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- Title
基于核磁共振技术储层物性变化规律.
- Authors
崔传智; 伊吉庆; 宗然; 李国强; 赵景铭; 蒋明洁; 马晓丽
- Abstract
After years of water injection development, the Jidong Oilfield has entered a stage of ultra-high water content, with problems such as increased water injection pressure and poor development effectiveness. In response to this issue, The target rock core to analyze the content and particle size distribution of clay minerals, and combines two-dimensional nuclear magnetic resonance technology were used to conduct high magnification water washing experiments to study the changes in reservoir physical properties and their causes. The experimental results show that core 8-2 and core 16-1 are defined as medium sandy fine sandstone and medium sandy fine sandstone with silt, respectively, with clay mineral content of 2. 41% and 2. 57% . As the water injection ratio increases, the nuclear magnetic porosity exhibits a pattern of first decreasing and then increasing; With the increase of water injection ratio, the permeability (water) fluctuates, with a large decrease in the early stage and a brief increase in the later stage before continuing to decrease. The damage during the water injection process mainly occurs in medium and large pores, and the degree of damage to core 8-2 is greater than that to core 16-1. The signal variation pattern of free water in the 2D nuclear magnetic spectrum of rock core is consistent with the signal intensity variation pattern of medium and large pores in the T2 nuclear magnetic spectrum. Research suggests that during the water injection process, particles and clay minerals in the cement are easily washed away and transported to the pore throat, causing blockage and causing certain damage to the pore throat, leading to a decrease in permeability (water) . Therefore, water injection wells face difficulties in water injection and an increase in water injection pressure, which affects the development effect of the oilfield.
- Publication
Science Technology & Engineering, 2024, Vol 24, Issue 14, p5790
- ISSN
1671-1815
- Publication type
Article
- DOI
10.12404/j.issn.1671-1815.2304435