油气藏评价与开发 ›› 2022, Vol. 12 ›› Issue (5): 764-776.doi: 10.13809/j.cnki.cn32-1825/te.2022.05.008
孔维军1(),崔传智2(),吴忠维2,李立峰1,苏书震1,张建宁1
收稿日期:
2021-12-15
发布日期:
2022-09-27
出版日期:
2022-10-26
通讯作者:
崔传智
E-mail:kongwj.jsyt@sinopec.com;ccz2008@126.com
作者简介:
孔维军(1974—),男,本科,高级工程师,从事油气田开发研究和生产管理等工作。地址:江苏省扬州市江都区真武镇采油一厂,邮政编码:225265。E-mail: 基金资助:
KONG Weijun1(),CUI Chuanzhi2(),WU Zhongwei2,LI Lifeng1,SU Shuzhen1,ZHANG Jianning1
Received:
2021-12-15
Online:
2022-09-27
Published:
2022-10-26
Contact:
CUI Chuanzhi
E-mail:kongwj.jsyt@sinopec.com;ccz2008@126.com
摘要:
目前,前缘运移及气窜规律研究较少通过室内实验手段、从CO2波及角度去探索前缘运移与气窜规律,运用可视化仿真物理模拟装置开展平板岩心CO2非混相驱物理模拟实验,分析原油黏度、储层渗透率、储层非均质性及注入速度等因素对CO2驱前缘运移及气窜规律的影响。研究发现,在注入井定流量注入,生产井定压生产的条件下,原油黏度降低、渗透率降低、储层均质、注入速度变大,可增加CO2非混相驱油采出程度;同时,原油黏度降低、渗透率越低、注入速度增加,也导致油井见气后继续扩大波及的能力增强,即能够缓解气窜。研究结果表明:在注入井定流量注入、生产井定压生产情况下,高注入速度开发能够缓解气窜,并获得较好的开发效果;当注入速度从0.1 mL/min增至2.0 mL/min时,采出程度从15.4 %增至35.3 %,波及系数差从8.3 %增至26.2 %。该研究对CO2非混相驱气窜抑制及提高采收率具有重要意义。
中图分类号:
Weijun KONG,Chuanzhi CUI,Zhongwei WU, et al. Laboratory experiment of front migration and gas channeling of CO2 immiscible flooding[J]. Petroleum Reservoir Evaluation and Development, 2022, 12(5): 764-776.
表1
实验方案设计"
组次 | 影响因素 | 参数设计 | 常规参数 | 注采井网 |
---|---|---|---|---|
1 | 原油黏度 | 2 mPa·s | 驱替速度0.5 mL/min | 一注一采 |
2 | 10 mPa·s | |||
3 | 15 mPa·s | |||
4 | 20 mPa·s | |||
5 | 储层渗透率 | 低渗透率(200×10-3 μm2) | 原油黏度10 mPa·s; 驱替速度0.5 mL/min | 一注一采 |
6 | 中低渗透率(500×10-3 μm2) | |||
7 | 中高渗透率(750×10-3 μm2) | |||
8 | 高渗透率(1 000×10-3 μm2) | |||
9 | 非均质性 | 均质(级差为1) | 原油黏度10 mPa·s; 驱替速度0.5 mL/min | 一注两采 |
10 | 低级差(级差为1.25) | |||
11 | 中级差(级差为1.7) | |||
12 | 高级差(级差为2.5) | |||
13 | 注入速度 | 0.1 mL/min | 原油黏度10 mPa·s | 一注一采 |
14 | 0.5 mL/min | |||
15 | 1.0 mL/min | |||
16 | 2.0 mL/min |
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