Numerical investigation of the velocity field and separation efficiency of deoiling hydrocyclones 被引量：4

Numerical investigation of the velocity field and separation efficiency of deoiling hydrocyclones

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摘要 Three-dimensional simulation of a multiphase flow is performed using the EulerianEulerian finite volume method in order to evaluate the separation efficiency and velocity field of deoiling hydrocyclones.The solution is developed using a mass conservation-based algorithm（MCBA） with collocated grid arrangement.The mixture approach of the Reynolds stress model is also employed in order to capture features of turbulent multiphase swirling flow.The velocity field and separation efficiency of two different configurations of deoiling hydrocyclones are compared with available experimental data.The comparison shows that the separation efficiency can be predicted with high accuracy using computational fluid dynamics.The velocity fields are also in good agreement with available experimental velocity measurements.Special attention is drawn to swirl intensity in deoiling hydrocyclones and it is shown that the differences in velocity and volume fraction fields of different configurations are related to swirl distribution. Three-dimensional simulation of a multiphase flow is performed using the EulerianEulerian finite volume method in order to evaluate the separation efficiency and velocity field of deoiling hydrocyclones.The solution is developed using a mass conservation-based algorithm（MCBA） with collocated grid arrangement.The mixture approach of the Reynolds stress model is also employed in order to capture features of turbulent multiphase swirling flow.The velocity field and separation efficiency of two different configurations of deoiling hydrocyclones are compared with available experimental data.The comparison shows that the separation efficiency can be predicted with high accuracy using computational fluid dynamics.The velocity fields are also in good agreement with available experimental velocity measurements.Special attention is drawn to swirl intensity in deoiling hydrocyclones and it is shown that the differences in velocity and volume fraction fields of different configurations are related to swirl distribution.

作者 MADDAHIAN Reza ASADI Mohammad FARHANIEH Bijan

机构地区 Center of Excellence in Energy Conversion

出处《Petroleum Science》 SCIE CAS CSCD 2012年第4期511-520,共10页 石油科学（英文版）

关键词 Deoiling hydrocyclone numerical simulation Eulerian-Eulerian approach swirl intensity Deoiling hydrocyclone numerical simulation Eulerian-Eulerian approach swirl intensity

分类号 TE626.88 [石油与天然气工程—油气加工工程]

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参考文献46

1Bai Z, Wang H and Tu S. Experimental study of flow patterns in deoiling hydrocyclone. Miner. Eng. 2009.22(4): 319-323.
2Belaidi A and Thew M T. The effect of oil and gas content on the controllability and separation in a de-oiling hydrocyclone. Chem. Eng. Res. Des. 2003.81(3): 305-314.
3Caldentey J C. A Mechanistic Model for Liquid Hydrocyclones (LHC). MS Thesis. The University of Tulsa. 2000.
4Carver M B. A method of limiting intermediate values of volume fraction in iterative two-fluid computations. J. Mech. Eng. Sci. 1982. 24:221-224.
5Choi M S. Hydrocyclone produced water treatment for offshore developments. Paper SPE 20662 presented at 65th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers, 1990, New Orleans.
6Colman D. The Hydrocyclone for Separating Light Dispersions. Ph.D. Thesis. Southampton University, UK. 1981.
7Colman D and Thew M. Hydrocyclone to give a highly concentrated sample of a lighter dispersed phase. Presented at International Conference on Hydrocyclones, 1980, BHRA, Cambridge, United Kingdom 15:209-223.
8Colman D and Thew M. Correlation of separation results from light dispersion hydrocyelones. Chem. Eng. Res. Des. 1983.61:233-240.
9Colman D and Thew M. Cyclone Separator. U.S. Patent: 4764287. 1988.
10Colman D, Thew M and Corney D. Hydrocyclones for oil/water separation. Presented at Intemational Conference on Hydrocyclones, 1980, BHRA, Cambridge, United Kingdom, 11:143-165.

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2王永虎,黄建龙,王玉娟.螺旋输送器的结构建模与数值模拟分析[J].兰州理工大学学报,2005,31(5):39-42. 被引量：1
3赵立新,蒋明虎,孙德智,Belaidi A,Thew M.脉动流参数对旋流器分离性能的影响[J].化工机械,2006,33(1):6-10. 被引量：4
4Ren Liancheng,Liang Zheng,Zhong Gongxiang,Wu Shihui.A Comparative Study of the Flow Field of High Viscosity Media in Conventional/Rotary Hydrocyclones[J].Petroleum Science,2007,4(1):81-85. 被引量：2
5SELEZNEV Vadim.Numerical simulation of a gas pipeline network using computational fluid dynamics simulators[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2007,8(5):755-765. 被引量：9
6张逢玉,姜安玺,吕阳.油田采出水处理技术与发展趋势研究[J].环境科学与管理,2007,32(10):65-68. 被引量：31
7WANG Li-yang ZHENG Zhi-chu WU Ying-xiang GUO Jun ZHANG Jun TANG Chi.NUMERICAL AND EXPERIMENTAL STUDY ON LIQUID-SOLID FLOW IN A HYDROCYCLONE[J].Journal of Hydrodynamics,2009,21(3):408-414. 被引量：24
8郑胜飞,任欣,谢林君.卧螺离心机流场的三维数值模拟[J].轻工机械,2009,27(6):26-29. 被引量：15
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2张炯,张军红,王佩玲.Dy-黄长石固溶体的氧化行为研究[J].无机材料学报,1999,14(3):449-455. 被引量：1
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Numerical investigation of the velocity field and separation efficiency of deoiling hydrocyclones 被引量：4

参考文献46

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