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油水混合物在水平管中的二相流动特性研究 被引量:1

Characteristics of oil/water two-phase flow in horizontal pipelines
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摘要 对内径40mm的钢管和有机玻璃管内油水二相水平流动时的流型、摩擦压降特性进行了详细的实验研究,结果表明:油包水向水包油的转变发生在含水体积分数约0. 4时。随含水体积分数的增大,油水二相流的摩擦压降先是急剧减小,其后在含水体积分数大于0. 4时压降变化趋于平缓。油水二相流的摩擦压降受含水体积分数、管壁润湿特性、管壁粗糙度以及混合物流速的影响,当二相流体处于水包油状态时,钢管内的摩擦压降比有机玻璃管内的大;而当处于油包水时,有机玻璃管内的摩擦压降则比钢管内的摩擦压降大。 The flow patterns and frictional pressure drops of oil-water two-phase flow in horizontal steel and Plexiglas pipes of 40 mm I.D. were experimentally studied. The investigation shows that the phase inversion from water-in-oil (W/O) to oil-in-water (O/W) dispersed flow occurs about at the water cut of 0.4. With the increase of water cut, the frictional pressure drop decreases rapidly, once above 0.4, the pressure drop changes slowly. The (frictional) pressure drop of oil/water two-phase flow is affected by water cut, wettability of fluid to pipe wall, pipe (roughness) and flow rates. When in the state of O/W, the frictional pressure drop of oil-water flow in steel pipe is greater than that in Plexiglas pipe, while in W/O, the frictional pressure drop in Plexiglas pipe is greater. Therefore, when applying the experimental data and results tested in Plexiglas pipe in laboratory to the actual engineering pipelines, the effects of wettability of oil to pipe wall must be taken into consideration, specially at the state of W/O and low mixture flow rate.
作者 王树众 牛冬梅 林宗虎 昝元峰
机构地区 西安交通大学动力工程多相流国家重点实验室
出处 《化学工程》 EI CAS CSCD 北大核心 2005年第2期26-29,共4页 Chemical Engineering(China)
基金 国家自然科学基金(59995460)
关键词 油水二相流 流型 摩擦压降 含水体积分数 oil/water two-phase flow flow pattern frictional pressure drop wettability
分类号 O359 [理学—流体力学]
  • 相关文献

参考文献4

  • 1Angeli P,Hewitt G F. Pressure gradient in horizontalliquid-liquid flows[J]. Int J Multiphase Flow,1998,24: 1183-1203.
  • 2牛冬梅,苏新军,王树众,王栋,林宗虎.水平管内油气水三相流动摩擦压降特性的试验研究[J].油气储运,2002,21(1):28-31. 被引量:4
  • 3Brinkman H C. The viscosity of concentrated suspensions and solutions[J]. J Chem Physics,1952,20:571-581.
  • 4Nadler M,Mewes D. Flow induced emulsification in the flow of two immiscible liquids in horizontal pipes[J].Int J Multiphase flow,1997,23: 55-68.

二级参考文献2

  • 1Acikgoz, M., Franca, F., Lahey, JR R. T.: An experimental study of three-phase flow regimes. Int. J. Multiphase Flow,18,327~336.
  • 2Hewitt, G. F., Par, L. and Khor, S. H.: Three-phase gas-liquid-liquid flow: Flow Patterns, Holdups and pressure drop, Proceedings of ISMF'97, Int. Academic Publishers, (Beijing),1997.

共引文献3

同被引文献17

  • 1常英,许晶禹,吴应湘.水平分支管路中油水两相流动研究[J].水动力学研究与进展(A辑),2008,23(6):702-708. 被引量:3
  • 2窦丹,于达,宫敬.原油/水管流压降规律实验[J].石油化工高等学校学报,2006,19(2):60-63. 被引量:3
  • 3BENSHAKARIA A, PEYSSON Y, ANTONINI G. Experimental study of the pipeline lubrication of heavy oil transport[J]. Oil Gas Science Technology Rev. IFP, 2004, 59(5): 523-533.
  • 4XUJ Y, WU Y X, CHANG Y, et al. Experimental investigation on the holdup distribution of oil-water twophase flow in horizontal parallel tubes[J]. Chemical Engineering and Technology, 2008, 31(10): 1536-1540.
  • 5GHOSH S, MANDAL T K, DAS G, et al. Review of oil water core annular flow[J]. Renewable and Sustainable Energy Reviews, 2009,13(8): 1957-1965.
  • 6OLIEMANS R V A, OOMS G, WU H L, et al. Core annular oil water flow: The turbulent lubricating film model and measurements in a 5 em pipe 100p[J]. InternationalJournal of Multiphase Flow, 1986, 13(1): 23- 31.
  • 7JOSEPH D D, BAI R, CHEN K R, et al. Core annular flows: Annual reviews[J].Journal of Fluid Mechanics, 1997,29: 1-30.
  • 8BAI R, CHEN K,JOSEPH D D. Lubricated pipeline: Stability of core-annular flow: Part 5 Experiments and comparison with theory[J].Journal of Fluid Mechanics, 1992,240: 97-132.
  • 9PARDA VJ W, BANNWART A C. Modeling of vertical core annular flows and application to heavy oil production[J].Journal of Energy Resource Technology, ASME, 2001,123(3): 194-199.
  • 10RODRIGUEZ 0 M H, BANNWART A C. Experimental study on interfacial waves in vertical core flow[J].Journal of Petroleum Science and Engineering, 2006, 54(3- 4): 140-148.

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化学工程
2005年 第2期

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