Advanced Search
Volume 39 Issue 4
Turn off MathJax
Article Contents
Article Navigation >  PETROLEUM GEOLOGY & EXPERIMENT  > 2017  >  39(4): 461-466
Zhao Leqiang, Jia Fanjian, Cao Jian, Liu Hui, Bian Xuemei, Gao Jianxiong. Fluid activity in faults in the northwestern Junggar Basin and its influence on fault opening and sealing[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2017, 39(4): 461-466. doi: 10.11781/sysydz201704461
Citation: Zhao Leqiang, Jia Fanjian, Cao Jian, Liu Hui, Bian Xuemei, Gao Jianxiong. Fluid activity in faults in the northwestern Junggar Basin and its influence on fault opening and sealing[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2017, 39(4): 461-466. doi: 10.11781/sysydz201704461
shu

Fluid activity in faults in the northwestern Junggar Basin and its influence on fault opening and sealing

doi: 10.11781/sysydz201704461
  • 1.

    SINOPEC Shengli Oilfield Company, Dongying, Shandong 257000, China

  • 2. School of Earth and Engineering, Nanjing University, Nanjing, Jiangsu 210023, China

  • Received Date: 2017-01-05
  • Rev Recd Date: 2017-05-15
  • Publish Date: 2017-07-28
    Abstract
  • The fluid flow process and its effect on fault opening and sealing in the northwestern Junggar Basin were studied based on field outcrop, drilling, logging and geochemical analyses. Four stages of fluid activities have occurred. During the early period of fault formation, the sliding fracture zone got the most concentrated force and was extensively crushed. The first phase of mantle-derived fluid entered the sliding fracture zone and continuously precipitated minerals, which made physical properties become worse. The second phase of mantle-derived fluid migrated in the parts where physical properties were relatively better in the sliding fractured zone. The cemented minerals and the mineral veins formed in the first phase closed the sliding fracture zone. The third phase of fluid from the basin mainly migrated in the fracture zone of the active wall where physical properties were relatively better, and a small part entered the induced fracture zone of the passive wall. In the fourth phase, atmospheric precipitation entered the induced fracture zones of the active wall and the passive wall where physical properties were relatively better. In the initial stage, dissolution was essential, while in the late stage cementation was stronger. When the fluid from the basin was active in the third phase, large-scale hydrocarbon was expelled from the basin. As a result, the fluid often contained large amounts of oil and gas. Hydrocarbon mainly migrated in the induced fracture zone of the active wall, and secondly in the induced fracture zone of the passive wall. The sliding fracture zone played the role of closure not transport.

     

    • FullText(HTML)
  • loading
    • References(18)
  • [1]
    Cox S F.Faulting processes at high fluid pressures:An example of fault valve behavior from the Wattle Gully Fault,Victoria,Australia[J].Journal of Geophysical Research,1995,100(B7):12841-12859.
    [2]
    郝芳,邹华耀,方勇,等.断—压双控流体流动与油气幕式快速成藏[J].石油学报,2004,25(6):38-43. Hao Fang,Zou Huayao,Fang Yong,et al.Overpressure-fault controlled fluid flow and episodic hydrocarbon accumulation[J].Acta Petrolei Sinica,2004,25(6):38-43.
    [3]
    吕延防,付广,张云峰,等.断层封闭性研究[M].北京:石油工业出版社,2002:31-32. Lü Yanfang,Fu Guang,Zhang Yunfeng,et al.Fault sealing ana-lysis[M].Beijing:Petroleum Industry Press,2002:31-32.
    [4]
    吴智平,陈伟,薛雁,等.断裂带的结构特征及其对油气的输导和封堵性[J].地质学报,2010,84(4):570-578. Wu Zhiping,Chen Wei,Xue Yan,et al.Structural characteristics of faulting zone and its ability in transporting and sealing oil and gas[J].Acta Geologica Sinica,2010,84(4):570-578.
    [5]
    吕延防,付广,张云峰,等.断层封闭性研究[M].北京:石油工业出版社,2002:31-32. Lü Yanfang,Fu Guang,Zhang Yunfeng.Fault sealing analysis[M].Beijing:Petroleum Industry Press,2002:31-32.
    [6]
    蔡忠贤,陈发景,贾振远.准噶尔盆地的类型和构造演化[J].地学前缘,2000,7(4):431-440. Cai Zhongxian,Chen Fajing,Jia Zhenyuan.Types and tectonic evolution of Junger Basin[J].Earth Science Frontiers,2000,7(4):431-440.
    [7]
    刘立,于均民,孙晓明,等.热对流成岩作用的基本特征与研究意义[J].地球科学进展,2000,15(5):583-585. Liu Li,Yu Junmin,Sun Xiaoming,et al.Basic characteristics of thermal convection diagenesis and its research significance[J].Advance in earth sciences,2000,15(5):583-585.
    [8]
    付晓飞,温海波,吕延防,等.勘探早期断层封闭性快速评价方法及应用[J].吉林大学学报(地球科学版),2011,41(3):615-621. Fu Xiaofei,Wen Haibo,Lü Yanfang,et al.Quick evaluation method and its application of fault seal during early exploration period[J].Journal of Jilin University (Earth Science Edition),2011,41(3):615-621.
    [9]
    吴孔友.准噶尔盆地乌—夏地区油气成藏期次分析[J].石油天然气学报(江汉石油学院学报),2009,31(3):18-23. Wu Kongyou.Research on the stages of reservoir formation in Wuerhe-Xiazijie area in Junggar Basin[J].Journal of Oil and Gas Technology (Journal of Jianghan Petroleum Institute),2009,31(3):18-23.
    [10]
    孟家峰,郭召杰,方世虎,等.准噶尔盆地西北缘冲断构造新解[J].地学前缘,2009,16(3):171-180. Meng Jiafeng,Guo Zhaojie,Fang Shihu,et al.A new insight into the thrust structures at the northwestern margin of Junggar Basin[J].Earth Science Frontiers,2009,16(3):171-180.
    [11]
    祁利祺,鲍志东,鲜本忠,等.准噶尔盆地西北缘构造变换带及其对中生界沉积的控制[J].新疆石油地质,2009,30(1):29-32. Qi Liqi,Bao Zhidong,Xian Benzhong,et al.Structural transform zone and its control of Mesozoic deposits in northwestern margin of Junggar Basin[J].Xinjiang Petroleum Geology,2009,30(1):29-32.
    [12]
    付晓飞,陈发景,贾振远. 准噶尔盆地的类型和构造演化[J]. 地学前缘,2000,7(4):431-440. Cai Zhongxian,Chen Fajing,Jia Zhenyuan.Types and tectonic evolution of Junger Basin[J]. Earth Science Frontiers,2000,7(4):431-440.
    [13]
    邵雨,汪仁富,张越迁,等.准噶尔盆地西北缘走滑构造与油气勘探[J].石油学报,2011,32(6):976-984. Shao Yu,Wang Renfu,Zhang Yueqian,et al.Strike-slip structures and oil-gas exploration in the NW margin of the Junggar Basin,China[J].Acta Petrolei Sinica,2011,32(6):976-984.
    [14]
    马宗晋,曲国胜,李涛,等.准噶尔盆地盆山构造耦合与分段性[J].新疆石油地质,2008,29(3):271-277. Ma Zongjin,Qu Guosheng,Li Tao,et al.Tectonic coupling and segmentation of marginal structural belt in Junggar Basin[J].Xinjiang Petroleum Geology,2008,29(3):271-277.
    [15]
    Palmer M R,Elderfield H.Sr isotope composition of sea water over the past 75 Myr[J].Nature,1985,314(6011):526-528.
    [16]
    鲁新川,张顺存,史基安.准噶尔盆地西北缘乌尔禾—风城地区二叠系风城组白云岩地球化学特征及成因分析[J].兰州大学学报(自然科学版),2012,48(6):8-14. Lu Xinchuan,Zhang Shuncun,Shi Ji'an.Dolomite genesis and geochemical characteristics of Permian Fengcheng Formation in Wuerhe-Fengcheng area,northwestern Junggar Basin[J].Journal of Lanzhou University (Natural Sciences),2012,48(6):8-14.
    [17]
    曹剑,胡文瑄,姚素平,等.准噶尔盆地西北缘油气成藏演化的包裹体地球化学研究[J].地质论评,2006,52(5):700-707. Cao Jian,Hu Wenxuan,Yao Suping,et al.Evolution of petro-leum migration and accumulation in the northwestern margin of the Junggar Basin:Fluid inclusion geochemistry[J]. Geological Review,2006,52(5):700-707.
    [18]
    邱楠生,王绪龙,杨海波,等.准噶尔盆地地温分布特征[J].地质科学,2001,36(3):350-358. Qiu Nansheng,Wang Xulong,Yang Haibo,et al.The characteris-tics of temperature distribution in the Junggar Basin[J].Chinese Journal of Geology,2001,36(3):350-358.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Citation
    XML
    PDF-CN

    Article Metrics

    Article views (1188) PDF downloads(261) Cited by()
    Proportional views
    Related

    Website Copyright © Wuxi Research Institute of Petroleum Geology, SINOPEC 苏ICP备15009037号 苏公网安备32021102000780号

    Address:No. 2060, Lihu Avenue, Wuxi, Jiangsu   (214126) Tel:0510-68787204,68787203 Fax:0510-68787113 Email:sysydz.syky@sinopec.com

    Supported by: Beijing Renhe Information Technology Co. Ltd  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return