期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

水平管道油-气-水三相段塞流动持液率模型研究 被引量:2

Oil-gas-water three-phase slug flow liquid holdup model
下载PDF
导出
摘要 油-气-水三相段塞流型持液率预测往往先将油水两相看作混合均匀的单相,再利用气液两相方法进行计算。这种方法适用于油水混合均匀的段塞流型。但在低气液相流速下,油-气-水三相段塞流型中有时油水是分离的,此时如果使用上述方法,可能导致比较大的误差。研究建立了分离/段塞流型(油基和水基)的平均持液率计算新模型。统计分析发现新建模型与实验数据吻合很好。在实验的基础上,将油-气-水三相段塞流型划分为油基/分离/段塞流、油基/分散/段塞流、水基/分离/段塞流、水基/分散/段塞流四种。研究四种流型表明,在其他条件不变的情况下,对于气液两相流动和分散/段塞流型,持液率随着液相折算速度或液相黏度的增加而增加,随着气相折算速度的增加而减少。但对油基/分离/段塞流和水基/分离/段塞流,持液率则随着气相折算速度的增加,先上升后下降。 Previous works usually used two-phase methods by considering oil and water phase as a homogenous mixture. In fact, sometimes oil and water are separated, so great errors will occur if using above method. A new holdup model of oilbased and water-based separated slug has been developed. Based on statistical analysis, the results were given by the new model agree well with the experimental data. According to experiments and relational documents, slug regime in oil-gas-water can be divided into oil-based separated slug, oil-based dispersed slug, water-based separated and water-based dispersed slug. Generally, liquid holdups increase with increasing of liquid converter velocity or liquid viscosity and decrease with increasing of gas converter velocity when other parameters will not change. But there are some differences between oil-based separated slug flow and water-based separated slug flow when velocity difference between oil film and water film, which will effect on liquid holdup greatly.
作者 赵京梅 于达 宫敬
机构地区 中国石油大学(北京)石油天然气工程学院教育部石油工程重点实验室
出处 《水动力学研究与进展(A辑)》 CSCD 北大核心 2006年第6期706-713,共8页 Chinese Journal of Hydrodynamics
关键词 油-气-水 三相流动 持液率 段塞流型 oil-gas-water three-phase slug flow liquid holdup
分类号 O359 [理学—流体力学]
  • 相关文献

参考文献18

  • 1TAITEL Y,BARNEA D.A consistent approach for calculating pressure drop in inclined slug flow[J].Chemical Engineering Science,1990,45 (5):1199-1206.
  • 2HALL A R W.Flow patterns in three-phase flows of oil,water and gas[C].8th bhr group 1td et al Multiphase 97 Int Conf,1997.241-256.
  • 3吴浩江,李斌,周芳德.水平管内油-气-水三相流流型的实验研究[J].油气储运,1999,18(7):30-34. 被引量:13
  • 4WONG W L,HALE C P,HEWITT G F.Three-phase gas-liquid-liquid flow studies in the WASP facility at Imperial College[C].UK-Japan Seminar on Multiphase Flow,2003.1-22.
  • 5NADLER M,MEWES D.Effects of the liquid viscosity on the phase distributions in horizontal gas-liquid slug flow[J].Int.J.Multiphase Flow,1995,21(2):253-266.
  • 6ODDIEA G,SHI H B,DURLOFSKY L J,et al.Experimental study of two and three phase flows in large diameter inclined pipes[J].International Journal of Multiphase Flow,2003,29:527-558.
  • 7BONIZZI M,ISSA R I.On the simulation of threephase slug flow in nearly horizontal pipes using the multi-fluid model[J].International Journal of Multiphase Flow,2003,29:1719-1747.
  • 8于立军,蒋安众,虞亚辉,胡天本.水平管内油气水三相流动特性研究[J].上海交通大学学报,2000,34(9):1171-1174. 被引量:8
  • 9胡志华,钱焕群,鹿院卫,周芳德.水平管内油-气-水三相流流型的研究[J].西安交通大学学报,2001,35(9):899-902. 被引量:7
  • 10HEWITT G F,PAN,KHOR S H.Three-phase Gasliquid-liquid flow:flow patterns,holdups and pressure drop[C].Proceedings of the International Symposium on Multiphase Flow,ISMF,1997.1-18.

二级参考文献28

  • 1郭烈锦,李广军,陈学俊.卧式螺旋管内油-气-水三相流流型的实验研究[J].西安交通大学学报,1997,31(4):54-60. 被引量:6
  • 2于立军.水平管内油气水三相流流动特性研究[M].西安:西安交通大学多相流国家重点实验室,1997..
  • 3陈宣政.垂直上升管内油气水三相流动特性研究[M].西安:西安交通大学工程热物理研究所,1991..
  • 4陈宣政.垂直上升管内油气水三相流流动特性的研究,西安交通大学博士学位论文[M].-,1992..
  • 5王跃社.垂直及倾斜上升管内油气水三相弹状流流动特性的研究,西安交通大学博士学位论文[M].-,1998..
  • 6陈宣政.垂直上升管内油气水三相特性的研究[M].西安:西安交通大学能源与动力工程学院,1992..
  • 7王昱.水平及倾斜管内油气两相流流型转化的研究[M].西安:西安交通大学能源与动力工程学院,1994..
  • 8LIN P Y and HANRATTY T J. Prediction of the initiation of slugs with linear stability theory [ J ]. Int. J.Multiphase Flow, 1986, 12: 79-98.
  • 9WU H L, POTS B F M, HOLLENBURG J F and MEERHOFF R. Flow pattern transitions in two-phase gas/condensate flow at high pressure in an 8-inch horizontal pipe[A]. Proe. BHRA Conf[-C]. The Hargue.The Netherlands: 1987. 13-21.
  • 10ANDRITSOS N, WALLIAMS L and HANRATTY TJ. Effect of liquid viscosity on the stratified-slug transition in horizontal pipe flow [J]. Int. J. MultiphaseFlow, 1989, 15(6) : 877-892.

共引文献35

同被引文献8

引证文献2

二级引证文献9

水动力学研究与进展(A辑)
2006年 第6期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部