Application of laser in-situ U-Pb dating to reconstruct the reservoir porosity evolution in the Cambrian Xiaoerbulake Formation, Tarim Basin 激光铀铅同位素定年技术在塔里木盆地肖尔布拉克组储层孔隙演化研究中的应用

Q1 Earth and Planetary Sciences 石油与天然气地质 Pub Date : 2020-02-28 DOI:10.11743/OGG20200104
Huang Anping, Anjiang Shen, Feng Liang, Jian-xin Zhao, Luo Xianying, Yue‐xing Feng, T. Cheng
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引用次数: 5

摘要

激光烧蚀(LA)多收集器电感耦合等离子体质谱(MC-ICP-MS)技术,由中国石油天然气集团碳酸盐岩储层重点实验室和昆士兰大学地球与环境科学学院共同开发,具有巨大的潜力,可以克服传统同位素稀释(ID)方法无法解决的古代海相碳酸盐岩中直径相对较小的超低浓度U-Pb矿物的采样和测年困难。将LA与MC-ICP-MS相结合的原位分析方法应用于塔里木盆地寒武系小二布拉克储层的成岩作用和孔隙演化研究,认为寒武系小二湖组白云岩储层埋藏成岩史主要表现为岩溶作用下原生孔隙和溶洞的充填。洞穴充填主要发生在加里东期早期,基质孔隙充填主要发生于加里东期中期和印支期。加里东期和印支期活动的裂缝是热液运移的通道,为胶结溶洞和孔隙提供了物质;残余溶洞、孔隙和裂缝为主要储集空间,未充填白云岩、方解石和硅质胶结物。从而确立了塔里木盆地寒武系小二布拉克组白云岩储层的成岩作用和孔隙度演化史。上述认识与研究区的构造埋藏史和盆地热史高度一致,可作为确定古海相碳酸盐岩储层胶结物年代、重建成岩作用和孔隙演化史、评价古海相碳酸盐岩生烃前有效孔隙的有效工具。
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Application of laser in-situ U-Pb dating to reconstruct the reservoir porosity evolution in the Cambrian Xiaoerbulake Formation, Tarim Basin 激光铀铅同位素定年技术在塔里木盆地肖尔布拉克组储层孔隙演化研究中的应用
The Laser Ablation (LA)Multi-Collector Inductively Coupled Plasma Mass Spectrometry (MC-ICP-MS) technique, co-developed by the CNPC Key Laboratory of Carbonate Reservoir and School of Earth and Environmental Sciences, The University of Queensland, has huge potential to overcome the difficulty in sampling and dating ultra-low concentration U-Pb minerals in ancient marine carbonates that are relatively smaller in diameter in diagenetic fabric, which was untenable by the conventional isotope dilution (ID) methods. The in-situ analysis by LA combined with MC-ICP-MS has been applied to the study on the diagenesis and porosity evolution of the Cambrian Xiaoerbulake reservoir, Tarim Basin.By dating of dolomitic and calcitic cements from filled vugs, matrix pores and fractures in different stages, we suggested that the burial diagenetic history of dolomite reservoir in the Cambrian Xiaoerblake Formation mainly features the filling of primary pores and vugs generated under karstification. The filling of vugs mainly occurred during the early Caledonian, while the filling of matrix pores mainly occurred in the middle Caledonian and Indosinian. Fractures activated during the Caledonian and Indosinian served as the channels for hydrothermal migration, providing the materials to cement the vugs and pores; while the residual vugs, pores and fractures with no filling of dolomite, calcite and siliceous cements were the main reservoir space. The diagenesis and porosity evolution history of dolomite reservoir in the Cambrian Xiaoerbulake Formation, Tarim Basin, was hence established. The understandings mentioned above are highly consistent with the tectonic-burial history and basin thermal history in the study area, which may be effective tools to date the ancient marine carbonate reservoir cements, to reconstruct diagenesis and porosity evolution history, and to evaluate effective pores before hydrocarbon migration in the ancient marine carbonates.
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来源期刊
石油与天然气地质
石油与天然气地质 Earth and Planetary Sciences-Geology
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