塔里木盆地古城地区下奥陶统孔隙型白云岩 储层成因及演化

作    者:张元高1,潘文庆1,唐雨2,3,张君龙1,辛朝坤4, 曹彦清1,柴绪兵4,齐昆博4,张云峰2,3
单    位:1 中国石油大庆油田公司勘探事业部;2西南石油大学地球科学与技术学院;3中国石油集团碳酸盐岩储层 重点实验室西南石油大学分室;4中国石油集团东方地球物理公司研究院大庆物探研究院
基金项目:
摘    要:
塔里木盆地古城地区下奥陶统蓬莱坝组—鹰山组下段的白云岩普遍发育孔隙,表现为针状溶孔及超晶粒孔 隙、晶间微孔,一般认为与白云石化作用相关。基于岩心、薄片观察,应用阴极发光、包裹体、稀土元素、碳氧同位素等 多种测试资料,对古城地区下奥陶统蓬莱坝组—鹰山组下段白云岩的成因、孔隙类型及成因、孔隙演化模式进行了分 析。研究认为:①蓬莱坝组—鹰山组下段白云岩成因以准同生期白云石化作用为主,部分叠加深部热液流体改造作 用,缝洞充填的白云石为热液成因。②超晶粒孔隙在宏观上表现为针状溶孔,发育于原始组构为颗粒的细—中晶白 云岩中,以中—粗粒内溶孔、铸模孔、粒间溶孔为主,多发育在单个颗粒滩旋回的中上部,形成于白云石化之前的准同 生期大气淡水选择性溶蚀;晶间微孔呈孤立状,连通性差,形成于准同生期白云石化作用。准同生期白云石化虽未直 接产生大量孔隙,但提供了抗压实的骨架,并阻碍了后期流体作用沉淀,是孔隙得以保存的关键。③古城地区蓬莱坝 组—鹰山组下段孔隙型白云岩储层呈多套薄层状,其厚度与规模受多期颗粒滩叠加及其暴露程度的综合影响。
关键词:白云岩;储层成因;孔隙演化;下奥陶统;古城地区;塔里木盆地

The genesis and evolution of porous-type dolomite reservoir of the Lower Ordovician in Gucheng area, Tarim Basin

Author's Name: ZHANG Yuangao1, PAN Wenqing1, TANG Yu2,3, ZHANG Junlong1, XIN Chaokun4, CAO Yanqing1, CHAI Xubing4, QI Kunbo4, ZHANG Yunfeng2,3
Institution: 
Abstract:
Pores are widely developed in the dolomite of the Lower Ordovician Penglaiba Formation-Yingshan Formation in the Gucheng area, Tarim Basin, which are characterized by needle-like dissolution pores, ultra-grain pores, intercrystalline micropores, etc., and are generally considered to be related to dolomitization. Based on data of core, thin section, cathodoluminescence, inclusions, rare earth elements, carbon and oxygen isotopes, etc., the genesis, pore types and genesis, pore evolution model of dolomite in the Lower Ordovician Penglaiba Formation-Yingshan Formation in Gucheng area are analyzed. The results show that:(1) The dolomite is dominated by penecontemporaneous dolomitization, partially superimposed by deep thermal fluid, and the dolomite filling in the fracture-vug is of hydrothermal origin. (2) The super grain pores are macroscopically needle-like dissolution pores, which are developed in fine-medium crystalline dolomite with original fabric as particles, mainly being medium-big pores, and are mostly developed in the middle and upper parts of a single grain shoals cycle. They are intragranular dissolution pores, mold pores and intergranular dissolution pores formed by selective dissolution of atmospheric fresh water in the penecontemporaneous period before dolomitization. The intercrystalline micropores are isolated with poor connectivity and are formed by penecontemporaneous dolomitization. Although the penecontemporaneous dolomitization did not directly produce a large number of pores, it provided a framework that resisted compaction and hindered the later fluid precipitation, which was the key to the preservation of pores. (3) The porous-type dolomite reservoir of Penglaiba Formation-the lower member of Yingshan Formation in Gucheng area of Tarim Basin is characterized by multiple sets of thin layers. Its thickness and scale are affected by the superposition of multi-stage granular shoals and their exposure degree. Exploration for this type of reservoir should be focus on the high areas of paleogeomorphology where are conducive places to the development of dolomitization granular shoals.
Keywords: dolomite; reservoir genesis; pore evolution; Lower Ordovician; Gucheng area; Tarim Basin
投稿时间: 2024-10-08  
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