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71.
从水合物/游离气的地震特性出发,作者抓住水合物/游离气的AVO响应与水合物物性参数的关系,从反演的角度取得了水合物的物性参数,并以前人的有关水合物物性参数与水合物含量之间的关系,对实际地点的水合物含量作了定性和半定量的分析,估算了水合物的大致含量。本文旨在说明剖面上的BSR强弱与水合物含量之间的关系。 相似文献
72.
西沙海槽研究区天然气水合物地球化学勘探 总被引:17,自引:1,他引:16
天然气水合物研究涵盖了地球物理、地球化学和地质等多门学科, 其中勘查地球化学方法技术可以从海底介质中获得与天然气水合物有关的痕量地球化学信息, 圈定水合物异常区域.依据2000年和2001年在中国南海西沙海槽工作区天然气水合物地球化学现场快速勘查实测和室内分析测试的多种烃类结果, 获得了海上工作区气态烃地球化学异常分布, 以及与该区水合物地震BSR和BZ的对比分析评价结果.同时根据现场实测同位素数据, 探讨了工作区形成水合物气态烃甲烷的成因.研究成果为工作区天然气水合物勘探提供了地球化学方面的直接证据. 相似文献
73.
南海东北部陆坡与恒春海脊天然气水合物分布的地震反射特征对比 总被引:3,自引:0,他引:3
对“探宝号”调查船2001年8月在南海东北部陆坡及台湾南部恒春海脊海域采集的多道地震剖面资料进行了地震反射波数据分析、解释和研究,并对南海北部陆坡、陆隆及其东侧俯冲带等区域天然气水合物矿藏的成藏规律及分布特征作了初步的分析与探讨,结果表明:(1)南海东北部陆坡和台湾南部恒春海脊海域地震剖面上均显示有BSR,但两区域构造成因、形式和相关地质环境的不同造成了天然气水合物的成因及过程不同。(2)南海东北部陆坡区域的天然气水合物形成与该区广泛发育的断裂带、滑塌构造体及其所形成的压力场屏蔽环境有关,而台湾南部恒春海脊海域天然气水合物的形成则与马尼拉海沟俯冲带相关的逆冲推覆构造、增生楔及其所对应的海底流体疏导体系有关。(3)南海陆缘区域广泛发育有各种断裂带、滑塌构造体、泥底辟、俯冲带、增生楔等,且温压环境合适,是天然气水合物矿藏极有可能广泛分布的区域。 相似文献
74.
The Ulleung Basin, East (Japan) Sea, is well-known for the occurrence of submarine slope failures along its entire margins and associated mass-transport deposits (MTDs). Previous studies postulated that gas hydrates which broadly exist in the basin could be related with the failure process. In this study, we identified various features of slope failures on the margins, such as landslide scars, slide/slump bodies, glide planes and MTDs, from a regional multi-channel seismic dataset. Seismic indicators of gas hydrates and associated gas/fluid flow, such as the bottom-simulating reflector (BSR), seismic chimneys, pockmarks, and reflection anomalies, were re-compiled. The gas hydrate occurrence zone (GHOZ) within the slope sediments was defined from the BSR distribution. The BSR is more pronounced along the southwestern slope. Its minimal depth is about 100 m below seafloor (mbsf) at about 300 m below sea-level (mbsl). Gas/fluid flow and seepage structures were present on the seismic data as columnar acoustic-blanking zones varying in width and height from tens to hundreds of meters. They were classified into: (a) buried seismic chimneys (BSC), (b) chimneys with a mound (SCM), and (c) chimneys with a depression/pockmark (SCD) on the seafloor. Reflection anomalies, i.e., enhanced reflections below the BSR and hyperbolic reflections which could indicate the presence of gas, together with pockmarks which are not associated with seismic chimneys, and SCDs are predominant in the western-southwestern margin, while the BSR, BSCs and SCMs are widely distributed in the southern and southwestern margins. Calculation of the present-day gas-hydrate stability zone (GHSZ) shows that the base of the GHSZ (BGHSZ) pinches out at water depths ranging between 180 and 260 mbsl. The occurrence of the uppermost landslide scars which is below about 190 mbsl is close to the range of the GHSZ pinch-out. The depths of the BSR are typically greater than the depths of the BGHSZ on the basin margins which may imply that the GHOZ is not stable. Close correlation between the spatial distribution of landslides, seismic features of free gas, gas/fluid flow and expulsion and the GHSZ may suggest that excess pore-pressure caused by gas hydrate dissociation could have had a role in slope failures. 相似文献
75.
天然气水合物BSR的识别与地震勘探频率 总被引:12,自引:0,他引:12
地震勘探是调查天然气水合物广泛使用而有效的方法,而BSR是水合物赋存的主要标志.通过对实际调查资料的分析对比,结合国外的调查研究成果,探讨了地震勘探频率在BSR识别中的影响和作用,提出了在我国海洋天然气水合物的地震调查中有利于BSR识别的合适的频率范围. 相似文献
76.
天然气水合物体系一般由地震上的似海底反射层BSR和下伏强振幅带(解释为游离气FGZs)所指示,但并非所有BSR及下伏强振幅带都与水合物和游离气有关.本文通过提取多种属性剖面,优选出视极性属性来辅助判断与水合物有关的BSR和下伏FGZs.—般来说,BSR和FGZs的顶部反射层表现为负视极性、高振幅的强反射特征.研究发现,尼日尔三角洲南部的水合物主要分布在与重力作用有关的生长断层及伴生的滚动背斜地区,广泛发育的断层、气烟囱、不整合面,以及砂岩层都可作为流体运移通道.除为水合物体系提供气源,这些流体运移通道还在水合物分解或FGZs超压时发挥作用,使游离气沿通道在FGZs和含水合物地层间循环,部分游离气可运移至海底进入海水甚至大气中·总之,视极性是判断水合物相关地震指示标志的有效属性,流体运移通道对尼日尔三角洲的水合物成藏具有重要作用. 相似文献