THE MAIN CONTROLLING FACTORS AND EVOLUTIONARY SEQUENCE OF ORDOVICIAN FRACTURE IN H GAS FIELD OF BACHU UPLIFT, TARIM BASIN
-
摘要: 塔里木盆地巴楚凸起H气田奥陶系储层是低孔低渗裂缝型碳酸盐岩储层,裂缝系统作为储层渗流通道,其空间分布和主要控制因素复杂,具有多期次叠加和演化的特征。文章采用岩心描述、镜下观察、成像解释等手段分析H气田奥陶系碳酸盐岩裂缝发育特征,明确裂缝主要控制因素,建立了裂缝演化序列。结果表明:巴楚凸起H气田奥陶系以剪切缝为主,张性缝次之,张剪缝最少,裂缝发育的主要控制因素为断层、褶皱及岩性等,与断层相关的裂缝主要发育在距断层460 m的范围内;地层变形程度越强,裂缝越发育;裂缝发育程度还受岩性的控制,灰岩的粒径或晶粒越大,构造裂缝越发育。根据已有碳氧同位素测试研究成果,并结合岩心观察发现:H气田奥陶系构造裂缝至少经历了三期演化活动,分别为加里东运动中期少量低角度北东东向和北北西向剪切缝发育期,海西运动晚期中-高角度北西西向张性缝和北东东向、北西向张剪缝以及南北向、北东向中-高角度剪切缝发育期,喜马拉雅运动早期大量高角度北东东向、北北东向剪切缝发育期,主要造缝期为喜马拉雅运动早期。Abstract: The Ordovician reservoirs in H gas field of Bachu uplift in Tarim Basin are carbonate reservoirs with low porosity and low permeability. The fracture system, as reservoir percolation channel, is characterized by complex spatial distribution and main control factors, and features of multi-stage superposition and evolution. Fracture development characteristics of Ordovician carbonate rocks in H gas field are analyzed by means of core description, microscopic observation and imaging interpretation, etc., major controlling factors of fractures are identified, and fracture evolution sequence is established. The results show that, the Ordovician system of H gas field in the Bachu uplift is dominated by shearing fractures, followed by tensional fractures, and tensional-shearing fractures are the least. The main controlling factors of fracture development are faults, folds and lithology, etc., and fault-related fractures are mainly developed within the range of 460 m from the fault. The higher the deformation degree is, the more developed the fractures are. Also the degree of fracture development is controlled by lithology. The larger the particle size or grain size of limestone are, the more developed the structural fractures are. According to the carbon and oxygen isotope test, combined with core observation, it is found that Ordovician tectonic fractures in H gas field have undergone at least three periods of evolution:development period of a small amount of low angle NEE and NNW trending shearing fractures in the middle of Caledonian; development period of medium-high angle NWW trending tensional fractures, NEE and NW trending tensional-shearing fractures, and SN and NE trending medium-high angle shearing fractures in late Hercynian; development period of a large amount of high angle NEE and NNE trending shearing fractures in early Himalayan, which is the main generation period of fractures.
-
图 2 H气田奥陶系岩心裂缝特征
a—X8井生物灰岩段,2395 m,全充填剪切缝;b—X1井生物灰岩段,1867.4 m,剪切缝相互切割交错;c—X6井生物灰岩段,2469.24 m,剪切缝相互切割交错;d—X5井生物灰岩段,2299.3 m,全充填张剪缝;e—X6井生物灰岩段,2413.8 m,全充填张剪缝;f—X5井生物灰岩段,2160.36 m,半充填张剪缝;g—X3井生物灰岩段,1670.1 m,全充填张性缝;h—X6井生物灰岩段,2276.87 m,半充填张性缝
Figure 2. Ordovician core fracture characteristics in H gas field
-
[1] 周新桂, 操成杰, 袁嘉音.储层构造裂缝定量预测与油气渗流规律研究现状和进展[J].地球科学进展, 2003, 18(3):398-404. doi: 10.3321/j.issn:1001-8166.2003.03.012ZHOU Xingui, CAO Chengjie, YUAN Jiayin. The research actuality and major progresses on the quantitative forecast of reservoir fractures and hydrocarbon migration law[J]. Advance in Earth Sciences, 2003, 18(3):398-404. (in Chinese with English abstract) doi: 10.3321/j.issn:1001-8166.2003.03.012 [2] 马如辉.致密砂岩储层的裂缝预测[J].天然气工业, 2005, 25(10):36-37. doi: 10.3321/j.issn:1000-0976.2005.10.012MA Ruhui. Fracture prediction of tight sandstone reservoir[J]. Natural Gas Industry, 2005, 25(10):36-37. (in Chinese with English abstract) doi: 10.3321/j.issn:1000-0976.2005.10.012 [3] 侯贵廷.裂缝的分形分析方法[J].应用基础与工程科学学报, 1994, 2(4):299-305. http://d.old.wanfangdata.com.cn/Conference/334347HOU Guiting. Fractal analysis of fractures[J]. Journal of Basic Science and Engineering, 1994, 2(4):299-305. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Conference/334347 [4] 童亨茂.成像测井资料在构造裂缝预测和评价中的应用[J].天然气工业, 2006, 26(9):58-61. doi: 10.3321/j.issn:1000-0976.2006.09.017TONG Hengmao. Application of imaging well logging data in prediction of structural fracture[J]. Natural Gas Industry, 2006, 26(9):58-61. (in Chinese with English abstract) doi: 10.3321/j.issn:1000-0976.2006.09.017 [5] 邓少桂, 王晓畅, 范宜仁.裂缝性碳酸盐岩裂缝的双侧向测井响应特征及解释方法[J].地球科学——中国地质大学学报, 2006, 31(6):846-850. http://d.old.wanfangdata.com.cn/Periodical/dqkx200606013DENG Shaogui, WANG Xiaochang, FAN Yiren. Response of dual laterolog to fractures in fractured carbonate formation and its interpretation[J]. Earth Science-Journal of China University of Geosciences, 2006, 31(6):846-850. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dqkx200606013 [6] 张庆莲, 侯贵廷, 潘文庆, 等.新疆巴楚地区走滑断裂对碳酸盐岩构造裂缝发育的控制[J].地质通报, 2010, 29(8):1160-1167. doi: 10.3969/j.issn.1671-2552.2010.08.008ZHANG Qinglian, HOU Guiting, PAN Wenqing, et al. Development of fractures in carbonate rocks under the influence of strike-slip faults in Bachu Area, Xinjiang, China[J]. Geological Bulletin of China, 2010, 29(8):1160-1167. (in Chinese with English abstract) doi: 10.3969/j.issn.1671-2552.2010.08.008 [7] 张庆莲, 侯贵廷, 潘文庆, 等.皮羌走滑断裂控制构造裂缝发育的力学机制模拟[J].地质力学学报, 2012, 18(2):110-119. doi: 10.3969/j.issn.1006-6616.2012.02.002ZHANG Qinglian, HOU Guiting, PAN Wenqing, et al. Numerical simulation of structural fractures controlled by Piqiang strike-slip fault[J]. Journal of Geomechanics, 2012, 18(2):110-119. (in Chinese with English abstract) doi: 10.3969/j.issn.1006-6616.2012.02.002 [8] 鞠玮, 侯贵廷, 潘文庆, 等.塔中Ⅰ号断裂带北段构造裂缝面密度与分形统计[J].地学前缘, 2011, 18(3):317-323. http://d.old.wanfangdata.com.cn/Periodical/dxqy201103029JU Wei, HOU Guiting, PAN Wenqing, et al. The density and fractals of structural fractures in northern segment of Tazhong No. 1 fault, Xinjiang, China[J]. Earth Science Frontiers, 2011, 18(3):317-323. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dxqy201103029 [9] 董兆雄, 罗强, 王振宇.沉积成岩作用是影响碳酸盐岩裂缝发育不可忽视的因素[J].西南石油学院学报, 1993, 15(S1):35-37.DONG Zhaoxiong, LUO Qiang, WANG Zhenyu. Sedimentary diagenesis is a factor that can not be neglected in the development of carbonate fractures[J]. Journal of Xinan University of Petroleum, 1993, 15(S1):35-37. (in Chinese) [10] 赵明, 樊太亮, 于炳松, 等.塔中地区奥陶系碳酸盐岩储层裂缝发育特征及主控因素[J].现代地质, 2009, 23(4):709-718. doi: 10.3969/j.issn.1000-8527.2009.04.016ZHAO Ming, FAN Tailiang, YU Bingsong, et al. Ordovician carbonate reservoir fracture characteristics in Tazhong Area of Tarim Basin[J]. Geoscience, 2009, 23(4):709-718. (in Chinese with English abstract) doi: 10.3969/j.issn.1000-8527.2009.04.016 [11] 杨宁, 吕修祥, 潘文庆.轮南潜山奥陶系碳酸盐岩储层裂缝发育特征[J].西安石油大学学报(自然科学版), 2004, 19(4):40-42. doi: 10.3969/j.issn.1673-064X.2004.04.010YANG Ning, LÜ Xiuxiang, PAN Wenqing. Feature of fracture development in Ordovician carbonate reservoir of Lunnan burial hill[J]. Journal of Xi'an Shiyou University (Natural Science Edition), 2004, 19(4):40-42. (in Chinese with English abstract) doi: 10.3969/j.issn.1673-064X.2004.04.010 [12] 杨威, 王清华, 赵仁德, 等.和田河气田奥陶系碳酸盐岩裂缝[J].石油与天然气地质, 2000, 21(3):252-255. doi: 10.3321/j.issn:0253-9985.2000.03.014YANG Wei, WANG Qinghua, ZHAO Rende, et al. Fractures of Ordovician carbonate rocks in Hetian river gasfield[J]. Oil & Gas Geology, 2000, 21(3):252-255. (in Chinese with English abstract) doi: 10.3321/j.issn:0253-9985.2000.03.014 [13] 贾承造, 魏国齐.塔里木盆地构造特征与含油气性[J].科学通报, 2002, 47(S1):1-8. http://d.old.wanfangdata.com.cn/Periodical/kxtb2002z1001JIA Chengzao, WEI Guoqi. Structural characteristics and petroliferous features of Tarim Basin[J]. Chinese Science Bulletin, 2002, 47(S1):1-11. http://d.old.wanfangdata.com.cn/Periodical/kxtb2002z1001 [14] 贾承造.塔里木盆地构造特征与油气聚集规律[J].新疆石油地质, 1999, 20(3):177-183. doi: 10.3969/j.issn.1001-3873.1999.03.001JIA Chengzao. Structural characteristics and oil/gas accumulative regularity in Tarim Basin[J]. Xinjiang Petroleum Geology, 1999, 20(3):177-183. (in Chinese) doi: 10.3969/j.issn.1001-3873.1999.03.001 [15] 戴俊生.构造地质学及大地构造[M].北京:石油工业出版社, 2006.DAI Junsheng. Structural Geology and Tectonics[M]. Beijing:Petroleum Industry Press, 2006. (in Chinese) [16] 宋惠珍, 贾承造, 欧阳健, 等.裂缝性储集层研究理论与方法[M].北京:石油工业出版社, 2001:110-115.SONG Huizhen, JIA Chengzao, OUYANG Jian, et al. Theory and method of fractured reservoir study[M]. Beijing:Petroleum Industry Press, 2001:110-115. (in Chinese) [17] 何志勇, 刘海涛, 肖伟.川东北YB地区须家河组裂缝特征及主控因素[J].断块油气田, 2014, 21(1):32-35. http://d.old.wanfangdata.com.cn/Periodical/dkyqt201401007HE Zhiyong, LIU Haitao, XIAO Wei. Fracture characteristics and main controlling factors of Xujiahe Formation reservoir in YB Area, northeastern Sichuan Basin[J]. Fault-Block Oil and Gas Field, 2014, 21(1):32-35. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/dkyqt201401007 [18] 王光奇, 岳云福, 漆家福, 等.黄骅坳陷白唐马地区下第三系深层碎屑岩储层裂缝分析[J].中国海上油气(地质), 2002, 16(6):384-388. http://d.old.wanfangdata.com.cn/Periodical/zghsyq-dz200206003WANG Guangqi, YUE Yunfu, QI Jiafu, et al. A fracture analysis of Paleogene deep clastic reservoir rock in Baitangma Area, Huanghua Depression[J]. China Offshore Oil and Gas (Geology), 2002, 16(6):384-388. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/zghsyq-dz200206003 [19] 彭红利, 熊珏, 孙良田, 等.主曲率法在碳酸盐岩气藏储层构造裂缝预测中的应用研究[J].天然气地球科学, 2005, 16(3):343-346. doi: 10.3969/j.issn.1672-1926.2005.03.018PENG Hongli, XIONG Yu, SUN Liangtian, et al. The research on main curvature method application in carbonate gas reservoir's structural fracture prediction[J]. Natural Gas Geoscience, 2005, 16(3):343-346. (in Chinese with English abstract) doi: 10.3969/j.issn.1672-1926.2005.03.018 [20] 余和中, 韩守华, 斯春松, 等.向斜轴部中和面以下层段油气勘探[J].中国石油勘探, 2008, 13(3):23-26. doi: 10.3969/j.issn.1672-7703.2008.03.005YU Hezhong, HAN Shouhua, SI Chunsong, et al. Exploration for oil and gas in intervals under neutral plane at axial part[J]. China Petroleum Exploration, 2008, 13(3):23-26. (in Chinese with English abstract) doi: 10.3969/j.issn.1672-7703.2008.03.005 [21] BILLINGS M P. Structural geology[M]. 3rd ed. New Jersey:Prentice-Hall, 1972. [22] 李春林, 刘立, 王丽.辽河坳陷东部凹陷火山岩构造裂缝形成机制[J].吉林大学学报(地球科学版), 2004, 34(S1):46-50. doi: 10.1253-circj.CJ-11-0806/LI Chunlin, LIU Li, WANG Li. The mechanism of volcanic rock fracture formation of eastern sag of Liaohe Depression[J]. Journal of Jilin University (Earth Science Edition), 2004, 34(S1):46-50. (in Chinese with English abstract) doi: 10.1253-circj.CJ-11-0806/ [23] 戴俊生, 王宇坤, 冯建伟, 等.和田河气田奥陶系碳酸盐岩裂缝特征及形成期次[J].新疆石油地质, 2017, 38(2):133-136. http://d.old.wanfangdata.com.cn/Periodical/xjsydz201702002DAI Junsheng, WANG Yukun, FENG Jianwei, et al. Characteristics and formation periods of fractures in ordovician carbonate rocks in Hetianhe Gas Field[J]. Xinjiang Petroleum Geology, 2017, 38(2):133-136. (in Chinese with English abstract) http://d.old.wanfangdata.com.cn/Periodical/xjsydz201702002 [24] 李慧莉, 邱楠生, 金之钧, 等.塔里木盆地的热史[J].石油与天然气地质, 2005, 26(5):613-617. doi: 10.3321/j.issn:0253-9985.2005.05.009LI Huili, QIU Nansheng, JIN Zhijun, et al. Geothermal history of Tarim basin[J]. Oil & Gas Geology, 2005, 26(5):613-617. (in Chinese with English abstract) doi: 10.3321/j.issn:0253-9985.2005.05.009