effect of delta wing on the particle flow in a novel gas supersonic separator”, Powder Technology, 304 (2016), 261  crossref
  43. Marcelo Castier, “Effect of side streams on supersonic gas separations”, Journal of Natural Gas Science and Engineering, 35 (2016), 299  crossref
  44. Chuang Wen, Anqi Li, Jens Honore Walther, Yan Yang, “Effect of swirling device on flow behavior in a supersonic separator for natural gas dehydration”, Separation and Purification Technology, 168 (2016), 68  crossref
  45. Jiang Bian, Wenming Jiang, Lin Teng, Yang Liu, Shaowei Wang, Zhanfei Deng, “Structure improvements and numerical simulation of supersonic separators”, Chemical Engineering and Processing: Process Intensification, 110 (2016), 214  crossref
  46. Haghighi M., Hawboldt K.A., Abdi M.A., “Supersonic Gas Separators: Review of Latest Developments”, J. Nat. Gas Sci. Eng., 27:1 (2015), 109–121  crossref  isi
  47. Cao X., Yang W., “the Dehydration Performance Evaluation of a New Supersonic Swirling Separator”, J. Nat. Gas Sci. Eng., 27:3 (2015), 1667–1676  crossref  isi
  48. Wen Ch., Cao X., Yang Ya., Feng Yu., “Prediction of Mass Flow Rate in Supersonic Natural Gas Processing”, Oil Gas Sci. Technol., 70:6 (2015), 1101–1109  crossref  isi
  49. Cao X., Yang W., “Numerical Simulation of Binary-Gas Condensation Characteristics in Supersonic Nozzles”, J. Nat. Gas Sci. Eng., 25 (2015), 197–206  crossref  isi  elib
  50. Xingwei Liu, Zhongliang Liu, Yanxia Li, “Numerical Study of the High Speed Compressible Flow with Non-Equilibrium Condensation in a Supersonic Separator”, JOCET, 3:5 (2015), 360  crossref
  51. Liu X., Liu Zh., Li Ya., “Investigation on Separation Efficiency in Supersonic Separator With Gas-Droplet Flow Based on Dpm Approach”, Sep. Sci. Technol., 49:17 (2014), 2603–2612  crossref  isi  elib
  52. Yang Ya., Wen Ch., Wang Sh., Feng Yu., “Numerical Simulation of Real Gas Flows in Natural Gas Supersonic Separation Processing”, J. Nat. Gas Sci. Eng., 21 (2014), 829–836  crossref  isi  elib
  53. Yang Ya., Wen Ch., Wang Sh., Feng Yu., “Theoretical and Numerical Analysis on Pressure Recovery of Supersonic Separators For Natural Gas Dehydration”, Appl. Energy, 132 (2014), 248–253  crossref  isi  elib
  54. Yang Ya., Wen Ch., Wang Sh., Feng Yu., “Effect of Inlet and Outlet Flow Conditions on Natural Gas Parameters in Supersonic Separation Process”, PLoS One, 9:10 (2014), e110313  crossref  isi
  55. Shooshtari Seyed Heydar Rajaee, Shahsavand A., “Predictions of Wet Natural Gases Condensation Rates Via Multi-Component and Multi-Phase Simulation of Supersonic Separators”, Korean J. Chem. Eng., 31:10 (2014), 1845–1858  crossref  isi  elib
  56. Castier M., “Modeling and Simulation of Supersonic Gas Separations”, J. Nat. Gas Sci. Eng., 18 (2014), 304–311  crossref  isi  elib
  57. Yang Ya., Wen Ch., Wang Sh., Feng Yu., Witt P., “the Swirling Flow Structure in Supersonic Separators For Natural Gas Dehydration”, RSC Adv., 4:95 (2014), 52967–52972  crossref  isi  elib
  58. Li K., Eriqitai, Yan Ch., Ji W., Su P., “Research on the Optimization Design of Supersonic Swirling Separator”, Advances in Computational Modeling and Simulation, Pts 1 and 2, Applied Mechanics and Materials, 444-445, eds. Ran G., Yun Z., Jianming Z., Yang Y., Ze L., Tao G., Trans Tech Publications Ltd, 2014, 332–337  crossref  isi
  59. Shooshtari S.H.R., Shahsavand A., “Reliable Prediction of Condensation Rates for Purification of Natural Gas via Supersonic Separators”, Sep. Purif. Technol., 116 (2013), 458–470  crossref  isi
  60. Vaziri B.M., Shahsavand A., “Analysis of Supersonic Separators Geometry Using Generalized Radial Basis Function (Grbf) Artificial Neural Networks”, J. Nat. Gas Sci. Eng., 13 (2013), 30–41  crossref  isi
  61. Ke Xin Li, Qi Tai Eri, Chen Yang Yan, Wei An Ji, Pei Ran Su, “Research on the Optimization Design of Supersonic Swirling Separator”, AMM, 444-445 (2013), 332  crossref
  62. Wen Ch., Cao X., Yang Ya., Li W., “Numerical Simulation of Natural Gas Flows in Diffusers for Supersonic Separators”, Energy, 37:1 (2012), 195–200  crossref  isi  elib
  63. Wen Ch., Cao X., Yang Ya., Zhang J., “Swirling Effects on the Performance of Supersonic Separators for Natural Gas Separation”, Chem. Eng. Technol., 34:9 (2011), 1575–1580  crossref  isi  elib
  64. Cao X., Wen Ch., Yang Ya., “Numerical Simulation of Flow Field in Gas/Liquid Separators with Supersonic Wings”, 2011 International Conference on Energy and Environmental Science-Icees 2011, Energy Procedia, 11, ed. Zhou X., Elsevier Science BV, 2011  crossref  isi
  65. “Volume Removed - Publisher's Disclaimer”, Energy Procedia, 11 (2011), 1  crossref


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