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1.
莺歌海盆地泥-流体底辟带热流体活动对天然气运聚成藏的控制作用 总被引:16,自引:2,他引:14
莺歌海盆地是一个在新生代发育起来的南海北部被动大陆边缘的年轻高热盆地, 其高地温场及高大地热流值主要集中于盆地中部坳陷区的泥-流体底辟构造带.因此, 底辟发育演化与热流体上侵活动, 尤其是上新世晚期的热流体活动控制了天然气及CO2的运聚与成藏特征.同时, 由于热流体上侵活动的分区分块与分层的局部性侵入, 导致了壳源型和壳幔混合型CO2及烃类气运聚富集的分区分块与分层的局部富集特点.总之, 泥-流体底辟作用中热流体上侵活动是控制天然气尤其是CO2运聚乃至富集成藏的主导因素, 而壳源型和壳幔混合型CO2等非烃气与烃类气运聚成藏时间及运聚通道的差异, 则是控制和制约烃类气与非烃气差异运聚及富集成藏的关键.根据本区CO2等非烃气与烃类气的地化特征及运聚规律, 可以分析和预测其运聚成藏模式, 为天然气勘探部署提供依据. 相似文献
2.
莺歌海盆地泥-流体底辟构造成因机制与天然气运聚 总被引:6,自引:2,他引:4
莺歌海盆地的泥 -流体底辟构造发育演化是区域构造应力场变化和超压体系形成演化的结果。与盆地构造类型密切相关的不均衡压实和热作用引起盆地超压体系的发育 ,而区域构造应力场变化则导致盆地中中新世以泥底辟作用为主 ,晚中新世—第四纪以流体底辟作用为主 ,其中 ,早期泥底辟阶段形成的构造形态对晚期流体底辟作用有显著的控制作用。在莺歌海组浅层底辟圈闭中 ,圈闭形成期与中新统气源岩生烃过程的匹配是造成含不同天然气组分的流体发生幕式充注的主要原因 相似文献
3.
火山、泥火山/泥底辟及含气陷阱这些特殊的地质体,不仅是揭示地球深部构造运动的窗口和地球深部流体活动特点的表征,而且其与油气运聚关系密切,具有非常重要的油气地质意义。火山与泥火山/泥底辟的主要差异及区别是所形成的物质基础及源动力不同,前者主要反映地壳深部地球动力学过程,其物资基础来源于火山幔源活动上侵和喷发的岩浆物资;后者则是在结晶基底以上的沉积盆地中,由快速沉积充填的欠压实泥页岩发生塑性流动而产生底辟上拱所形成的产物,其物质基础为巨厚欠压实泥页岩。含气陷阱则为气侵或富含气地层所形成的地震反射畸变之痕迹。火山、泥火山/泥底辟发育演化及展布与油气运聚成藏存在明显的成因联系和耦合关系,且控制和制约了沉积盆地中油气分布与聚集。 相似文献
4.
从CO2的成因、充注期次以及不同底辟发育特征等出发,对不同类型底辟之上的CO2分布特征及其原因进行了分析。研究认为:浅层二氧化碳主要来源于壳源碳酸盐岩的高温分解,其分布差异的主要原因是流体组成、充注期次的不同以及底辟活动强度的差异。在低幅度弱能量底辟带,二氧化碳主要富集在烃类气储层的下部。在高幅度中等能量底辟带,二氧化碳呈现明显的分块分层特征:在断裂的同一侧,浅层富烃,深层富二氧化碳;断裂上盘相对富烃,断裂下盘相对富二氧化碳;同一气层内部,靠近断裂富二氧化碳,远离断裂富烃。在喷口型强能量底辟带,二氧化碳的分布没有明显的规律性。研究还表明,CO2分布深度与水中CO2溶解度有关,深层地层水中的CO2溶解度很大,游离态的CO2大量出现的可能性较小。 相似文献
5.
莺歌海盆地泥底辟发育演化与油气运聚机制 总被引:35,自引:0,他引:35
第三系泥底辟是莺歌海盆地非常独特的地质体,其发育演化与烃类及流体的生、排、运、聚以及塑性泥的流动,均存在直接的成因联系。泥底辟是一个独立、完整的油气生、运、聚体系,或即油气运聚的封闭箱或封存箱,其烃类及流体运聚和塑性泥质物的流动均与该封闭体系(封闭箱)顶封闭层的形成与破坏密切相关,亦即顶封层的破裂刺穿与保存完整与否,直接控制了烃类及流体的运聚机制及模式和塑性泥的流动方式与形态特征。籍此,总结出两种不同的油气运聚机制及模式。 相似文献
6.
莺歌海盆地天然气底辟优势聚集规律及勘探意义 总被引:1,自引:0,他引:1
莺歌海盆地的高温高压环境、构造断裂不发育、泥-流体底辟发育及热流体活动强烈等独特的地质条件,决定了伸展-转换盆地的油气聚集规律与断陷盆地复式油气聚集具有明显的差异性。在分析天然气成藏主控因素的基础上,以天然气藏形成到天然气分布为主线,提出莺歌海盆地的天然气底辟优势聚集规律:即宏观上天然气聚集在盆地内成藏条件配置好的中央凹陷带底辟区,微观上天然气则聚集在底辟成藏条件配置好的顶部、两侧及周缘的构造和岩性圈闭中。天然气底辟优势聚集规律突破了以往紧邻凹陷带的斜坡带是油气聚集最有利区带的传统观点,使人们认识到只有符合优势聚集规律的构造带和圈闭才可能聚集天然气,这对于调整伸展-转换型盆地的油气勘探思路,针对性地解决莺歌海盆地勘探中存在的问题,进一步指明有利勘探方向具有重要的指导作用。 相似文献
7.
莺歌海盆地发育多期泥.流体底辟.底辟活动的多期性造成底辟区断裂和裂隙不断开启,输导天然气从深部向浅部垂向运移,充注底辟两侧及周缘的砂体,在剖面上构成树形样式,称之为底辟树型输导系统.底辟树型输导系统连通了浅层和中一深层的构造和岩性圈闭,是莺歌海盆地中央凹陷带构造及岩性天然气藏成藏的主要输导通道和样式,其相应运移方式分为能量保持型和能量释放型两种.本文提出了莺歌海盆地中央凹陷带发育底辟树型输导系统及其运移的地质模型,泥-流体底辟活动控制下的底辟树型输导系统及其运移模型是对伸展-转换盆地油气成藏理论的发展和补充. 相似文献
8.
基于丽水凹陷钻井和地震资料,综合天然气地球化学参数、基底断裂和岩浆底辟发育特征等,研究丽水凹陷CO2的分布特征及其成藏主控因素.研究结果表明,丽水凹陷CO2纵向上主要分布在灵峰组、明月峰组下段及元古界基底片麻岩中,不同层位CO2的含量差别很大;平面上,温州13-1、丽水35-7和南平5-2 CO2气藏均位于岩浆底辟体之上或者附近,同时周围亦发育断层,而丽水36-1高含CO2气藏和LF-1井含CO2气藏周围底辟不发育,均紧邻灵峰凸起西侧的控洼断裂.丽水凹陷幔源CO2成藏主要受早中新世和晚中新世两期火山岩浆活动的影响,这两期火山活动将幔源CO2带到地壳浅层,通过砂体侧向输导进入有利圈闭聚集成藏. 相似文献
9.
10.
莺歌海盆地东方1-1气田天然气来源与运聚模式 总被引:6,自引:2,他引:4
莺歌海盆地东方 1-1气田以其埋藏浅、天然气成份变化大、气藏位于底辟构造带等特征一直是研究的热点。长期以来对其气源、充注历史等问题存在不少疑问。该研究应用生烃动力学与碳同位素动力学方法通过对典型烃源岩的研究,建立起了烃源岩在地质条件下的生气模式与碳同位素分馏模式。结合天然气地质地球化学特征,研究认为:东方 1-1气田烃类气体主要来源于梅山组烃源岩,非烃气体来源于三亚组或更深部含钙地层;天然气藏形成相当晚,与底辟作用有关,烃类气体主要充注时间在 1.3Ma以后,CO2气体主要充注时间在 0.1Ma左右;天然气成份的非均一性主要受控于底辟断裂活动所控制的幕式充注。 相似文献
11.
Lijie Wang Jitian Zhu Haiteng Zhuo Zhipeng Sun Aixue Song 《International Geology Review》2020,62(7-8):1108-1130
ABSTRACT Understanding fluid flow structures in a rifted basin may enhance our knowledge of their origination and evolution. Through geochemical analysis and seismic interpretation, different fluid flow features are identified in the central depression of Qiongdongnan basin, northern South China Sea. These structures include mud diapir, gas chimney, hydrothermal pipes, faults, blowout pipes, and associated extrusions. Mud diapirs are primarily located on the slope belts, whereas gas chimneys are on the basement highs in the southwest of the study area. Their distribution appears closely controlled by tectonic stress field and overpressure, the later is caused by hydrocarbon generation and compaction disequilibrium. High sediment overloading, weak post-rift tectonic activity, and high average geothermal gradient may contribute to the compaction disequilibrium. The occurrence of gas chimneys on the basement high suggests that lateral transportation and relief of overpressure is a significant factor. Distribution of broad hydrothermal pipes is related with the thinning continental crust and pre-existing boundary faults in the central depression. They are probably attributed to intruded sills dissolution and were caused by hydrothermal fluids vertically. Geochemical data from gas reservoirs analysis indicates that mud diapirs and gas chimneys are critical pathways for thermogenic gases, whereas hydrothermal pipes and part of the faults may act as pathways of both thermogenic and inorganic gases. The blowout pipes mainly occur in the northwestern central depression near the continental slope, where fluid flows ascend gradually from a series of Pliocene-current prograding wedge-formed units with a hydraulic fracture in shallow. Hundreds of seafloor pockmarks and mounds associated with blowout pipes located above the NE-SW elongated Pliocene-Quaternary slope-break belts. These extrusive structures indicate that fluids ascend through blowout pipes and were expelled at the present seabed. Our results indicate that fluid flow structures are probably responsible for fluid activities and must be taken into account when assessing the hydrocarbon potential, geologic hazard, and benthic ecosystem. 相似文献
12.
In order to identify the mud diapirs and mud volcanoes off SW Taiwan, we have examined ∼1500 km long MCS profiles and related marine geophysical data. Our results show ten quasi-linear mud diapirs, oriented NNE–SSW to N–S directions. Thirteen mud volcanoes are identified from the multibeam bathymetric data. These mud volcanoes generally occur on tops of the diapiric structures. Moreover, the active mud flow tracks out of mud volcanoes MV1, MV3 and MV6 are observed through the high backscatter intensity stripes on the sidescan sonar images. The heights of the cone-shaped mud volcanoes range from 65 m to 345 m, and the diameters at base from 680 m to 4100 m. These mud volcanoes have abrupt slopes between 5.3° and 13.6°, implying the mudflow is active and highly viscous. In contrast, the flat crests of mud volcanoes are due to relative lower-viscosity flows. The larger cone-shaped mud volcanoes located at deeper water depths could be related to a longer eruption history. The formation of mud diapirs and volcanoes in the study area are ascribed to the overpressure in sedimentary layers, compressional tectonic forces and gas-bearing fluids. Especially, the gas-bearing fluid plays an important role in enhancing the intrusion after the diapirism as a large amount of gas expulsions is observed. The morphology of the upper Kaoping Slope is mainly controlled by mud diapiric intrusions. 相似文献
13.
The locations and information about the sizes of 61 mud volcanoes on the Italian mainland and Sicily, plus an area of mud diapirism in the Italian Adriatic Sea, are presented. Data about the emission products are also provided. The majority of these mud volcanoes are found where thick sedimentary sequences occur within a zone of tectonic compression associated with local plate tectonic activity: the movement of the Adriatic microplate between the converging African and Eurasian plates. The principal gas emitted by these mud volcanoes is methane, which probably originates from deep within the sediments. Other mud volcanoes, associated with igneous volcanism, produce mainly carbon dioxide. The mud diapirs in the Adriatic Sea are thought to form as a result of the mobilization of shallow gassy sediments. It has been shown that radon emissions from mud volcanoes are indicators of forthcoming earthquake events. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献
14.
泥火山的全球分布和研究进展 总被引:1,自引:0,他引:1
本文系统介绍了泥火山的全球分布特征、分类、成矿、成因特征和机制、生物地球化学和地质灾害。泥火山是盆地地层深部含水的泥质物在高压作用下喷出地表形成的锥状沉积体,主要发育在沉积速率较快和有横向挤压构造作用的盆地中。全球陆地有超过40个泥火山发育区,海底有超过20个泥火山发育区,每个发育区有几座到200多座泥火山不等,陆地和浅海区共有2000多个泥火山。各地泥火山有不同的喷发周期,喷发物也各有不同的形态、成分、来源和年龄。尽管泥火山的成因机制尚颇有争议,但较快的沉积速率和活动大陆边缘横向构造挤压作用无疑是两个最为关键的因素。由于泥火山对大地构造属性、油气勘探、生物地球化学、地质灾害和全球气候变化等问题的研究有着重要的意义,已逐渐成为地球科学一个新的研究热点。 相似文献
15.
V. N. Kholodov 《Lithology and Mineral Resources》2013,48(5):398-415
Analysis of the distribution of salt diapirs and mud volcanoes in the Earth’s continental block reveals their frequent spatial coincidence. These structures are also characterized by similar morphological and geological structures indicating their elisional origin. The appearance of zones with anomalously high formation pressures (AHFP) is the main factor responsible for the development of mud volcanoes and salt diapirs. The anomalously high formation pressure reflects transformation of the phase composition of salts, clay minerals, and dispersed organic matter under the influence of thermolysis and thermocatalysis in closed physicochemical systems. 相似文献
16.
晚期泥底辟控制作用导致神狐海域SH5钻位未获水合物的分析 总被引:1,自引:0,他引:1
海底泥底辟构造与天然气水合物成藏关系密切,泥底辟既能为水合物提供充分的气源物质,同时又能促使地层温度场改变进而影响水合物成藏稳定性。南海北部神狐海域SH5站位虽然BSR明显,但钻探证实不存在天然气水合物。该钻位温度剖面异常高,温度场上移,同时在其下伏地层中发现泥底辟构造和裂隙通道。根据上述事实并结合泥底辟发育各个阶段中的特点,认为泥底辟构造对天然气水合物成藏具有控制作用。泥底辟发育早期和中期阶段,低热导率和低热量有机气体有利于天然气水合物生成;而在晚期阶段,高热量液体上侵稳定带底界,导致水合物分解迁移。SH5站位很可能由于受到处于晚期阶段的泥底辟上侵而未能获取天然气水合物。 相似文献
17.
Sbastien Blanchard Edward J. Matheson Christopher R. Fielding James L. Best Alexander B. Bryk Kalin J. Howell Charles C. Monson Gosia Mahoney Jeffrey Peakall 《Sedimentology》2019,66(1):329-361
Delta fronts are often characterized by high rates of sediment supply that result in unstable slopes and a wide variety of soft‐sediment deformation, including the formation of overpressured and mobile muds that may flow plastically during early burial, potentially forming mud diapirs. The coastal cliffs of County Clare, western Ireland, expose Pennsylvanian (Namurian) delta‐front deposits of the Shannon Basin at large scale and in three dimensions. These deposits include decametre‐scale, internally chaotic mudstone masses that clearly impact the surrounding sedimentary strata. Evidence indicates that these were true mud (unlithified sediment) diapirs that pierced overlying strata. This study documents a well‐exposed ca 20 m tall mud diapir and its impact on the surrounding mouth‐bar deposits of the Tullig Cyclothem. A synsedimentary fault and associated rollover dome, evident from stratal thicknesses and the dip of the beds, define one edge of the diapir. These features are interpreted as recording the reactive rise of the mud diapir in response to extensional faulting along its margin. Above the diapir, heterolithic sandstones and siltstones contain evidence for the creation of localized accommodation, suggesting synsedimentary filling, tilting and erosion of a shallow sag basin accommodated by the progressive collapse of the diapir. Two other diapirs are investigated using three‐dimensional models built from ‘structure from motion’ drone imagery. Both diapirs are interpreted to have grown predominantly through passive rise (downbuilding). Stratal relationships for all three diapirs indicate that they were uncompacted and fluid‐rich mud beds that became mobilized through soft‐sediment deformation during early burial (i.e. <50 m, likely <10 m depth). Each diapir locally controlled the stratigraphic architecture in the shallow subsurface and potentially influenced local palaeocurrents on the delta. The mud diapirs studied herein are distinct from deeper ‘shale diapirs’ that have been inferred from seismic sections worldwide, now largely disputed. 相似文献
18.
Mud volcanoes have provided much meaningful information about the deep Earth and the recent crustal and neotectonic movements in an area for over 200 years. However, the triggering mechanisms have puzzled geologists for a long time. This study investigated the factors controlling mud volcano activity and the triggering mechanisms of mud volcano eruptions on the southern margin of the Junggar Basin, NW China. The Baiyanggou, Aiqigou and Dushanzi mud volcanoes are all located along the Dushanzi Anticline, which belongs to the third anticline belt on the southern margin of the basin. The extensive, thick mudstone at depth provides a wealth of material for the formation of mud volcanoes. Simultaneously, the overpressure serves as the driving force for the eruption of the mud volcanoes. The torsional–compressional stress field created by the collision between the Indian and Eurasian plates not only enhanced the abnormal formational pressure in the region but also lead to the development of extensional faults in the core of the Dushanzi Anticline, which served as the conduits for the mud volcanoes. The continuous collision between the Indian and Eurasian plates and the regional torsional–compressional stress field may largely control the cyclical activity of the mud volcanoes and serve as their primary trigger mechanism. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
19.
《China Geology》2020,3(4):611-622
The Makran accretionary prism is located at the junction of the Eurasian Plate, Arabian Plate and Indian Plate and is rich in natural gas hydrate (NGH) resources. It consists of a narrow continental shelf, a broad continental slope, and a deformation front. The continental slope can be further divided into the upper slope, middle slope, and lower slope. There are three types of diapir structure in the accretionary prism, namely mud diapir, mud volcano, and gas chimney. (1) The mud diapirs can be grouped into two types, namely the ones with low arching amplitude and weak-medium activity energy and the ones with high arching amplitude and medium-strong activity energy. The mud diapirs increase from offshore areas towards onshore areas in general, while the ones favorable for the formation of NGH are mainly distributed on the middle slope in the central and western parts of the accretionary prism. (2) The mud volcanoes are mainly concentrated along the anticline ridges in the southern part of the lower slope and the deformation front. (3) The gas chimneys can be grouped into three types, which are located in piggyback basins, active anticline ridges, and inactive anticline ridges, respectively. They are mainly distributed on the middle slope in the central and western parts of the accretionary prism and most of them are accompanied with thrust faults. The gas chimneys located at different tectonic locations started to be active at different time and pierced different horizons. The mud diapirs, mud volcanoes, and gas chimneys and thrust faults serve as the main pathways of gas migration, and thus are the important factors that control the formation, accumulation, and distribution of NGH in the Makran accretionary prism. Mud diapir/gas chimney type hydrate develop in the middle slope, mud volcano type hydrate develop in the southern lower slope and the deformation front, and stepped accretionary prism type hydrate develop on the central and northern lower slope. The middle slope, lower slope and deformation front in the central and western parts of the Makran accretionary prism jointly constitute the NGH prospect area. 相似文献
20.
A.A. Feyzullayev 《Russian Geology and Geophysics》2013,54(2):200-205
The role of overpressures in thermochemical processes in the South Caspian basin is considered. The studies, which take the world experience into account, suggest that the South Caspian basin (mainly its deep-water part), as well as other basins with abnormally high fluid pressures, is characterized by retarded kerogen and oil cracking and reaction of clay-mineral transformation. These processes can be periodically intensified by the development of diapirs and mud volcanoes, which are centers of pulsed hydrocarbon discharge from the system. The conclusion is made that deeply buried deposits in basins with fluid overpressure are promising in terms of hydrocarbon pools. 相似文献