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海拉尔盆地碎屑岩地层断裂带内部结构及断层封闭性 被引量:7

Internal structure of fault zone and fault lateral sealing in clastic rock layer of Hailaer basin
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摘要 根据盆地演化规律及断层穿层性,将海拉尔盆地断裂分为盆地基底断裂和盖层断裂;根据活动时期和变形特征,分为早期伸展断裂系统、中期张扭断裂系统、早期伸展—中期张扭断裂系统、中期张扭—晚期反转断裂系统和早期伸展—中期张扭—晚期反转断裂系统.结合海拉尔盆地岩心和野外观察,建立3种断裂带内部结构模式:致密储层中断层角砾岩结构、泥质岩盖层中泥岩涂抹结构和泥质岩盖层内断层泥结构.与油气垂向运移有关的断裂系统包括早期伸展—中期张扭—晚期反转断裂系统(正反转断层)、早期伸展—中期张扭—晚期反转活动的断裂系统(反转再活动正断层)和中期张扭—晚期反转活动的断裂系统.该研究成果可以为海拉尔盆地断层封闭性评价提供指导. Based on the evolution of basin and the through-going layer of faults,Faults in Hailaer Basin falls into the basin basement fault and basin cover fault.Based on its activity periods and deformation characteristics,the basin cover fault can be divided into six systems,i.e.early extensional fault system,middle transtensional fault system,early extensional-middle transtensional fault system,middle transtensional-late inverted fault system and early extensional-middle transtensional-late inverted fault system.Based on core analysis and field observation in Hailar Basin,three models are established to describe the internal structure of fault zone: fault breccia structure of tight reservoir,the shale smear structure of mudstone caprock,fault gouge structure of mudstone caprock.Fault systems associated with vertical migration of oil and gas include the early extensional-middle transtensional-late inverted fault system(positive inverted faults),the fault system during the early extensional-middle transtensional-late inverted movement(the inverted active normal fault),middle transtensional-late inverted activity fault system.This achievement can provide guidance for lateral sealing evaluate of faults of Hailar basin.
作者 王盛波
机构地区 成都理工大学能源学院
出处 《东北石油大学学报》 CAS 北大核心 2013年第2期1-8,5,共8页 Journal of Northeast Petroleum University
基金 国家科技重大专项(2011ZX05003-001)
关键词 断裂系统 断裂带内部结构 断层核 破碎带 断层封闭性 fault system internal structure of fault zone fault core damage zone fault sealing
分类号 TE122.1 [石油与天然气工程—油气勘探]
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东北石油大学学报
2013年 第2期

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