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1、成都理工大学 博士学位论文 松辽盆地南部断陷层火山岩储层识别及评价研究 姓名:徐宏节 申请学位级别:博士 专业:矿产普查与勘探 指导教师:彭大钧 20100601 摘 要 I 松辽盆地南部断陷层火山岩储层识别及评价研究松辽盆地南部断陷层火山岩储层识别及评价研究 作者简介:徐宏节,男,1964 年 6 月生,师从成都理工大学彭大钧教授,2010 年 06 月毕业于成都理工大学矿产普查与勘探专业,获得工学博士学位。 摘摘 要要 近年来火山岩储层的研究已经成为油气地质研究中的一个难点和热点。 目前火山岩 储层已经成为火山岩发育地区油气勘探中最重要的新领域。 所以开展火山岩储层的研究 具有明显的理论价
2、值和重要的现实意义。本文以松辽盆地南部断陷层为例,在广泛调研 国内外火山岩储层研究的基础上,进行了大量的野外地质调查、岩芯观察、分析化验与 测试、室内编图和综合研究,并根据近几年获得的新资料,在分析研究区的构造与沉积 特征之后,重点采用地球物理联合反演的方法开展火山岩储层识别及评价研究。经过一 系列努力攻关,本文主要取得了以下认识及进展: (1)松辽盆地发育于海西印支期古亚洲洋关闭形成的褶皱造山带之上,其基底 发育的 NNE、NNW 和 EW 向三组深断裂,其成因和郯庐断裂系北段燕山期的大规模左 行走滑活动有关。早燕山期 NNE 向基底断裂的大规模左行走滑活动对盆地基底进行了 强烈的改造,其派
3、生的 NNE、NNW 向的共轭剪破裂和在此基础上形成近 SN 向追踪张 裂体系对断陷盆地构造几何学产生重要的控制作用。断陷期主要 NNE、NNW 和 SN 向 断裂都是沿这些早期破裂面在早白垩世强烈伸展拆离作用下形成的。 长岭和十屋断陷的 构造演化整体均可分为断陷阶段、坳陷阶段和构造反转阶段。长岭断陷断陷期主要发育 NNE、NNW 和 EW 三个方向同沉积正断层,它们在断陷期具有强烈的伸展活动。其中 NW 向断裂伸展活动在火石岭期比较显著,可能是 NNE 向基底断裂左行走滑拉分的结 果; 至沙河子期和营城期转为 EW 向至 NWWSEE 向伸展拆离, 地壳伸展率超过 20%, 伸展量平均 15
4、km。深大断裂控制区域火山岩分布,复合断裂控制火山口分布,区域节 理控制火山岩储层分布。 (2)长岭、十屋凹陷断陷层内部可划分为火石岭组(K1h) 、沙河子组(K1sh) 、营 城组(K1yc) 、登娄库组(K1d) 。其中前 3 个层系是 3 次断陷幕的沉积响应,后者为断 坳过渡时期的沉积产物。断陷层系中发育了与裂陷背景相关的沉积体系类型,如陡坡带 发育扇三角洲、水下扇,缓坡带发育辫状河三角洲,其间为湖泊沉积体系;早期发育冲 积扇,晚期发育辫状河冲积平原等,它们在空间上有机配置,反映了裂谷盆地的正断层 边缘和缓坡边缘分别对盆地沉积体系发育的控制作用, 这就构成一个完整的盆地发育旋 回。 (3
5、)长岭断陷火山岩的主要类别为流纹岩、凝灰岩、安山岩、玄武岩、火山岩角 砾岩、侵入岩。长岭断陷火山岩具有两种喷发方式中心式喷发和裂隙式喷发,并具 成都理工大学博士学位论文 II 有多期喷发的特点,火山岩相主要发育溢流相和爆发相,溢流相和爆发相在垂向上相互 叠置出现。酸性岩类的流纹岩储层储集物性最好,流纹质凝灰岩次之,安山岩等中基性 岩类较差。储集空间以溶孔、原生气孔、构造缝为主,其孔缝组合类型主要为裂缝孔 隙型。火山岩储层孔隙度分布在 4%10%之间,绝大多数渗透率介于 0.060.26m2, 属于中低孔低渗特低渗储层, 火山岩的储集物性受岩性岩相、 喷发旋回、 成岩作用、 构造运动等控制。溢流
6、相的上部、下部、爆发相的热碎屑流亚相以及火山岩通道相是较 好的储集相带。 (4)从火山机构、火山岩相、地震属性等三个不同角度对长岭断陷腰英台工区营 城组的火山岩储层进行了预测,识别出 18 个较确切的勘探目标。基本形成了一套松南 断陷层火山岩储层识别及评价技术系列。在区域构造背景分析基础上,利用地震联合解 释,宏观确定火山岩分布范围;利用地震、测井、录井资料,进行火山岩体识别、单井 岩相分析和岩性岩解释,研究火山岩体及其岩性、岩相特征,精细刻画勘探目标;运用 属性分析、波形分类、地震反演和烃类检测等地球物理技术进行火山岩储层预测,寻找 有效火山岩储层; 针对松南深层火山岩岩性复杂、 双重介质,
7、 通过综合研究和实际验证, 选择了微电阻率扫描成像(FMI) 、核磁共振(CMRPLUS) 、元素俘获测井(ECS) 、 偶极子声波(DSI) 、阵列侧向(HRLA)等先进的测井技术来进行火山岩岩性划分、储 层物性及含气性评价。 关键词:火山岩 储层识别 储层评价 断陷层 松辽盆地南部 Abstract III The Identification and Evaluation about Volcanic Reservoir of Fault Depression Layer in Southern Songliao Basin Introduction of the author: Xu
8、Hongjie, male, was born in June, 1964, whose PHD supervisor was Professor Peng Dajun. He graduated from Chengdu University of Technology in Mineral Reconnaissance and Exploration major and was granted the Doctor Degree in June, 2010. Abstract The studies of volcanic reservoirs have become a difficul
9、t and hot issue in oil and gas geology research in recent years. And volcanic reservoir also has become the most important target for exploration where volcanic rocks are rich; therefore the studying of which is obviously valuable and meaningful in theory research and practical exploration. Taking t
10、he fault depression layers of southern Songliao Basin as an example, based on the study of the existing literatures on volcanic reservoir at home and abroad, we have done a lot of work on geologic field survey, core observation, testing and analysis, mapping and comprehensive research to analyze the
11、 tectonic and sedimentary features. On the basis of the above results and latest data acquired in recent years, this dissertation have use geophysical joint inversion to identity and evaluate volcanic reservoirs. After a series of efforts, this dissertation have got the conclusion and progress as fo
12、llows: (1)Songliao Basin developed on the basement of Hercynian-Indosinian fold orogenic belt which was formed after paleo-Asiatic Ocean closed. Strikes of three sets of faults developed in the basement are NNE, NNW and EW, and their genesis is related to sinistral strike slip of Tanlu fault system
13、in the period of Yanshan. The early yanshannian movement of NNE fault highly reconstructed the basins basement, and induced NNE, NNW conjugate shear fractures and SN tracking tension fracture system played an important role in controlling the structural geometry of rifted basin. In the period of fau
14、lt depression the majority of NNE, NNW and EW faults formed in the extending and decoupling action of early Crataceous along early fracture plane. Structural evolution stages of Changling and Shiwu fault depression are totally consist of rifting stage, depression stage and the stage of tectonic inve
15、rsion. In the period of rifting Changling fault depression developed syndepositional nomal faults which strikes are mainly NNE, NNW and EW with strongly extending movement, and the activity of NW trending fault was extremely obvious in Huoshiling period, which probably was caused by the sinnistral s
16、trike slip of NNE basement faults; and in the period of Shahejie and Yingcheng the movement turned to NWW-SEE trending extending and decoupling, the extension rate of crust exceeded 20% and the average amount of extension was 15km. So the distribution of volcanic rocks was obviously controlled by deep faults. (2)Fault depression layers of Changling and Shiwu Depression were composed of Huoshiling (K1h), Shahezi (K1sh), Yingcheng (K1yc) and Denglouku formation (K1d), which 成都理工大学博士学位论
