收稿日期: 2014-11-30
修回日期: 2015-05-11
网络出版日期: 2015-10-10
基金资助
国家科技重大专项大型油气田及煤层气开发(编号:2011ZX05044);西北大学研究生创新人才培养项目“致密砂岩气藏微观孔隙结构与渗流机理研究”(编号:YZZ14023)联合资助.
Water Lock Effect Mechanism of Tight Sandstone Gas Reservoir: An Example of the He 8 Reservoir of the Upper Paleozoic in the Southeast Region of Sulige Gasfield
Received date: 2014-11-30
Revised date: 2015-05-11
Online published: 2015-10-10
水锁效应是影响气井生产开采的重要因素,在低渗透、特低渗透的致密砂岩气藏中,由于孔喉细小,水锁效应影响更加显著。根据致密砂岩气藏储层岩石中液相流体的开采前后受力特征;探讨了致密砂岩气藏生产过程中水锁效应的发生机理。利用高压压汞、气水相渗等实验分析资料,分析了压力与含水饱和度以及气相相对渗透率的关系;结果表明:压力与含水饱和度呈良好的指数关系,而压力与气相相对渗透率呈明显对数关系。随着生产压差的增大,会导致含水饱和度的升高,而含水饱和度的升高使得气相渗流能力降低,最终造成了水锁伤害程度的加重。合理的控制生产压差对于减轻气井生产过程中水锁效应,延缓气井见水有着重要意义。
盛军,孙卫,段宝虹,刘艳妮,张弢,曹雷 . 致密砂岩气藏水锁效应机理探析——以苏里格气田东南区上古生界盒8段储层为例[J]. 天然气地球科学, 2015 , 26(10) : 1972 -1978 . DOI: 10.11764/j.issn.1672-1926.2015.10.1972
Water lock effect is an important factor affecting the production of gas well mining.In the tight sandstone gas reservoirs with low and ultra-low permeability,due to small pore and throat,effect of water lock is more obvious than that in other gas reservoirs.This paper has discussed the mechanism of the water lock effect in tight sandstone gas reservoir during the process of production by analyzing the stress characteristics of liquid phase in reservoir sandstone before and after development.Ascertained the relationships between pressure and water saturation,pressure and gas phase relative permeability by the analytical data of high pressure mercury and gas water relative permeability experiments.The results showed that,the pressure has good exponential relationship with water saturation,while the pressure and the relative permeability of the gas phase showed a significant logarithmic relationship.With the increase of production pressure difference,it will lead to the increase of water saturation.The increased water saturation will result in decrease of the gas phase percolation capacity.The result aggravated the water locking damage degree ultimately.Reasonable production pressure has great significance for reducing the water lock effect of gas well and delaying the water breakthrough time.
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