高温高盐油藏二次开发深部调驱技术与矿场试验

doi:10.11743/ogg20150419

Abstract

Abstract:

In viewing the serious injection-production contradictions and highly-dispersed residual oil distribution in the late stage of development of E₃¹ reservoir in Kuergasi oilfield in Qinhai Province, we performed deep profile correction technology laboratory study and pilot test in the high-temperature and high-salinity reservoirs.Based on detailed analyses of the reservoirs, a well pattern with 15 injectors and 30 producers were selected for the pilot test.A technological process with water-plugging and profile correction integrated is established based on identification of preferential water pathways.Flooding characteristic curve shows an incremental recovery factor of 2.1% was achieved during the pilot.During the process, mechanisms of profile correction were further explored and various combinations of injection parameters were tried.Comparing the water-intake profiles and producing profiles before and after the pilot shows that the post-development syndrome was greatly improved by successfully tapping the producing potential of both major and minor oil producing layers.The study indicates that the procedure works effectively in increasing flooding sweep efficiency and the ratio of total producing interval thickness to total perforated interval thickness of producers. For brown reservoirs who have suffered from the similar problem to the one concerned, the procedure may be applied to solve certain technological problems.

Key words: secondary development, deep flooding, enhanced oil recovery, Gasikule oilfield

CLC Number:

TE341

Yang Zhongjian, Jia Suogang, Zhang Lihui, Dou Hongmei, Zeng Lijun, Zhu Xiuyu, He Jia, Yang Lu. Deep profile correction for redevelopment of high-temperature and high-salinity reservoirs and pilot test[J]. Oil & Gas Geology, 2015, 36(4): 681-687.

References

[1] 李建军, 徐辉.小集油田官938、官979断块二次开发深部调驱技术的研究与应用[J].能源环境, 2013, 14:147. Li Jianjun, Xu Hui.Xiaoji oilfield of guan 938, 979 block secondary development of deep flooding technology research and application[J].Energy and environment, 2013, 14:147.
[2] 胡文瑞.论老油田实施二次开发工程的必要性与可行性[J].石油勘探与开发, 2008, 2(35):3. Hu Wenrui.On the necessity and feasibility of the old oilfield secondary development project[J].Petroleum Exploration and Development, 2008, 2(35):3.
[3] 韩大匡.注关于高含水油田二次开发理念、对策和技术路线的探讨[J].石油勘探与开发, 2010, 10(37):585. Han Dakuang.About high water oilfield secondary development concepts, strategies and techniques to explore the route[J].Petroleum Exploration and Development, 2010, 10(37):585.
[4] 尹志军, 鲁国永, 邹翔等.陆相储层非均质性及其对油藏采收率的影响—以冀东高尚堡和胜利永安镇油藏为例[J].石油与天然气地质, 2006, 27(1):106-110. Yin zhijun, Lu Guoyong, Zouxiang, et al.Heterogeneiyt of non-marine reservoirs and its influences On recovery factor:take Gaoshangpu and Yonganzhen oil reservoirs in Jidong and shengli oilfields as examples[J].Oil & Gas Geology, 2006, 27(1):106-110.
[5] 王卫星, 朱思俊.加强综合治理确保尕斯E₃¹油藏持续稳产[J].青海石油, 2004, 22(2):59-62. Wang Weixing, Zhu Sijun.Strengthen the comprehensive management to ensure sustained and stable Gasi E₃¹ reservoir[J].Qinghai Petroleum, 2004, 22(2):59-62.
[6] 廖春, 史玉成.尕斯库勒油田E31油藏剩余油分布特征影响因素与挖潜对策[J].青海石油, 2010, 28(2):41-44. Liao Chun, Shi Yucheng.GaSiKuLe oilfield E31 reservoir remaining oil distribution features, influence factors and the countermeasures for tapping the potential[J].Qinghai Oil, 2010, 28(2):41-44.
[7] 计秉玉.国内外油田提高采收率技术进展与展望[J].石油与天然气地质, 2012, 33(1):111-117. Ji Bingyu.Progress and Prospect of enhanced recovery technologies at home and abroad[J].Oil & Gas Geology, 2012, 33(1):111-117.
[8] 吴诗勇, 李自安, 姚峰. 储集层大孔道的识别及调剖技术研究[J].华东理工学院学报, 2006, 19(3):246-248. Wu Shiyong, Li Zian, Yao Feng.The study on identifying macropore path and sater plugging-profiling technology[J].Journal of East China Institute of Technology, 2006, 19(3):246-248.
[9] 胡书勇, 张烈辉.砂岩油藏大孔道的研究——回顾与展望[J].特种油气藏, 2006, 13(6):11-13. Hu Shuyong, Zhang Liehui.Study on large pore path in sandstone re-servoirs—review and prospect[J].Special Oil and Gas Reservoir, 2006, 13(6):11-13.
[10] 钟大康, 朱筱敏.注水开发油藏高含水期大孔道发育特征及控制因素——以胡状集油田胡12断块油藏为例[J].石油勘探与开发, 2007, 34(2):208-211. Zhong Dakang, Zhu Xiaomin.Characteristics and controlling factors of high capacity channels of reservoirs at high water cut stage:A case from Block Hu12 of Huzhuangji Oilfield[J].Petroleum Exploration and Development, 2007, 34(2):208-211.
[11] 张奇斌, 李进旺, 土晓冬, 等.水驱油藏大孔道综合识别[M].北京:石油工业出版社, 2009. Zhang Qijun, Li Jinwang, Tu Xiaodong, et al.Large pore water drive reservoir integrated identification[M] Beijing:Petroleum Industry Press, 2009.
[12] 于九政, 刘易非, 唐长久.对储集层大孔道识别方法的再认识与构想[J].油气地质与采收率, 2009, 16 (3):34-37. Yu Jiuzheng, Liu Yifei, Tang Changjiu.Understanding and vision for the reservoir large pore recognition method[J].Petroleum Geology and Recovery, 2009, 16(3):34-37.
[13] 刘景亮.玻璃板填砂模型大孔道形成过程模拟实验[J].油气地质与采收率, 2008, 15(5):95-97. Liu Jingliang.Glass sand filling large pore formation process model simulation[J].Petroleum Geology and Recovery, 2008, 15(5):95-97.
[14] Brigham W E, Smith D H.Prediction of tracer behavior in five-spot flow[M].SPE 1130, 1965.
[15] 土利美, 张国平, 胡艳霞.井问示踪剂大孔道识别及剩余油饱和度分布技术[J].断块油气田, 2003, 10(4):72-73. Si Limei, Zhang Guoping, Hu Yanxia.Wells asked tracer large pore identification and residual oil saturation distribution technology[J].Block oil and gas fields, 2003, 10(4):72-73.
[16] Maghsood A, Brigham W E.Analysis of well-to-well tracer flow to determine reservoir layering[J].JPT, 1984, 36(12):1753-1762.
[17] Wu Y F, Tang T J, Bai B J, et al.An experimental study of interaction between surfactant and particle hydrogels[J].Polymer, 2011, 52(2): 452-460.
[18] Zhang H, Challa R S, Bai B J, et al.Using screening test results to predict the effective viscosity of swollen superabsorbent polymer particles extrusion through an open fracture[J].Ind.Eng.Chem.Res 2010, 49(23):12284-12293.
[19] Stavland A, Jonsbrten H C, Vikane O.In-depth water diversion using sodium silicate on snorre-factors controlling in-depth placement[R] SPE 143836 MS-2011.
[20] Vasquez J, Miranda C.Profile modification in injection wells through relative permeability modifiers:Laboratory validation andreservoir simulation[R].SPE 135107-MS, 2010.
[21] 顾春元, 狄勤丰, 沈深, 等疏水纳米颗粒在油层微孔道中的吸附机制[J]石油勘探与开发, 2011, 38(10):84-89. Gu Chunyuan, Di Qinfeng, Shen Chen, et al.Adsorption of hydrophobic nanoparticles in reservoir microchannels[J].Petroleum Exploration and Development, 2011, 38(1): 84-89.
[22] 卢祥国, 土树霞, 王荣健, 等深部液流转向剂与油藏适应性研究:以大庆喇嘛甸油田为例[J].石油勘探与开发, 2011, 38(5):576-582. Lu Xiangguo, Wang Shuxia, Wang Rongjian, et al.Adaptability of a deep profile control agent to reservoirs:Taking the Lamadian Oilfield in Daqing as an example[J].Petroleum Exploration and Development, 2011, 38(5):576-582.

Deep profile correction for redevelopment of high-temperature and high-salinity reservoirs and pilot test

PDF (PC)

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 8

Recommended Articles

Metrics

[1]	Bingyu Ji, Songqing Zheng, Hao Gu. On the development technology of fractured-vuggy carbonate reservoirs：A case study on Tahe oilfield and Shunbei oil and gas field [J]. Oil & Gas Geology, 2022, 43(6): 1459-1465.
[2]	Li Zhang. Progress and research direction of EOR technology in eastern mature oilfields of Sinopec [J]. Oil & Gas Geology, 2022, 43(3): 717-723.
[3]	Huanquan Sun. Hybrid thermal chemical recovery of thin extra-heavy oil reservoirs [J]. Oil & Gas Geology, 2020, 41(5): 1100-1106.
[4]	Zhao Qingmin, Lun Zengmin, Zhang Xiaoqing, Lang Dongjiang, Wang Haitao. Mechanism of shale oil mobilization under CO₂ injection [J]. Oil & Gas Geology, 2019, 40(6): 1333-1338.
[5]	Cao Weidong, Dai Tao, Yu Jinbiao, Lu Tongchao, Cheng Aijie, Xi Kaihua. A numerical simulation method of heterogeneous combination flooding [J]. Oil & Gas Geology, 2016, 37(4): 606-611.
[6]	Zou Tuo, Zuo Yi, Meng Lixin, Liu Yunli, Xing Xiangrong, Feng Jinyi. Application of geological modeling technology in secondary development of old and complex fault block oilfields [J]. Oil & Gas Geology, 2014, 35(1): 143-147.
[7]	Lian Liming, Qin Jishun, Yang Siyu, Yang Yongzhi, Li Yansong. Analysis and evaluation on horizontal well seepage models and their developing trends [J]. Oil & Gas Geology, 2013, 34(6): 821-826.
[8]	Ji Bingyu. Progress and prospects of enhanced oil recovery technologies at home and abroad [J]. Oil & Gas Geology, 2012, 33(1): 111-117.