共查询到20条相似文献,搜索用时 312 毫秒
1.
《海洋地质前沿》2017,(7)
以南海北部陆坡深水区琼东南盆地南部及珠江口盆地白云凹陷地质地震资料为基础,综合分析了泥底辟及气烟囱分布特征、发育演化特点、成因机制及其与油气和水合物成藏的关系。研究结果表明:泥底辟及气烟囱主要相对集中发育于凹陷中心或凹陷与凸起构造转换带,具有杂乱模糊地震反射特征且其模糊带形态各异;泥底辟及气烟囱展布规模大小不一,刺穿层位及幅度亦存在明显差异,且常常伴生强烈的热流体活动;泥底辟及气烟囱形成受控于沉积充填的巨厚欠压实泥页岩及其伴生的高温超压潜能、断层裂缝及构造薄弱带和有机质生烃增压等地质因素;泥底辟与气烟囱及其伴生断层裂隙是深部气源向浅层运移聚集的优势通道,通过这些流体运聚的高速通道,可以将其运移至上覆新近系储层和深水海底浅层高压低温稳定域,最终形成深部常规油气藏与海底浅层天然气水合物矿藏纵向叠置复式聚集的组合特点。 相似文献
2.
南海北部陆坡尖峰北盆地发育良好的气源及含气流体运聚疏导条件,具备较好的天然气水合物成藏潜力。为深入揭示尖峰北盆地水合物的成藏地质特征,基于高精度三维多道地震、浅地层剖面、多波束资料,深入分析了研究区深、浅部含气流体运聚疏导通道的地质、地球物理特征及对水合物成藏的控制作用。详细刻画了研究区深、浅部主要含气流体疏导通道的形态特征、发育规模、分布特点及对含气流体运聚的控制作用;重点剖析了深、浅部含气流体疏导通道组合特征及与水合物分布的耦合关系,最后结合水合物成藏地质条件,探讨了研究区水合物的成藏模式及影响因素。研究结果表明:尖峰北盆地的含气流体疏导通道主要以断裂型为主,亮点反射、反射空白带、BSR、声空白、声浑浊等含气流体运聚及水合物赋存指示标志多出现在沟源断层、古隆起伴生断层、多边形断层的顶部及邻近区域。以T3反射界面为界,其下伏沟源断层、古隆起伴生断层与上覆多边形断层构成的深、浅部含气流体疏导通道在垂向上相连通,沟通了深部气源层与浅层水合物稳定域,形成了"沟源断层—多边形断层"与"古隆起伴生断层—多边形断层"两种含气流体运移与水合物成藏模式。多边形断层的存在一方面促进了含气流体向浅层发生"中继疏导",控制水合物富集成藏;另一方面,在多边形断层密集发育段,强烈的流体充注会引起局部温压平衡破坏和水合物分解、渗漏,导致"断续型"BSR的产生。浅层气体的渗漏和扩散可以持续作用至海底并对海底形态进行改造,导致海底滑塌、断裂、麻坑、丘状体等一系列海底微地貌的形成。 相似文献
3.
南海北部陆坡深水区的浅层天然气藏是一种伴随天然气水合物的新型油气藏, 具有埋藏浅、规模大的特点, 其埋藏深度一般小于300m。浅层天然气藏由深部裂解气沿断裂上升被天然气水合物封盖而形成, 识别似海底反射(BSR)是寻找浅层天然气藏有效方法。浅层天然气藏的气源主要有热解气、生物气和混合气, 陆坡张性断裂是气体运移的主要通道, 水合物下部的砂层是浅层天然气藏的主要储集层, 水合物层则是封盖层。从南海发现的天然气水合物分布特征看, 浅层天然气藏在陆坡深水区广泛分布且气藏厚度大, 潜在资源量非常可观, 是一种新型的开采成本相对低廉的油气藏。 相似文献
4.
西沙海槽潜在天然气水合物成因及形成地质模式 总被引:10,自引:0,他引:10
西沙海槽具备良好的热解成因气及断层通道、深部异常压力等运移条件,分析海底表层沉积物所含甲烷气来源可以很好地指示潜在天然气水合物成因.西沙海槽海底表层沉积物所含甲烷气以热解成因气为主,可能混有少量生物成因气.表层沉积物所含甲烷气为断层渗逸-自由扩散作用双重运移结果,主要有3种来源:(1)直接来自于下部断层通道中气态烃的释放;(2)来自于动态变化的水合物分解,再由渗滤作用或沿浅部微小断层向上运移;(3)来自于原地少量的生物气.不同地区有不同的气体来源,这是海底表层沉积物甲烷高值区与下部断层相关性较大而与BSR区域并非完全一致的原因.甲烷气来源及运聚条件综合分析表明,潜在天然气水合物以热解成因为主,为断层-渗滤综合地质模式. 相似文献
5.
《海洋地质前沿》2021,(7)
仅利用地震似海底反射(BSR)识别琼东南盆地深水区天然气水合物存在一定的局限性,从而影响天然气水合物的勘探成效。笔者利用天然气水合物已钻井数据,分析该盆地深水区天然气水合物岩石弹性参数特征,用以查明天然气水合物的岩石物理规律;同时,利用地震正演模拟,明确了研究区发育的孔隙型、烟囱型水合物的地震反射特征。在此基础上,利用AVO正演判识真假BSR:天然气水合物底界面反射具有Ⅲ类AVO且存在AVO异常,此为真BSR反射;而块体流(MTD)底界面虽类似BSR反射,但其AVO为Ⅳ类且AVO无异常特征。利用宽频地震数据和三维地震速度体进行速度模型下的宽频确定性反演,并通过高速异常、高阻抗异常描述天然气水合物发育情况。总之,利用地震反射特征、AVO特征、无井宽频地震反演等手段,实现了琼东南盆地深水区多种类型天然气水合物的地震识别,判识圈定了水合物矿藏。 相似文献
6.
南海北部神狐海域天然气水合物形成及分布的地质因素 总被引:6,自引:0,他引:6
从天然气水合物发育的地质构造条件、沉积条件、气源条件、温压条件等分析了神狐海域影响水合物形成及分布的地质因素.指出神狐海域处在洋陆壳的过渡带上,断裂-褶皱构造及流体底辟构造发育,对水合物的形成具有重要的控制作用.受等深流和海底滑塌双重作用,研究区沉积异常体发育,沉积厚度大、沉积速率高,有利于水合物发育.通过对神狐海域附近钻探结果及区内地质调查站位资料的分析表明:目标区具有含巨量的生物气和热成因气资源潜力,具备形成天然气水合物的气源条件,气源为文昌-恩平组烃源岩.此外,受热流值北高南低的分布格局的影响,神狐海域BSR埋深也表现为北部浅南部深,且BSR分布区整体处在天然气水合物稳定存在的温压范围内,满足水合物形成及保存所需的温压条件.神狐海域的地质构造条件、沉积特征、气源条件、温压条件等都非常有利于天然气水合物发育. 相似文献
7.
分析了琼东南盆地华光凹陷天然气水合物稳定条件、气源供给来源、运移通道类型等成藏条件,指出了研究区天然气水合物的勘探方向并建立了天然气水合物的成藏模式。华光凹陷浅部沉积层的温度、压力条件满足天然气水合物形成的要求,生物成因甲烷水合物稳定带最大厚度约320m,热成因天然气水合物稳定带最大厚度约为345m。气源岩主要分布在凹陷西部地区的断陷期层序中,具有早、晚两期生烃且以晚期为主的特征,有利于热解成因气在水合物稳定带内的聚集成藏。晚中新世以来快速沉降的巨厚半深海细粒沉积物为生物成因气的形成提供了物质基础。泥底辟与其伴生断裂及多边形断层等构成了天然气水合物成藏的主要流体运移体系。华光凹陷靠近(1)号断裂的西部地区是有利的勘探方向。晚中新世以来的快速沉降使得渐新世成熟—过熟烃源岩大量生气或裂解,而且由于欠压实作用形成的地层超压为含气流体的运移提供了强大的动力。热解天然气和生物气沿着泥底辟和多边形断层等构成的输导网络向上垂向运移至水合物稳定带,形成天然气水合物,其中深水浊流水道是寻找高饱和度水合物的有利目标体。 相似文献
8.
按照天然气水合物形成的气体疏导方式划分,渗漏系统是海洋浅表层天然气水合物藏形成的主要模式。关键成藏要素包括温压场、气源等,温压场主要控制天然气水合物成藏的平面分布和纵向分布;海底热流低值区有利于形成天然气水合物,但在海底热流超高的海域,只要有充足的气源供给,在高甲烷通量区深海浅表层也可以形成天然气水合物藏,而且往往与泥火山、气烟囱等特殊地质体伴生,形成致密的数米厚层状天然气水合物藏。浅表层天然气水合物藏气源主要是有机热解成因气,一般其深部均发育有成熟的含油气盆地,有烃源层广泛分布,并且干酪根发生过明确的生烃过程,形成的热解甲烷气通过断层、气烟囱等破碎带垂向运移通道渗漏上升,在温压场控制的相平衡区形成天然气水合物藏,因此,海底热流值较高的海盆也是浅表层天然气水合物藏形成的有利海域。 相似文献
9.
《海洋地质前沿》2021,(7)
气烟囱是深水油气(水合物)垂向运移的重要通道,其形成及演化机制与油气运聚及水合物成藏具有密切的成因联系。琼东南盆地中新世以来具有生烃作用强烈、流体活动较普遍的特点,导致气烟囱分布也较广泛。基于琼东南盆地的地震资料,主要从研究区气烟囱地震反射特征、气烟囱规模及气烟囱成因类型划分3方面入手,结合气烟囱底部埋藏深度、能量强弱和底部环境等因素将琼东南盆地深水区气烟囱类型划分为4类,即浅层低能量断层裂隙控制型气烟囱、浅层高能量低凸起控制型气烟囱、中层中能量低凸起控制型气烟囱、中层高能量低凸起控制型气烟囱。在此基础上重点探讨了气烟囱对水合物运聚成藏的影响,揭示了气烟囱既对水合物运聚成藏具有通道及指示作用,也对水合物藏具有破坏作用的多重性特点,同时,进一步深入分析了琼东南盆地气烟囱分布规律与形成模式。总之,对琼东南盆地气烟囱发育特征、成因类型及形成机理的深入分析,将有助于琼东南盆地油气运聚通道体系的建立,进而综合剖析油气及水合物运聚成藏条件,指导其地质评价及其勘探部署等。 相似文献
10.
最新的研究证明,水合物区的游离气可能通过气体烟囱和断层面迁移,这里,我们计算了BSR之下横向连通的游离气量,其足以引起上覆含水合物沉积物中的断层滑移,并使气体从游离气体带迁移至水合物稳定带,这样的游离气柱可能存在于有孔平板状沉积物或者倾斜层中,或者沿断层分布。我们运用声纳测井得到了游离气体带厚度,首先对南卡罗来那东部300km远的布莱克海脊的冲积物进行了估计,然后计算了大洋盆地中断层重新活动需要的游离气体带厚度,作为BSR深度和沉积物特性的函数,并将我们的结果与测量的BSR之下的气体柱高度进行比较。虽然该模型不能预测最大主应力(σ1)近似水平的水合物区的游离气体带的厚度,但是可以对稳定盆地和活动地区测量的游离气体带厚度进行比较,并注意到这两个地区下面的游离气层厚度的系统误差。我们运用这些资料来估算水合物区下的全球游离气总量的上限。 相似文献
11.
珠江口盆地神狐海域是天然气水合物钻探和试验开采的重点区域,大量钻探取心、测井与地震等综合分析表明不同站位水合物的饱和度、厚度与气源条件存在差异。本文利用天然气水合物调查及深水油气勘探所采集的测井和地震资料建立地质模型,利用PetroMod软件模拟地层的温度场、有机质成熟度、烃源岩生烃量、流体运移路径以及不同烃源岩影响下的水合物饱和度,结果表明:生物成因气分布在海底以下1500 m范围内的有机质未成熟地层,而热成因气分布在深度超过2300 m的成熟、过成熟地层。水合物稳定带内生烃量难以形成水合物,形成水合物气源主要来自于稳定带下方向上运移的生物与热成因气。模拟结果与测井结果对比分析表明,稳定带下部生物成因气能形成的水合物饱和度约为10%,在峡谷脊部的局部区域饱和度较高;相对高饱和度(>40%)水合物形成与文昌组、恩平组的热成因气沿断裂、气烟囱等流体运移通道幕式释放密切相关,W19井形成较高饱和度水合物的甲烷气体中热成因气占比达80%,W17井热成因气占比为73%,而SH2井主要以生物成因为主,因此,不同站位甲烷气体来源占比不同。 相似文献
12.
Bin Liu Jiangxin Chen Luis M. Pinheiro Li Yang Shengxuan Liu Yongxian Guan Haibin Song Nengyou Wu Huaning Xu Rui Yang 《海洋学报(英文版)》2021,40(2):136-146
Previous studies of gas hydrate in the Dongsha area mainly focused on the deep-seated gas hydrates that have a high energy potential, but cared little about the shallow gas hydrates occurrences. Shallow gas hydrates have been confirmed by drill cores at three sites(GMGS2 08, GMGS2 09 and GMGS2 16) during the GMGS2 cruise, which occur as veins, blocky nodules or massive layers, at 8–30 m below the seafloor. Gas chimneys and faults observed on the seismic sections are the two main fluid migration pathways. The deep-seated gas hydrate and the shallow hydrate-bearing sediments are two main seals for the migrating gas. The occurrences of shallow gas hydrates are mainly controlled by the migration of fluid along shallow faults and the presence of deep-seated gas hydrates.Active gas leakage is taking place at a relatively high-flux state through the vent structures identified on the geophysical data at the seafloor, although without resulting in gas plumes easily detectable by acoustic methods.The presence of strong reflections on the high-resolution seismic profiles and dim or chaotic layers in the subbottom profiles are most likely good indicators of shallow gas hydrates in the Dongsha area. Active cold seeps,indicated by either gas plume or seepage vent, can also be used as indicators for neighboring shallow gas hydrates and the gas hydrate system that is highly dynamic in the Dongsha area. 相似文献
13.
本文主要针对南海北部大陆边缘发育的5个沉积盆地——台西南盆地、珠江口盆地、琼东南盆地、莺歌海盆地和中建南盆地,分析了近年来利用地球物理方法研究南海北部天然气渗漏系统的成果,重点包括3个方面:天然气水合物的储藏、流体运移通道以及海底表面渗漏特征。其中表征天然气水合物存在的似海底反射BSR在台西南和珠江口盆地发育明显,莺歌海盆地发现有大型气田;5个盆地流体运移活跃,其内发现了多样的运移通道:断层、底辟、气烟囱、多边形断层及水道(峡谷)等破裂结构;海底表面渗漏特征也在台西南、珠江口、莺歌海和中建南盆地均有发现。南海北部大陆边缘天然气渗漏系统广泛发育,值得进一步深入研究。 相似文献
14.
The northern South China Sea (NSCS) experienced continuous evolution from an active continental margin in the late Mesozoic to a stable passive continental margin in the Cenozoic. It is generally believed that the basins in the NSCS evolved as a result of Paleocene–Oligocene crustal extension and associated rifting processes. This type of sedimentary environment provides a highly favourable prerequisite for formation of large-scale oil- and gas–fields as well as gas hydrate accumulation. Based on numerous collected data, combined with the tectonic and sedimentary evolution, a preliminary summary is that primitive coal-derived gas and reworked deep gas provided an ample gas source for thermogenic gas hydrate, but the gas source in the superficial layers is derived from humic genesis. In recent years, the exploration and development of the NSCS oil, gas and gas hydrate region has provided a basis for further study. A number of 2D and 3D seismic profiles, the synthetic comparison among bottom simulating reflector (BSR) coverage characteristics, the oil-gas area, the gas maturity and the favourable hydrate-related active structural zones have provided opportunities to study more closely the accumulation and distribution of gas hydrate. The BSR has a high amplitude, with high amplitude reflections below it, which is associated with gas chimneys and pockmarks. The high amplitude reflections immediately beneath the BSR are interpreted to indicate the presence of free gas and gas hydrate. The geological and geochemical data reveal that the Cenozoic northern margin of the NSCS has developed coal-derived gas which forms an abundant supply of thermogenic gas hydrate. Deep-seated faults and active tectonic structures facilitate the gas migration and release. The thermogenic gas hydrate and biogenic gas are located at different depths, have a different gas source genesis and should be separately exploited. Based on the proven gas hydrate distribution zone, we have encircled and predicted the potential hydrate zones. Finally, we propose a simple model for the gas hydrate accumulation system in the NSCS Basin. 相似文献
15.
The role of sub seabed topographically controlled fluid migration is assessed to improve our understanding of distributions of acoustic chimneys at the Nyegga pockmark field on the mid-Norwegian continental margin. 3D seismic data interpretations resulted in topographic gradients of seismic time surfaces and RMS amplitude maps. Topographical gradient maps and flow tracing allowed identifying migration pathways and trapping locations for free gas within the shallow sub seabed. The occurrence of acoustic chimneys, pockmarks and mounds correlate with identified fluid migration pathways and gas trapping locations. An important factor that controls the trapping locations and the lateral distribution of seeps on the seabed at Nyegga is the variation through time of the depth of the base of the gas hydrate stability zone (BGHSZ). Fluids can derive from gas hydrate systems that are suspected of being a biogenic source and/or Tertiary domes that are considered to show leakage of thermogenic fluids to the shallow geosphere. 相似文献
16.
In this study we provide evidence for methane hydrates in the Taranaki Basin, occurring a considerable distance from New Zealand's convergent margins, where they are well documented. We describe and reconstruct a unique example of gas migration and leakage at the edge of the continental shelf, linking shallow gas hydrate occurrence to a deeper petroleum system. The Taranaki Basin is a well investigated petroleum province with numerous fields producing oil and gas. Industry standard seismic reflection data show amplitude anomalies that are here interpreted as discontinuous BSRs, locally mimicking the channelized sea-floor and pinching out up-slope. Strong reverse polarity anomalies indicate the presence of gas pockets and gas-charged sediments. PetroMod™ petroleum systems modelling predicts that the gas is sourced from elevated microbial gas generation in the thick slope sediment succession with additional migration of thermogenic gas from buried Cretaceous petroleum source rocks. Cretaceous–Paleogene extensional faults underneath the present-day slope are interpreted to provide pathways for focussed gas migration and leakage, which may explain two dry petroleum wells drilled at the Taranaki shelf margin. PetroMod™ modelling predicts concentrated gas hydrate formation on the Taranaki continental slope consistent with the anomalies observed in the seismic data. We propose that a semi-continuous hydrate layer is present in the down-dip wall of incised canyons. Canyon incision is interpreted to cause the base of gas hydrate stability to bulge downward and thereby trap gas migrating up-slope in permeable beds due to the permeability decrease caused by hydrate formation in the pore space. Elsewhere, hydrate occurrence is likely patchy and may be controlled by focussed leakage of thermogenic gas. The proposed presence of hydrates in slope sediments in Taranaki Basin likely affects the stability of the Taranaki shelf margin. While hydrate presence can be a drilling hazard for oil and gas exploration, the proposed presence of gas hydrates opens up a new frontier for exploration of hydrates as an energy source. 相似文献
17.
琼东南盆地气烟囱构造特点及其与天然气水合物的关系 总被引:5,自引:1,他引:4
气烟囱是由于天然气(或流体)垂向运移在地震剖面上形成的异常反射,是气藏超压、构造低应力和泥页岩封隔层综合作用而形成。气烟囱在形成过程中携带大量富含甲烷气的流体向上运移到天然气水合物稳定带,其形成之后仍可作为后期活动的油气向上运移的特殊通道。在中中新世后,气烟囱是琼东南盆地气体向上运移的通道。地震识别出的似海底反射(BSR)分布区存在大量的气烟囱构造,通过速度、泥岩含量、流体势等属性参数及钻井资料,判断该烟囱构造为有机成因的泥底辟型烟囱构造。 相似文献
18.
Geophysical evidence of mud diapirism on the Mediterranean Ridge accretionary complex 总被引:2,自引:0,他引:2
A. Camerlenghi M. B. Cita B. Della Vedova N. Fusi L. Mirabile G. Pellis 《Marine Geophysical Researches》1995,17(2):115-141
Mud volcanoes, mud cones, and mud ridges have been identified on the inner portion of the crestal area, and possibly on the inner escarpment, of the Mediterranean Ridge accretionary complex. Four areas containing one or more mud diapirs have been investigated through bathymetric profiling, single channel seismic reflection profiling, heat flow measurements, and coring. A sequence of events is identified in the evolution of the mud diapirs: initially the expulsion on the seafloor of gasrich mud produces a seafloor depression outlined in the seismic record by downward dip of the host sediment reflectors towards the mud conduit; subsequent eruptions of fluid mud may create a flat topped mud volcano with step-like profile; finally, the intrusion of viscous mud produces a mud cone.The origin of the diapirs is deep within the Mediterranean Ridge. Although a minimum depth of about 400 m below the seafloor has been computed from the hydrostatic balance between the diapiric sediments and the host sediments, a maximum depth, suggested by geometric considerations, ranges between 5.3 and 7 km. The presence of thermogenic gas in the diapiric sediments suggests a better constrained origin depth of at least 2.2 km.The heat flow measured within the Olimpi mud diapir field and along a transect orthogonal to the diapiric field is low, ranging between 16 ± 5 and 41 ± 6 mW m–2. Due to the presence of gas, the thermal conductivity of the diapiric sediments is lower than that of the host hemipelagic oozes (0.6–0.9 and 1.0–1.15 W m–1 K–1 respectively).We consider the distribution of mud diapirs to be controlled by the presence of tectonic features such as reverse faults or thrusts (inner escarpment) that develop where the thickness of the Late Miocene evaporites appears to be minimum. An upward migration through time of the position of the décollement within the stratigraphic column from the Upper Oligocene (diapiric sediments) to the Upper Miocene (present position) is identified. 相似文献
19.
Based on the analysis of the high-resolution 3D seismic data from the SW Barents Sea we study the hydrocarbon plumbing system above the Snøhvit and Albatross gas field to investigate the geo-morphological manifestation and the dynamics of leakage from the reservoir. Fluid and gas escape to the seafloor is manifested in this area as mega-pockmarks 1–2 km-wide, large pockmarks (<100 m wide) and giant pockmarks 100–300 m-wide. The size of the mega pockmarks to the south of the study area may indicate more vigorous venting, whilst the northern fluid flow regime is probably characterised by a widespread fluid and gas release. Buried mega depressions and large-to-giant pockmarks are also identified on the base Quaternary and linked to deep and shallow faults as well as to seismic pipes. A high density of buried and seafloor giant pockmarks occur above a network of faults overlying an interpreted Bottom Simulating Reflector (BSR), whose depth coincides with the estimated base of the hydrate stability zone for a thermogenically derived gas hydrate with around 90 mol% methane. Deep regional faults provide a direct route for the ascending thermogenic fluids from the reservoir, which then leaked through the shallow faults linked to seismic pipes. It is proposed that the last episodic hydrocarbon leakage from the reservoir was responsible for providing a methane source for the formation of gas hydrates. We inferred that at least two temporally and dynamically different fluid and gas venting events took place in the study area: (1) prior to late Weichselian and recorded on the Upper Regional Unconformity (URU) and (2) following the Last Glacial Maximum between ∼17 and 16 cal ka BP and recorded on the present-day seafloor. 相似文献
20.
Multichannel seismic reflection data from the continental margin of western India suggest the potential presence of fluid
expulsion features, which may or may not be associated with gas hydrates. No typical bottom simulating reflector was observed
on the reflection seismic section. As a result we look for other evidence in seismic sections in a small corridor of the western
continental margin of India in order to establish the presence of gas hydrates. We study features including venting through
the seafloor, pockmarks, sea floor collapse, faults acting as migration paths for fluid flow, transparent gas-charged sediment,
reduction in amplitude strength, diapirism and mud-volcano. Presence of all these gas-escape features on a seismic section
implies the probable presence of methane within the zone of hydrate stability field. 相似文献