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1、成都理工大学硕士学位论文塘古巴斯坳陷奥陶系烃源岩分面研究姓名:洪才均申请学位级别:硕士专业:矿产普查与勘探指导教师:徐国强20100501摘 要 I 塘古巴斯坳陷奥陶系烃源岩分布研究塘古巴斯坳陷奥陶系烃源岩分布研究 作者简介:洪才均,男,1984 年 5 月生,师从成都理工大学徐国强教授,2010 年 6 月毕业于成都理工大学矿产普查与勘探专业,获得工学硕士学位。 摘摘 要要 塘古巴斯坳陷位于塔里木盆地中央隆起带塔中低凸起与塔南隆起之间, 面积2 万 km2。奥陶系是塔里木盆地主要含油气层系,也是塔里木盆地主要的构成层序, 研究区塘古巴斯坳陷及邻区奥陶系主要由浅水台地相碳酸盐岩建造以及碎屑岩组
2、成,前期的勘探实践证明,塔中南坡是否发育下古生界烃源岩已经成为制约该区油气勘探部署的关键问题。 本次研究范围以塘古巴斯坳陷为中心,涵盖和田、塔中、满加尔等周缘部分地区。根据相序法,利用露头和钻井资料划分沉积旋回和层序,编制海平面相对升降变化曲线,在井、露头约束条件下进行地震层序划分对比,并在地震层序解释基础上,编制等时地层单元地层等厚度图、进行沉积盆地原型恢复、根据钻井资料、局限台地坡折至凹陷区内充填地层厚度恢复古水深,开展沉积环境分析、沉积速率分析以及地震相分析,建立了塘古巴斯坳陷奥陶系烃源岩发育分布模式,并以中上奥陶统烃源岩发育层系为主要研究目的层,进行沉积速率与 TOC含量分析,取得以下
3、主要成果与认识: (1)通过沉积盆地原型恢复,认为塘古巴斯坳陷是早奥陶世末期形成的前陆凹陷,早中奥陶世为开阔台地相沉积环境,晚奥陶世为前陆深水凹陷。 (2)根据塘古巴斯坳陷结束期层序 S13 在塔中局限台地南北凹陷充填沉积的特征,根据台地大致为海平面、充填沉积地层厚度恢复了古水深图,认为塘古巴斯坳陷在晚奥陶世均处于半深水- 深水沉积环境,研究区及邻区主要发育台内凹陷(满加尔) 、前陆深水凹陷(塘古巴斯坳陷) 、局限台地(塔中) ,广海陆棚(混积)等沉积环境。 (3)利用塔中 29 井、塘参 1 井各准层序组厚度与 TOC 含量关系,得出准层序厚度与 TOC 含量成反比关系,反应在研究区沉积速率
4、对烃源岩发育有明显控制作用。 (4)通过地震相分析揭示了中及上奥陶统烃源岩发育的可能相带,主要是塔中南坡- 塘古巴斯坳陷北部以及满加尔凹陷的弱- 中振幅连续反射相。 (5)根据古水深图确定半深水- 深水区范围,再根据从塘参 1 井和塔中 29井厚度与 TOC 关系分析得到函数,利用 S10、S11 的地层厚度、TOC 平均值,成都理工大学硕士学位论文 II 对三个层序 TOC 分布作了两种推算,塘参 1 井的 TOC 值岩心、岩屑样品所测试数据有很大差距, 认为露头约束方法更为可信, 塘参 1 井岩心测试数据较为可信。 (6)塘古巴斯坳陷上奥陶统的主要沉积物源来自凹陷东南,离物源较远的西北角即
5、塔中局限台地中西端坡折带以南斜坡、塘北 2-中 3 井一个圆弧的以北地区为中- 差烃源岩发育分布区;满加尔凹陷在塔中 12 井往北均为较好烃源岩发育区。 关键词:塘古巴斯坳陷 奥陶系 古水深 烃源岩分布Abstract III Study on distribution of Source Rock of Ordovician in Tanggubasi Sag and Its Surrounding Region Int Introduction of the author: HongCai- jun, male, was born in May, 1984 whose tutor was
6、Professor Xuguoqiang. He graduated from Chengdu University of Technology in Mineral Resource Prospecting and Exploration major and was granted the Master Degree in June, 2010. Abstract Tanggubasi Sag lies between Tazhong uplift and Tanan uplift, in Tarim Basin, is about 20 thousands km2. Ordovician
7、system is main hydrocarbon reservoir in Tarim Basin,and it is main constituent sequence also. Ordovician system of Tanggubasi Sag and its Surrounding Region is composed of shallow water tablelands carbonate rock and clastic rock . Prospect of earlier days approves, this area have under Palaeozoic er
8、athems Source rock or not will restraint oil and gas exploration activity. This researchs focus is Tanggubasi Sag, contains hetian, tazhong, manjiaer surrounding region. On the base of phase sequence method, by use of outcrop exploration, and wells data, the seismic sequences are divided and correla
9、ted, and on the base of seismic sequence interpretation, we compile strata depositional isopach map, original basin section, and use wells data, filled formation thickness of slope break to depressed area, compiles palaeobathymetric map, analyzes depositional environment , rate of sedimentation and
10、seismic facies, builds develop model of source rock of Ordovician in Tanggubasi Sag, and for the purpose to Middle- Upper Ordovicians source rock, analyzes its rate of sedimentation and content of TOC, The results and cognitions are as follows: (1) Through original basin, Tanggubasi Sag is foreland
11、sag which formed in the end of Early Ordovician. During Early Ordovician, it is open platform, and Late Ordovician is foreland deep water sag. (2) Through filled formation thickness of slope break to depressed area of S13, and platform is sea level possibly, compiles palaeobathymetric map. During La
12、te Ordovician, Tanggubasi Sag is half deep water- deep water, there are sag in the platform, foreland deep water sag, restricted platform, open sea shelf facies. (3) Use sequence thickness and content of TOC of TZ29, TC1, sequence 成都理工大学硕士学位论文 IV thickness and content of toc is inverse relation, rat
13、e of sedimentation controls source of rock. (4) Seismic analyze disclosure the probably facies belt of source rock in Middle- Upper Ordovician is weak- middle amplitude continuously seismic facies in the south of tazhong to north of Tanggubasi sag and manjiaer sag. (5) Use the palaeobathymetric map
14、to certain the deep water area, and sequence thickness and content of TOC of TC1, TZ29, sequence thickness of S10, S11, obtains the TOCs planimetric map. The TOC of rock core and debris of TC1 is different obviously, so we use two methods to deduce the source rock, and judge that the method of crop
15、restrict is feasible, the rock cores test resul is correct. (6) The main depositional substance of Tanggubasi sag Middle- Upper Ordovician is from east by south of sag. Middle- west of Tazhong restricted platforms gradient break to south slope,the area of TB2- Z3 to north is middle- bad source rock.
16、 TZ12 to north in manjiaer sag is good to source rock. Keywords: Tanggubasi sag Ordovician Palaeobathymetric Source rock distribution 独创性声明 本人声明所呈交的学位论文是本人在导师指导下进行的研究工作及取得的研究成果。据我所知,除了文中特别加以标注和致谢的地方外,论文中不包含其他人已经发表或撰写过的研究成果, 也不包含为获得 成都理工大学 或其他教育机构的学位或证书而使用过的材料。 与我一同工作的同志对本研究所做的任何贡献均已在论文中作了明确的说明并表示谢意。 学位论文作者签名:洪才均 2010年 5月 31日 学位论文版权使用授权书 本学位论文作者完全了解 成都理工大学 有关保留、 使用学位论文的规定,有权保留并向国家有关部门或机构送交论文的复印件和磁盘, 允许论文被查阅和借阅。本人授权 成都理工大学 可以将学位论文的全部或部分内容编入有关数据库进行检索,可以采用
