Journal of Jilin University(Earth Science Edition) ›› 2016, Vol. 46 ›› Issue (1): 211-219.doi: 10.13278/j.cnki.jjuese.201601205

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Feasibility of Oilfield Wastewater Disposal in the Underpressure System of Basin

Yu Peng1, Ma Teng1, Tang Zhonghua1, Zhou Wei2   

  1. 1. School of Environmental Studies, China University of Geosciences, Wuhan 430074, China;
    2. PetroChina Research Institute of Petroleum Exploitation and Development, Beijing 100083, China
  • Received:2015-04-21 Online:2016-01-26 Published:2016-01-26
  • Supported by:

    Supported by National Major Special Project During the Twelfth Five-Year Plan Period (2011ZX05009-002)

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Abstract:

The distribution of oil and gas in Shiwu depression of Songliao basin is complex, the prospecting degree is high, and the conventional technology for huge scale oilfield wastewater treatment is not ideal. Four thousand meters below of the strata in the study region is pressure negative, we can apply it for storage of the oilfield wastewater in engineering if the storage medium parameters are suitable in terms of the corresponding geological landfill conditions. Based on the hydrological and geological conditions of Shiwu depression in Songliao basin, the groundwater flow and pollutant transport model are constructed to predict storage ability and describe space distribution features of the underpressure area under the condition of infusing wastewater. The formation mechanism and characteristic of distribution of underpressure are analyzed in calculating process, and the environmental effect of wastewater is predicted based on the simulating virtual particle tracer and injection process. This research shows that the underpressure system of Shiwu depression is a natural closed storage reservoir with capacity up to 1.241×108 m3, which is suitable for wastewater injection and storage. The system pressure gradient is 0.005-0.008 MPa/m,and the pollutants are less likely to escape.

Key words: underpressure system, wastewater storage, storage space, numerical simulation, economic benefit, Shiwu depression

CLC Number: 

  • P641.2

[1] 王威, 苏小四, 张玉玲, 等. 石油类污染场地的自然衰减作用[J]. 吉林大学学报(地球科学版), 2011, 41(增刊1):310-314. Wang Wei, Su Xiaosi, Zhang Yuling, et al. Natural Attenuation of a Petroleum Contaminated Site[J]. Journal of Jilin University(Earth Science Edition), 2011, 41(Sup. 1):310-314.

[2] 张文. 油田污水处理技术现状及发展趋势[J]. 油气地质与采收率, 2010, 17(2):108-110. Zhang Wen. Status and Progress of Oil-Bearing Wastewater Treatment Processes in Oilfield[J]. Petroleum Geology and Recovery Efficiency, 2010, 17(2):108-110.

[3] 李伟强, 尹太举, 邓智浩, 等. 基于密闭取心井的高含水油藏水洗特征研究[J]. 吉林大学学报(地球科学版), 2015, 45(增刊1):1517-1518. Li Weiqiang, Yin Taiju, Deng Zhihao, et al. High Water Cut Reservoir Characteristics Research Based on Sealed Cored Wells[J]. Journal of Jilin University(Earth Science Edition), 2015, 45(Sup.1):1517-1518.

[4] 王慧云, 全先高, 石茂建, 等. PAFSi-PAM+-CTAB复合体系在胜利油田钻井废水处理中的应用[J]. 中国石油大学学报(自然科学版), 2011, 35(3):163-167. Wang Huiyun, Quan Xiangao, Shi Maojian, et al. Application of Composite Flocculant PAFSi-PAM+-CTAB to Treatment of Drilling Waste Water from Shengli Oilfield[J]. Journal of China University of Petroleum(Edition of Natural Science),2011, 35(3):163-167.

[5] 刘保君. 多杯等流型油水分离器优化设计及实验研究[D]. 大庆:东北石油大学, 2013. Liu Baojun. Structure Optimization and Experimental Research of Multicup Isoflux Oil-Water Separator[D]. Daqing:Northeast Petroleum University, 2013.

[6] 闵志华. 油田污水处理现状及发展趋势[J]. 油气田地面工程, 2014, 33(7):57-58. Min Zhihua. Status and Progress of Oil-Bearing Wastewater Treatment in Oilfield[J]. Oil-Gas Field Surface Engineering, 2014, 33(7):57-58.

[7] 池帛洋, 林永波. 硬脂酸改性磁铁矿对石油污水的处理研究[J]. 环境保护科学, 2013, 39(3):25-28. Chi Boyang, Lin Yongbo. Research on Oil Wastewater Treatment by Stearic Acid-Modified Magnetite[J]. Environmental Protection Science, 2013, 39(3):25-28.

[8] 唐广荣. 改性纤维球过滤技术用于海上油田污水的深度处理[J]. 工业水处理, 2014, 34(11):77-79. Tang Guangrong. Application of Modified Fiber Filtering Ball Technology Applied to the Advanced Treatment of Wastewater in Offshore Oilfield[J]. Industrial Water Treatment, 2014, 34(11):77-79.

[9] 刘新亮, 蔺爱国, 尹海亮, 等. 超声波降解含聚油田污水的研究[J]. 工业水处理, 2014, 34(3):71-74. Liu Xinliang, Lin Aiguo, Yin Hailiang, et al. Research on the Degradation of Polymer-Bearing Oilfield Wastewater by Ultrasonic Irradiation[J]. Industrial Water Treatment, 2014, 34(3):71-74.

[10] Panei L, Forte L, Caliri A. Storage Capacity Prospects in Italy[C]//Editorial Committees of the OMC. Workshop on the 11th Offshore Mediterranean Conference and Exhibition. Ravenna:OMC, 2013:1-7.

[11] Schuppers J, Holloway S, May F, et al. Storage Capacity and Quality of Hydrocarbon Structures in the North Sea and the Aegean Region[R]. Netherlands:Netherlands Institute of Applied Geoscience TNO, 2003.

[12] 徐银波. 梨树断陷下白垩统营城组沉积特征研究[D]. 长春:吉林大学, 2014. Xu Yinbo. Research on Sedimentary Characteristics of Yingcheng Formation in Lower Cretaceous in Lishu Fault Depression[D]. Changchun:Jilin Universtiy, 2014.

[13] 曲少东. 松辽盆地梨树断陷构造演化及区域动力学背景[D]. 西安:西北大学, 2013. Qu Shaodong. Tectonic Evolution and Regional Dynamics Background of Lishu Subbasin, Songliao Basin[D]. Xi'an:Northwest Universtiy, 2013.

[14] 雷振宇, 解习农, 黄卫, 等. 松辽盆地齐家古龙凹陷三肇凹陷中浅层异常压力系统特征[J]. 吉林大学学报(地球科学版), 2012, 42(增刊1):96-104. Lei Zhenyu, Xie Xinong, Huang Wei, et al. Abnormal Pressure System Characteristics of Mid-Shallow Formation in Qijiagulong-Sanzhao Depression of Songliao Basin, China[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(Sup. 1):96-104.

[15] 刘震, 朱文奇, 孙强, 等. 中国含油气盆地地温-地压系统[J]. 石油学报, 2012, 33(1):1-17. Liu Zhen, Zhu Wenqi, Sun Qiang, et al. Characteristics of Geotemperature-Geopressure Systems in Petroliferous Basins of China[J]. Acta Petrolei Sinica, 2012, 33(1):1-17.

[16] Lazear G D. Fractures, Convection and Underpressure:Hydrogeology on the Southern Margin of the Piceance Basin, West-Central Colorado, USA[J]. Hydrogeology Journal, 2009, 17(3):641-664.

[17] Person M, Butler D, Gable C W. Hydrodynamic Stagnationzones:A New Play Concept for the Llanos Basin, Colombia[J]. AAPG Bulletin, 2012, 96(1):23-41.

[18] 陈义才, 张胜, 魏新善, 等. 苏里格气田下二叠统盒8段异常低压成因及其分布特征[J]. 天然气工业, 2010, 30(11):30-33. Chen Yicai, Zhang Sheng, Wei Xinshan, et al. Distribution Characteristics and Genesis of Abnormal Pressure in the 8th Member of Lower Shihezi Formation in Sulige Gas Field[J]. Natural Gas Industry, 2010, 30(11):30-33.

[19] 张云峰, 李易霖, 赵慧, 等. 十屋断陷深层储层异常低压与次生孔隙发育带耦合关系分析[J]. 地质科学, 2013, 48(3):870-878. Zhang Yunfeng, Li Yilin, Zhao Hui, et al. Coupling Relationship Analysis in Deep Reservoir Between Subnormal Pressure and Secondary Porosity Zone in Shiwu Depression[J]. Chinesee Journal of Geology, 2013, 48(3):870-878.

[20] 解习农, 李思田, 刘晓峰. 异常压力盆地流体动力学[M]. 武汉:中国地质大学出版社, 2006. Xie Xinong, Li Sitian, Liu Xiaofeng. Basin Fluid Dynamics in Abnormally Pressured Environments[M]. Wuhan:China University of Geosciences Press, 2006.

[21] 解习农, 焦赳赳, 熊海河. 松辽盆地十屋断陷异常低压体系及其成因机制[J]. 地球科学:中国地质大学学报, 2003, 28(1):61-66. Xie Xinong, Jiao Jiujiu, Xiong Haihe. Underpressure System and Forming Mechanism in the Shiwu Depression of Songliao Basin[J]. Earth Science:Journal of China University of Geosciences, 2003, 28(1):61-66.

[22] He S, Middleton M, Tang Z H. Characteristics and Origin of Underpressure System in the Shiwu Fault Depression, Southeast Songliao Basin, China[J].Basin Research, 2000, 12(2):147-158.
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