- 作者:Mohsen Rezaveisia ; 1 ; Shahab Ayatollahib ; 2 ; shahab@shirazu.ac.ir ; ; Behzad Rostamic
- 关键词:Fractured media ; Capillary imbibition ; Wettability ; Bond number
- 刊名:Journal of Petroleum Science and Engineering
- 出版年:2012
- 期刊代码:33_09204105
- 类别:pw
- 出版时间:May, 2012
- 卷:86-87
- 期:Complete
- 页码:165-171
- 文件大小:757 K
A novel experimental model was utilized to study the imbibition mechanism under different wettability conditions. Matrix blocks made from different grain types and size distributions of glass beads were saturated with two different types of synthetic oil, to mimic the oil-saturated matrixes. The wetting characteristic of the models used in this study were altered by a standard chemical treatment process. Wettability, grain type and size distribution, as well as oleic phase properties, were changed to find the effect of these parameters on oil recovery efficiency.
The results revealed that presence of a small fraction of oil-wet grains drastically affects oil recovery by capillary imbibition. A criterion was obtained to describe the effects of wetting property of the matrix blocks on oil recovery efficiency by capillary imbibition. The effect of gravity force, resulting from the density difference between oil in the matrix block and the water in the fracture, was also analyzed using inverse Bond number (NB鈭?#xA0;1). Application of this dimensionless number was found to be limited by the height of the porous medium. The results also confirm that oil production rate during imbibitions is greatly influenced by oil viscosity.