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Multiple source rock assemblages were deposited in the sedimentary provinces in South China in geologic history,and some of them were destructed by and some survived against multiple tectonic movements.Therefore,multiple sources,mixed sources,and uneven distribution of sources occurred in the marine sedimentary basins in South China during the late stage of hydrocarbon pooling.Epidiagenesis of the marine carbonate reservoirs and its modification to reservoir poroperm characteristics determined the formation and the scale of natural gas pools.The exploration practices show that the large to medium gas fields mainly occur in areas with high-quality reservoirs.Detailed study of the paleo-oil accumulations and typical oil and gas reservoirs reveals that the basins experienced multiphase superimposition and modification,leading to the distribution of the Paleozoic paleo-oil accumulations and bitumen in the peripheral areas.The phenomenon that oil and gas production concentrates in the Sichuan basin indicates that the overall sealing conditions of a basin determine the oil/gas potentials and the scale of oil and gas production.This is a critical factor controlling the accumulation and distribution of gas in the marine sequences in South China.The early oil and gas pools in the Yangtze platform left billions of bitumen in the peripheral areas due to the destruction of seals.Since the Himalayan,"late-generation and late-accumulation" gas pools represented by the gas pools in the Sichuan (四川) basin were formed in the marine sedimentary sequences in South China as a result of the change of the sealing conditions.Current gas discoveries appear to be "paleo-generation and paleo-accumulation" gas pools but actually are "late-generation and late-accumulation" gas pools.These patterns of hydrocarbon pooling clearly depict themselves in western Sichuan basin and Weiyuan (威远)gas field.It is revealed that the gas pools in the Sichuan basin were mainly formed as a result of hydrocarbon phase change (thermal cracking of oil to gas),miscible migration,and dynamic equilibration since the Himalayan.A large number of gas pools were formed in the Himalayan and the gas pools in the marine sequences are characterized by late pooling; this kind of gas fields/pools are controlled by:(1) effectiveness of modification and superimposition of the marine basins,(2) effectiveness of the source rocks,(3) effectiveness of the overall preservation conditions,and (4) effectiveness of plays. 相似文献
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笔者建立了中扬子区寒武系层序地层格架,研究了中扬子区层序界面和体系域特点,分析了中扬子区层序样式的基本类型及其特征。共划分出2个二级层序、14个三级层序。寒武系下统划分了1个二级层序(SS3)、6个三级层序(SQ1—SQ6),平均延时约5.0Ma;体系域颜色普遍较深,泥质含量较高,是一套良好的烃源岩。寒武系中上统划分出1个二级层序(SS4)、8个三级层序(SQ7—SQ14),平均延时约2.9Ma;体系域颜色普遍较浅,云质含量较高,是一套良好的储集层。总体上H型样式为主,T型样式和TH型样式数量相当,反映寒武纪水体中等。二级层序体系域和三级层序体系域都表现出明显的南北向差异性。 相似文献
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板内造陆变形以平行不整合为标志,它是一个容易失稳的界面,后期构造变动中常常转化成拆离面。中浅构造层次形成脆性拆离断层(拆离带);中深构造层次则形成韧性剪切断层(韧性剪切带)。板内造陆变形及其后期演化改善了储集岩性能,影响了油气运移和聚集。后期转化还可以使油气重新运移,也可形成新的油气圈闭,同时深刻影响油气演化,有利于再次生油气。 相似文献
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四川盆地川东南地区“源—盖”匹配关系研究 总被引:4,自引:0,他引:4
采用重建烃源岩生烃史("源")和泥质盖层排替压力演化史("盖")的方法,研究源—盖动态匹配关系,以确定泥质盖层封闭动态有效性。针对川东南地区丁山1井泥质盖层封闭性的研究结果表明:川东南地区寒武系泥质盖层不仅封闭性能形成时间早(早于震旦系烃源岩生烃时间),而且排替压力大(最大排替压力高达26MPa),封闭能力强,具备封闭超高压气藏的能力,"源—盖"匹配关系好,对下伏烃源岩具备有效封盖作用;志留系泥质盖层虽然现今排替压力较大,但封闭性形成时间晚于下伏寒武系烃源岩生烃时间,"源—盖"匹配关系不理想,有效封闭性较差;二叠系和三叠系泥质盖层封闭性形成时间分别早于志留系和二叠系烃源岩的生烃时间,具备有效封闭能力,且最大排替压力都大于10MPa,可封闭高压气藏。 相似文献
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为了解决各向异性下的流体识别问题,将纵波各向异性裂缝预测以及Russell的流体因子融合到直角坐标系中,提出了一种能够同时检测裂缝发育情况以及流体性质的新的裂缝流体因子(Factor of Fluid-filled Fracture,FFF),并通过一组岩性参数检验了裂缝流体因子在裂缝预测及流体识别中的有效性.在理论研究的基础上,选取松辽盆地某地区的火成岩裂缝及流体识别研究为应用实例.通过与测井流体及裂缝信息的对比验证,裂缝流体因子能够较为准确地预测研究区裂缝和流体的分布情况,且裂缝流体因子在单井上的计算结果与单井含气饱和度吻合度较高.此外,根据实际应用效果,指出裂缝流体因子在应用中的局限性:裂缝流体因子在平面成图时受地层厚度影响较大,且无法预测裂缝方向. 相似文献
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采用磷灰石裂变径迹年龄空间分布特征定性分析与径迹长度分布数据定量模拟相结合,约束了中上扬子地区的抬升剥蚀时限.江汉盆地在157~97Ma和10 Ma以来发生了两期大规模抬升剥蚀;湘鄂西-武陵地区、黔中隆起自137Ma开始持续抬升剥蚀;鄂西渝东、川东褶皱带从97 Ma开始持续抬升剥蚀;川东北和川中地区于56 Ma才开始遭受抬升剥蚀;川西-滇西地区则自23 Ma以来经历了较大规模的抬升剥蚀.印支期以来,中上扬子不同地区抬升剥蚀开始的时间存在明显差异性,总体上由东往西逐渐变晚.齐岳山断裂带以东,大规模抬升剥蚀始于中燕山期(J3-K1);齐岳山断裂与华蓥山断裂带之间的川东高陡背斜带抬升剥蚀始于晚燕山期(K2);华蓥山断裂与龙泉山断裂之间的川中和缓褶皱带晚期抬升剥蚀始于喜马拉雅早期(E);龙泉山断裂带以西的川西凹陷晚期抬升剥蚀始于喜马拉雅晚期(N). 相似文献
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南方志留系碎屑矿物热年代学分析及其地质意义 总被引:7,自引:1,他引:6
碎屑矿物热年代学是恢复多旋回沉积盆地构造演化的有利手段。本文通过对南方5个地区志留系的碎屑锆石和磷灰石的裂变径迹年龄和热历史模拟研究认识到,印支期以来研究区志留系至少经历了3次区域性的岩石抬升、冷却事件,即早中三叠世(235~250 Ma)、晚侏罗世—早白垩世(110~140 Ma)和始新世—渐新世(45~25 Ma)。其中晚侏罗世—早白垩世和始新世—渐新世是志留系后期改造的两个关键时期,前者是志留系烃源岩生烃基本停止的时期,后者是志留系抬升到地表,油气盖层受到广泛破坏的时期。 相似文献