Lithologic Reservoirs ›› 2011, Vol. 23 ›› Issue (2): 128-132.doi: 10.3969/j.issn.1673-8926.2011.02.025

Previous Articles    

Laboratory study on oil displacement with active water in Longhupao Oilfield

CHE Hongchang1, REN Yaoyu2, LIU Hanping1, LIU Zhao1   

  1. 1. No.9 Oil Production Plant, Daqing Oilfield Company, PetroChina, Daqing 163853, China; 2. Qianda Service Company of Jilin Oilfield Company, PetroChina, Songyuan 131400, Chinaa
  • Online:2011-04-20 Published:2011-04-20

PDF (PC)

391

Abstract:

Aimed at the problems ofwater injection displacement for lowpermeability reservoir in DaqingOilfields, such as high water injection pressure, lowwater injectivity and lowoil recovery, a laboratory experimental study is conducted for displacing crude oil in LonghupaoOilfield by active water flooding. Surfactant screening result shows that the interface tension of active water/crude oil system, where sodiumdodecyl benzene sulfonate (SDBS) is used as surfactant, can reach 2.041×10- 1 mN/m. SDBS has good compatibilities with formation water and the active water flooding can reach an oil recovery increment of 16.6% higher than that ofwater flooding. The result of oil displacement experiment shows that active water injection rate, activ e water concentration and active water injection amount have effects on oil displacement efficiency, of which the optimal values are 1.0 mL/min, 0.3% and 0.3 PV respectively. Active water injection timing also has some influence. Oil production wells with lowwater content should be chosen to carry out active water flooding in situ and active water concentration should be augmented when water content increases.

Key words: ultra-low permeability reservoir, numerical simulation, development adjustment, infill well pattern, Puziwan area

[1] 李道品.低渗透砂岩油田开发[M].北京:石油工业出版社,1997:124-126.
[2] 高建,吕静,王家禄,等.低渗透油藏注水开发存在问题分析[J].内蒙古石油化工,2009,(12):48-50.
[3] 孙庆和,何玺,李长禄.特低渗透储层微裂缝特征及对注水开发效果的影响[J].石油学报,2000,21(4):53-57.
[4] 李善鹏,吴凯,力艳兵,等.特低渗透油藏启动压力现象研究[J].岩性油气藏,2009,21(1):125-127.
[5] 李莉,韩德金,周锡生.大庆外围低渗透油田开发技术研究[J].大庆石油地质与开发,2004,23(5):86-90.
[6] 李书恒,赵继勇,崔攀峰,等.超低渗透储层开发技术对策[J].岩性油气藏,2008,20(3):128-131.
[7] 张宇焜,汪伟英,周江江.注水压力对低渗透储层渗流特征的影响[J].岩性油气藏,2010,22(2):120-127.
[8] 刘瑞果,王为民,苏进昌.歧口18-1 油田晚期注水研究[J].岩性油气藏,2009,21(1):116-119.
[9] 宋立忠,李本才,王芳.松辽盆地南部扶余油层低渗透油藏形成机制[J].岩性油气藏,2007,19(2):57-61.
[10] 杨金华,曹亚,李惠林.高分子表面活性剂与原油形成超低界面张力的研究[J].精细化工,1999,16(2):3-6.
[11] 赵玉建,刘永建,赵法军,等.新肇油田活性水驱油室内实验研究[J].钻采工艺,2008,32(4):111-114.
[1] CUI Chuanzhi, LI Jing, WU Zhongwei. Simulation of microscopic seepage characteristics of CO2 immiscible flooding under the effect of diffusion and adsorption [J]. Lithologic Reservoirs, 2024, 36(6): 181-188.
[2] XIAO Boya. Characteristics and favorable zone distribution of tuff reservoirt of Cretaceous in A’nan sag,Erlian Basin [J]. Lithologic Reservoirs, 2024, 36(6): 135-148.
[3] LIU Renjing, LU Wenming. Mechanism and field practice of enhanced oil recovery by injection-production coupling in fault block reservoirs [J]. Lithologic Reservoirs, 2024, 36(3): 180-188.
[4] BAO Hanyong, LIU Chao, GAN Yuqing, XUE Meng, LIU Shiqiang, ZENG Lianbo, MA Shijie, LUO Liang. Paleotectonic stress field and fracture characteristics of shales of Ordovician Wufeng Formation to Silurian Longmaxi Formation in southern Fuling area,Sichuan Basin [J]. Lithologic Reservoirs, 2024, 36(1): 14-22.
[5] LI Fengfeng, NI Xiaowei, XU Sihui, WEI Xinlu, LIU Diren. Response characteristics and correction of LWD laterolog in anisotropic formations and deviated boreholes [J]. Lithologic Reservoirs, 2023, 35(3): 161-168.
[6] Lü Dongliang, YANG Jian, LIN Liming, ZHANG Kaili, CHEN Yanhu. Characterization model of oil-water relative permeability curves of sandstone reservoir and its application in numerical simulation [J]. Lithologic Reservoirs, 2023, 35(1): 145-159.
[7] ZHANG Wei, LI Lei, QIU Xinwei, GONG Guangchuan, CHENG Linyan, GAO Yifan, YANG Zhipeng, YANG Lei. A/S control on spatiotemporal evolution of deltas in rifted lacustrine basin and its numerical simulation: A case study of Paleogene Wenchang Formation in Lufeng 22 subsag,Pearl River Mouth Basin [J]. Lithologic Reservoirs, 2022, 34(3): 131-141.
[8] DONG Min, GUO Wei, ZHANG Linyan, WU Zhonghai, MA Licheng, DONG Hui, FENG Xingqiang, YANG Yuehui. Characteristics of paleotectonic stress field and fractures of WufengLongmaxi Formation in Luzhou area, southern Sichuan Basin [J]. Lithologic Reservoirs, 2022, 34(1): 43-51.
[9] ZHANG Haoyu, LI Mao, KANG Yongmei, WU Zemin, WANG Guang. Reservoir architecture and fine characterization of remaining oil of Chang 3 reservoir in Zhenbei oilfield,Ordos Basin [J]. Lithologic Reservoirs, 2021, 33(6): 177-188.
[10] ZHU Suyang, LI Dongmei, LI Chuanliang, LI Huihui, LIU Xiongzhi. Re-discussion on principle of constant porosity during primary deformation of rock [J]. Lithologic Reservoirs, 2021, 33(2): 180-188.
[11] LIU Mingming, WANG Quan, MA Shou, TIAN Zhongzheng, CONG Yan. Well placement optimization of coalbed methane based on hybrid particle swarm optimization algorithm [J]. Lithologic Reservoirs, 2020, 32(6): 164-171.
[12] LI Zihan, HE Yufa, ZHANG Binhai, ZHONG Haiquan. Solution and realization of coupled model of temperature and pressure field in deep water gas well testing [J]. Lithologic Reservoirs, 2020, 32(4): 163-171.
[13] DAI Bo, WANG Leifei, ZHUANG Jian, YUAN Weibin, WANG Xuesheng. Experiment of minimum miscible pressure of CO2 flooding in ultra-low permeability reservoir [J]. Lithologic Reservoirs, 2020, 32(2): 129-133.
[14] GUAN Hua, GUO Ping, ZHAO Chunlan, TAN Baoguo, XU Dongmei. Mechanism of nitrogen flooding in Yong 66 block of Yong'an Oilfield,Bohai Bay Basin [J]. Lithologic Reservoirs, 2020, 32(2): 149-160.
[15] LUO Zhifeng, HUANG Jingyun, HE Tianshu, HAN Mingzhe, ZHANG Jintao. Extending regularity of fracture height by acid fracturing in carbonate reservoir: a case study of Qixia Formation in western Sichuan [J]. Lithologic Reservoirs, 2020, 32(2): 169-176.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] WEI Qinlian, ZHENG Rongcai, XIAO Ling,WANG Chengyu, NIU Xiaobing. Influencing factors and characteristics of Chang 6 reservoir in Wuqi area, Ordos Basin[J]. Lithologic Reservoirs, 2007, 19(4): 45 -50 .
[2] WANG Dongqi, YIN Daiyin. Empirical formulas of relative permeability curve of water drive reservoirs[J]. Lithologic Reservoirs, 2017, 29(3): 159 -164 .
[3] LI Yun, SHI Zhiqiang. Study on fluid inclusion of tight sandstone reservoir of Upper Triassic Xujiahe Formation in central Sichuan Basin[J]. Lithologic Reservoirs, 2008, 20(1): 27 -32 .
[4] JIANG Ren, FAN Tailiang, XU Shouli. Concept and techniques of seismic geomorphology[J]. Lithologic Reservoirs, 2008, 20(1): 33 -38 .
[5] ZOU Mingliang, HUANG Sijing, HU Zuowei, FENG Wenli, LIU Haoniannian. The origin of carbonate cements and the influence on reservoir quality of Pinghu Formation in Xihu Sag, East China Sea[J]. Lithologic Reservoirs, 2008, 20(1): 47 -52 .
[6] WANG Bingjie, HE Sheng, NI June, FANG Du. Activity analysis of main faults in Qianquan area, Banqiao Sag[J]. Lithologic Reservoirs, 2008, 20(1): 75 -82 .
[7] CHEN Zhenbiao, ZHANG Chaomo, ZHANG Zhansong, LING Husong, SUN Baodian. Using NMR T2 spectrum distribution to study fractal nature of pore structure[J]. Lithologic Reservoirs, 2008, 20(1): 105 -110 .
[8] ZHANG Houfu, XU Zhaohui. Discussion on stratigraphic-lithologic reservoirs exploration in the aspect of the research history of reservoirs[J]. Lithologic Reservoirs, 2008, 20(1): 114 -123 .
[9] ZHANG Xia. Cultivation of exploration creativity[J]. Lithologic Reservoirs, 2007, 19(1): 16 -20 .
[10] YANG Wuyang, YANG Wencai, LIU Quanxin, WANG Xiwen. 3D frequency and space domain amplitude-preserved migration with viscoelastic wave equations[J]. Lithologic Reservoirs, 2007, 19(1): 86 -91 .
TRENDMD:

Copyright © 2018 Lithologic Reservoirs

Support by Beijing Magtech support@magtech.com.cn