Water driving physical simulation test of remaining oil based on 3D large-scale heterogeneous reservoir model

XIONG Yu; ZHONG Hao; ZHOU Wensheng; LIU Cheng; GOU Li

English Version Reader LoginJournal Login

您当前的位置：

首页 >

文章列表页 >

Water driving physical simulation test of remaining oil based on 3D large-scale heterogeneous reservoir model

更新时间：2025-12-05

- Water driving physical simulation test of remaining oil based on 3D large-scale heterogeneous reservoir model
- Petroleum Reservoir Evaluation and Development Vol. 9, Issue 6, Pages: 16-23(2019)
- 作者机构：
  
  1. 西南石油大学石油与天然气工程学院,成都,610500
  2. 中海油研究总院,北京,100027
- 作者简介：
- 基金信息：
- DOI：
  CLC： TE32+7
- Published：2019
- 稿件说明：
移动端阅览
XIONG Yu, ZHONG Hao, ZHOU Wensheng, et al. Water driving physical simulation test of remaining oil based on 3D large-scale heterogeneous reservoir model[J]. Petroleum Reservoir Evaluation and Development, 2019, 9(6): 16-23.
DOI：

XIONG Yu, ZHONG Hao, ZHOU Wensheng, et al. Water driving physical simulation test of remaining oil based on 3D large-scale heterogeneous reservoir model[J]. Petroleum Reservoir Evaluation and Development, 2019, 9(6): 16-23. DOI：

摘要

为弄清绥中36-1油田在中高含水期剩余油分布的复杂情况

从高温高压实验上研究复杂非均质储层9点井网流场变化特征

基于新研制的三维大尺度岩心模型制作技术和油水饱和度立体采集系统

设计并开展了9点基础井网及加密后的排状注采井网流场特征研究的物理模拟实验。研究结果表明：对韵律复杂的注采井网来讲

剩余油分布也非常复杂、但存在一定的规律;对单一正韵律条件

即使在实验模型条件下注入水下沉也较为明显

剩余油主要分布在正韵律上部;在反韵律条件下注入水能够均匀波及模型各个渗透率层

剩余油主要集中在水动力弱的区域;在结构复杂的复合韵律情况下

剩余油的分布取决于复合结构中水驱作用弱的低渗透带

并不一定是边角井之间无流线穿过区域。同时

基于上述特征

还发现9点基础井网的水驱动用程度较高、可采出绝大部分可采储量、转为排状注采井网对非均质油藏可提高采收率的幅度为8 %~10 %

实验研究认为这种复杂韵律结构的储层从9点注采井网到排状注采井网加密的最大采收率难以逾越40 %。

Abstract

In order to find out the complex situation of remaining oil distribution at the middle and high water-cut stage of Suizhong 36-1 Oilfield

and by the study of the flow field variation characteristics of nine-point well pattern for complex heterogeneous reservoirs by high temperature and high pressure experiments

the physical simulation experiments for the nine-point well pattern and the characteristics research for flow field of infilled row shape injection-production well pattern were designed and carried out based on the newly developed 3D large-scale core modeling technology and the stereoscopic acquisition system for oil-water saturation. For the injection and production patterns with complex rhythms

the distribution of remaining oil was also very complicated

but there were certain rules: under the condition of single positive rhythm

the subsidence of injected water was obvious even in the experiments

and the remaining oil was mainly distributed in the upper part of the positive rhythm; under the condition of inverse rhythm

the injected water could spread evenly to all permeability layers of the model

and the remaining oil was mainly accumulated in the weak hydrodynamic area; under the condition of complex compound rhythm

the distribution of remaining oil depended on the low permeability zone with weak water flooding in the complex structure

and it was not necessarily the area without streamline between corner wells. At the same time

based on the above characteristics

it was found that the water flooding degree of nine-point well pattern was high

most recoverable reserves could be produced. And when nine-point well pattern transformed into row injection-production well pattern

the recovery rate of heterogeneous reservoir could be improved by about 8 % ~ 10 %. Experimental studies suggest that no matter for the nine point injection production well pattern or the converted row shape injection-production well pattern

the maximum recovery rate of structure reservoirs with complex rhythmic was difficult to exceed 40 %.

关键词

Keywords

references

Views

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

Numerical simulation of flow fields and permeability evolution in real fractures under continuous loading stress

Optimization study on horizontal well acidizing modes and injection parameters in carbonate reservoir

Streamline influencing factor analysis and its application of streamline adjustment in fault block oil reservoir

Related Author

SHI Bowen

CHEN Qiang

TIAN Jian

QIN Chaozhong

WANG Lichun

ZHANG Huaijun

LIANG Yunpei

CHENG Liang

Related Institution

State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University

School of Resources and Safety Engineering, Chongqing University

Institute of Surface-Earth System Science, Tianjin University

Geological Exploration and Development Research Institute of Chuanqing Drilling Engineering Co. Ltd., CNPC

State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Southwest Petroleum University

AI问答

⁰