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多孔介质不溶混流体毛细压力与饱和度关系实验研究 被引量:7

Experimental study of capillary pressure-saturation relationships for immiscible liquids in porous media
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摘要 采用根据张力计原理设计的简易装置实验测定多孔介质湿润相被单调驱替过程中湿润相饱和度与毛细压力的关系曲线,研究不同两相系统(水-气、水-油、油-气)中该关系的特点和联系。实验结果采用Van公式进行拟合,结果表明实测曲线和拟合曲线吻合很好。为了寻找预测任意两相系统湿润相饱和度与毛细压力关系的简单途径,在Parker等提出的折算理论基础上,采用两种方法处理实验数据、拟合参数,将折算系数应用于实测数据,结果表明通过引入折算系数,一组两相系统中湿润相有效饱和度与折算毛细压力的关系可用于其它两相。 In the monotonous displacement experiments of two-phase system ( air-water, oil-water and air-oil), functional relationships between saturation of wetting phase and capillary head, as well as the connection of these functional relationships among various two-phase systems were measured and studied. The experimental apparatus was designed according to tension plate method and proved to be successful to this end. Van Genuchten retention function was used to describe the saturation-capillary pressure measured, and the results showed excellent agreement between experimental curves and prediction curves. To search a simple and feasible approach for predicting saturation-capillary pressure relations in all two-phase systems, on the basis of S-P scaling theory proposed by Parker et al. , the scaling coefficients was applied to the experimental data and two methods were used to calculate scaling coefficients and parameters. The scaling results indicate that, by scaling coefficients the description of two-phase effective saturation-scaled capillary head relations for arbitrary fluid pairs could be approximately simplified by the same curve.
作者 郑冰 陈家军 尉斌 支银芳
机构地区 北京师范大学环境学院环境模拟与污染控制重点联合实验室
出处 《水动力学研究与进展(A辑)》 CSCD 北大核心 2005年第5期665-672,共8页 Chinese Journal of Hydrodynamics
基金 国家自然科学基金资助项目(40272107)
关键词 不溶混流体 两相 毛细压力 饱和度 immiscible liquids two phase capillary pressure saturation water oil air
分类号 O359.2 [理学—流体力学]
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参考文献11

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共引文献22

同被引文献50

  • 1支银芳,陈家军,尉斌,杨官光.多孔介质中毛细压力、饱和度和相对渗透率的确定方法[J].地质灾害与环境保护,2005,16(4):410-414. 被引量:4
  • 2李永涛,王文科,梁煦枫,王小丹,王丽.砂性漏斗法测定土壤水分特征曲线[J].地下水,2006,28(5):53-54. 被引量:15
  • 3支银芳,陈家军,杨周喜,郑冰,杨官光.多孔介质两相系统毛细压力与饱和度关系试验研究[J].水科学进展,2007,18(2):151-157. 被引量:10
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  • 10Lenhard R J, Parker J C, Kaluarachchi J J. 1991. Comparing simulated and experimental hysteretic two-phase transient fluid flow phenomena [J]. Water Resources Research, 27(8): 2113-2124.

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水动力学研究与进展(A辑)
2005年 第5期

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