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1.
根据冲绳海槽多道地震资料的处理解释,在16条地震剖面上发现了水合物拟海底反射层BSR,经过AVO、波形反演等特殊的处理技术,首次直接利用BSR圈定了冲绳海槽天然气水合物具体分布范围,直接利用数据得出了天然气水合物稳定带厚度在冲绳海槽的分布趋势,认为海槽南部最厚,中部次之,北部最薄,并通过计算得出了冲绳海槽水合物稳定带的厚度和水合物资源量,对今后海槽水合物勘查和资源量评价具有一定的指导意义。 相似文献
2.
冲绳海槽天然气水合物稳定带特征及资源量评价 总被引:5,自引:0,他引:5
根据冲绳海槽多道地震资料的处理解释,在16条地震剖面上发现了水合物似海底反射层BSR,经过AVO、波形反演等特殊的处理技术,首次直接利用BSR圈定了冲绳海槽天然气水合物的具体分布范围,直接利用数据得出了天然气水合物稳定带厚度在冲绳海槽的分布趋势,认为海槽南部最厚,中部次之,北部最薄,并通过计算得出了冲绳海槽水合物稳定带的厚度和水合物资源量,对今后海槽水合物勘查和资源量评价具有一定的指导意义. 相似文献
3.
东海天然气水合物的区域地质特征及可能的远景区 总被引:7,自引:1,他引:7
从水深、沉积物厚度、沉积速率、有机质含量、地形和地貌来看,冲绳海槽盆地具有天然气水合物形成的区域地质条件,水合物出现的水深在500m以上,冲绳海槽南段水合物潜力最大。与智利三联点相类比,该区水合物可能主要分布在陆坡中部浅地层中。从冲绳海槽盆地的海底温度、海底热流和折射地震层速度资料的分析来看,该区具有水合物稳定存在的温压条件,其中南段和北段的稳定带厚度比中段更大一些,从已解释的穿越冲绳海槽盆地的地震剖面来看,有BSR迹象的剖面段约有300km,主要分布在中段的南部,从底水甲烷和卫星热红外异常分析来看,冲绳海槽盆地南段海域因存在经常性的卫星热红外增温异常和高值底水甲烷异常,因而水合物成藏的条件可能最好。 相似文献
4.
天然气水合物因其储量巨大、分丰广泛已受到或正受到各海洋国爱的高度重视。目前寻找天然气水合物最简单、最有效的方法就是在地震剖面上识别出似海底反射层。怎样布设地震测线才能提高冲绳海槽盆地发现BSR的成功率?本文拟从水深、海底微地貌、泥火山或泥岩底辟、地震和火山以以及海底滑坡等几个方面进行阐述,以期起到抛砖引玉的作用。 相似文献
5.
东海天然气水合物的地球化学标志与找矿远景 总被引:5,自引:1,他引:5
利用大量的海底沉积物样品,开展了东海天然气水合物卫星热红外遥感和沉积物酸脱气地球化学找矿研究。根据卫星热红外增温异常和海底浅表层沉积烃类异常及其他各种异常标志,可以预测冲绳海槽中南部海域为最可能的水合物赋存区。 相似文献
6.
用于研究东海天然气水合物的地震资料处理方法 总被引:3,自引:0,他引:3
通过对东海海域二维地震、单道地震、浅层剖面等资料进行的综合研究表明 :用于研究天然气水合物的地震资料处理应提高速度分析精度和分辨能力 ,进行子波估算 ,压制多次波 ,相对保持振幅 ,DMO,AVO及波阻抗特殊处理等。在地震剖面上天然气水合物主要特征有 :BSR、振幅异常、速度异常、AVO异常等标志特征。据此 ,可对天然气水合物进行识别和预测。东海海域是天然气水合物可能赋存的有利部位 ,其中冲绳海槽是天然气水合物成藏的目标区域。 相似文献
7.
冲绳海槽天然气水合物与地质构造的关系 总被引:7,自引:0,他引:7
海底天然气水合物大多与通过切穿沉积盖层的断裂的上升烃类流体相关,这些高渗透带包括底辟和泥火山等侵入构造,所以海底断裂、底辟和泥火山等构造周围可能赋存天然气水合物;其次,高沉积速率和巨厚沉积层可使有机质迅速掩埋而保存起来,为天然气水合物的生成提供充足物源,因此,邻近陆坡河谷口的海底沉积扇也是天然气水合物赋存的有利地区;另外,由于陆坡区的水合物沉积层比海盆更容易受外界温压变化的影响发生失稳分解,诱发海底滑坡,所以滑坡与天然气水合物赋存之间的关系也非常密切。冲绳海槽邻近海域具有覆水深、沉积厚度大、沉积速率高和有机质丰富等有利赋存条件,目前的研究已经在该海域发现了天然气水合物赋存的地球物理证据BSR,因此,在现有研究基础上开展断裂、泥火山、海底扇、海底滑坡等与天然气水合物相关的构造研究,可以深入了解天然气水合物在不同地质构造中的分布特征与演化,为更精确地评估其资源潜力提供参考。 相似文献
8.
冲绳海槽天然气水合物综合异常特征及成藏地质条件 总被引:6,自引:0,他引:6
从冲绳海槽的地质条件来看,该区有利于天然气水合物的稳定存在,从沉积厚度和沉积速率来看,位于冲绳海槽盆地西侧的陆架前缘坳陷最有利于有机质的保存和转化,可以为冲绳海槽水合物的形成提供充足气源。通过对冲绳海槽区域地质条件和地球化学异常的综合分析以及地震特殊处理资料的精细解释,认为冲绳海槽南段很可能更适宜水合物的形成和聚集,因而可能会有很好的远景。 相似文献
9.
海底天然气渗漏是海洋环境中广泛分布的自然现象,在世界各大洋中都有发现。海底渗漏的气体赋存于浅部地层,可以改变近表层沉积物的物理性质,使其在声学剖面上得以反映。通过对南海北部陆坡某海域研究区浅地层剖面和地震数据分析,在浅地层剖面上发现了声空白、声混浊、增强反射层、速度下拉等特征,在地震剖面上则识别出气烟囱或泥底辟、亮点、速度下拉、增强反射层等特征。以似海底反射层(BSR)作为地震剖面上明显的含气层标志,划分了2套含气系统。通过浅地层剖面与地震剖面联合解释认为,BSR之下气烟囱/泥底辟的发育导致了亮点、速度下拉、增强反射层等声学特征的发生,BSR之上水合物层的存在则可能起到封堵天然气而使其发生侧向运移的作用,在气体封堵相对薄弱的位置,天然气向上运移形成声空白、声混浊、增强反射层、速度下拉等特征。以声空白代表的天然气聚集带可能成为块状水合物的发育场所,可能成为较有潜力的勘探目标。 相似文献
10.
11.
东海天然气水合物的地震特征 总被引:1,自引:0,他引:1
使用中国科学院海洋研究所“科学一号”调查船于2001年以及20世纪80年代在东海地区采集的多道地震资料,以海域天然气水合物研究为目的,对这些资料进行了数据处理并获得了偏移地震剖面。通过对地震剖面的解释,在6条剖面上确定了6段异常反射为BSR,均有振幅强、与海底相位相反的特点。6段BSR基本上都没有出现和沉积地层相交的现象。分析认为,这与东海地区第四纪以来的沉积特征有关,并不能由此否认这些异常反射是BSR。6段BSR出现的水深为750~2 000 m,埋深在0.1~0.5 s(双程时间)之间。随着海底深度的增大,BSR埋深有增大的趋势。计算结果显示,6段BSR所处的温度和压力条件都满足水合物稳定赋存所需要的温度和压力条件。本文的BSR主要与北卡斯凯迪亚盆地以及智利海域水合物的温度、压力条件相似,而与日本南海海槽、美国布莱克海台等海域水合物的温度、压力条件相差比较大。在地震剖面上,6段BSR所处的局部构造位置都和挤压、断层有关,有利于水合物的发育;在空间上,它们主要分布在东海陆坡近槽底的位置以及与陆坡相近的槽底。在南北方向上,除分布在吐噶喇断裂和宫古断裂附近外,还与南奄西、伊平屋和八重山热液活动区相邻。热液活动和水合物虽然没有直接的成因关系,但岩浆活动为水合物气源的形成提供了热源条件,为流体和气体的运移、聚集提供了通道条件,从而有利于水合物的发育与赋存。根据地震剖面反射特征推断,剖面A1A2和A14A23发育BSR的位置应该有气体或者流体从海底流出,可能是海底冷泉发育的位置。剖面A14A23上BSR发育处,振幅比的异常增大和BSR埋深的降低是相关联的。这种关联支持该处发育海底冷泉的推测。 相似文献
12.
Xu Ning Wu Shiguo Shi Buqing Lu Bing Xue Liangqing Wang Xiujuan Jia Ying 《Marine and Petroleum Geology》2009,26(8):1413-1418
Many mud diapirs have been recognized in southern Okinawa Trough by a multi-channel seismic surveying on R/V KEXUE I in 2001. Gas hydrates have been identified, by the seismic reflection characteristics, the velocity analysis and the impedance inversion. Geothermal heat flow around the central of the mud diapir has been determined theoretically by the Bottom Simulating Reflectors (BSRs). Comparing the BSR derived and the measured heat flow values, we infer that the BSR immediately at the top of the mud diapirs indicate the base of the saturated gas hydrate formation zone (BSGHFZ), but not, as we ordinarily know, the base of the gas hydrate stability zone (BGHSZ), which could be explained by the abnormal regional background heat flow and free gas flux associated with mud diapirs. As a result, it helps us to better understand the generation mechanism of the gas hydrates associated with mud diapirs and to predict the gas hydrate potential in the southern Okinawa Trough. 相似文献
13.
海洋天然气水合物的地震识别方法研究 总被引:21,自引:2,他引:21
天然气水合物作为21世纪新的自然能源将为人类的生存发展服务。20世纪60年代证实,俄罗斯西伯利亚的麦索亚哈气田为典型的天然气水合物形成的气田,70年代又在海底发现了固体天然气水合物岩样。1971年,RStoll首先将地震剖面中的似海底反向层解释为海洋天然气水合物存在的标志,后来被深海钻探证实,从此地震方法成为大面积研究天然气水合物的重要手段。天然气水合物既是潜在能源,也是影响环境和形成灾害的因素之一,因此,研究天然气水合物是人类在21世纪的重要课题。探讨海洋天然气水合物的地震识别方法,由于这项工作刚刚起步,还没有做出具体的成果,在此只能根据我们仅有的工作和参照国外分开的出版物,以及出国访问得到的有关资料进行分析,提出我们的一些基本设想,与各位专家探讨。 相似文献
14.
Bo Y. Yi Gwang H. Lee Senay Horozal Dong G. Yoo Byong J. Ryu Nyeon K. Kang Sung R. Lee Han J. Kim 《Marine and Petroleum Geology》2011,28(10):1953-1966
The presence of gas hydrate in the Ulleung Basin, East Sea (Japan Sea), inferred by various seismic indicators, including the widespread bottom-simulating reflector (BSR), has been confirmed by coring and drilling. We applied the standard AVO technique to the BSRs in turbidite/hemipelagic sediments crosscutting the dipping beds and those in debris-flow deposits to qualitatively assess the gas hydrate and gas concentrations. These BSRs are not likely to be affected by thin-bed tuning which can significantly alter the AVO response of the BSR. The BSRs crosscutting the dipping beds in turbidite/hemipelagic sediments are of low-seismic amplitude and characterized by a small positive gradient, indicating a decrease in Poisson’s ratio in the gas-hydrate stability zone (GHSZ), which, in turn, suggests the presence of gas hydrate. The BSRs in debris-flow deposits are characterized by a negative gradient, indicating decreased Poisson’s ratio below the GHSZ, which is likely due to a few percent or greater gas saturations. The increase in the steepness of the AVO gradient and the magnitude of the intercept of the BSRs in debris-flow deposits with increasing seismic amplitude of the BSRs is probably due to an increase in gas saturations, as predicted by AVO model studies based on rock physics. The reflection strength of the BSRs in debris-flow deposits, therefore, can be a qualitative measure of gas saturations below the GHSZ. 相似文献
15.
《Marine and Petroleum Geology》2012,29(10):1953-1966
The presence of gas hydrate in the Ulleung Basin, East Sea (Japan Sea), inferred by various seismic indicators, including the widespread bottom-simulating reflector (BSR), has been confirmed by coring and drilling. We applied the standard AVO technique to the BSRs in turbidite/hemipelagic sediments crosscutting the dipping beds and those in debris-flow deposits to qualitatively assess the gas hydrate and gas concentrations. These BSRs are not likely to be affected by thin-bed tuning which can significantly alter the AVO response of the BSR. The BSRs crosscutting the dipping beds in turbidite/hemipelagic sediments are of low-seismic amplitude and characterized by a small positive gradient, indicating a decrease in Poisson’s ratio in the gas-hydrate stability zone (GHSZ), which, in turn, suggests the presence of gas hydrate. The BSRs in debris-flow deposits are characterized by a negative gradient, indicating decreased Poisson’s ratio below the GHSZ, which is likely due to a few percent or greater gas saturations. The increase in the steepness of the AVO gradient and the magnitude of the intercept of the BSRs in debris-flow deposits with increasing seismic amplitude of the BSRs is probably due to an increase in gas saturations, as predicted by AVO model studies based on rock physics. The reflection strength of the BSRs in debris-flow deposits, therefore, can be a qualitative measure of gas saturations below the GHSZ. 相似文献
16.
Shiguo Wu Xiujuan Wang How Kin Wong Guangxue Zhang 《Marine Geophysical Researches》2007,28(2):127-138
The passive northern continental margin of the South China Sea is rich in gas hydrates, as inferred from the occurrence of
bottom-simulating reflectors (BSR) and from well logging data at Ocean Drilling Program (ODP) drill sites. Nonetheless, BSRs
on new 2D multichannel seismic reflection data from the area around the Dongsha Islands (the Dongsha Rise) are not ubiquitous.
They are confined to complex diapiric structures and active fault zones located between the Dongsha Rise and the surrounding
depressions, implying that gas hydrate occurrence is likewise limited to these areas. Most of the BSRs have low amplitude
and are therefore not clearly recognizable. Acoustic impedance provides information on rock properties and has been used to
estimate gas hydrate concentration. Gas hydrate-bearing sediments have acoustic impedance that is higher than that of the
surrounding sediments devoid of hydrates. Based on well logging data, the relationship between acoustic impedance and porosity
can be obtained by a linear regression, and the degree of gas hydrate saturation can be determined using Archie’s equation.
By applying these methods to multichannel seismic data and well logging data from the northern South China Sea, the gas hydrate
concentration is found to be 3–25% of the pore space at ODP Site 1148 depending on sub-surface depth, and is estimated to
be less than values of 5% estimated along seismic profile 0101. Our results suggest that saturation of gas hydrate in the
northern South China Sea is higher than that estimated from well resistivity log data in the gas hydrate stability zone, but
that free gas is scarce beneath this zone. It is probably the scarcity of free gas that is responsible for the low amplitudes
of the BSRs. 相似文献
17.
Byong-Jae Ryu Michael Riedel Ji-Hoon Kim Roy D. Hyndman Young-Joo Lee Bu-Heung Chung Il-Soo Kim 《Marine and Petroleum Geology》2009,26(8):1483-1498
Geophysical surveys and geological studies of gas hydrates in the western deep-water Ulleung Basin of the East Sea off the east coast of Korea have been carried out by the Korea Institute of Geoscience and Mineral Resources (KIGAM) since 2000. The work included a grid of 4782 km of 2D multi-channel seismic reflection lines and 11 piston cores 5–8 m long. In the piston cores, cracks generally parallel to bedding suggest significant in-situ gas. The cores showed high amounts of total organic carbon (TOC), and from the southern study area showed high residual hydrocarbon gas concentrations. The lack of higher hydrocarbons and the carbon isotope ratios indicate that the methane is primarily biogenic. The seismic data show areas of bottom-simulating reflectors (BSRs) that are associated with gas hydrates and underlying free gas. An important observation is the numerous seismic blanking zones up to 2 km across that probably reflect widespread fluid and gas venting and that are inferred to contain substantial gas hydrate. Some of the important results are: (1) BSRs are widespread, although most have low amplitudes; (2) increased P-wave velocities above some BSRs suggest distributed low to moderate concentration gas hydrate whereas a velocity decrease below the BSR suggests free gas; (3) the blanking zones are often associated with upbowing of sedimentary bedding reflectors in time sections that has been interpreted at least in part due to velocity pull-up produced by high-velocity gas hydrate. High gas hydrate concentrations are also inferred in several examples where high interval velocities are resolved within the blanking zones. Recently, gas hydrate recoveries by the piston coring and deep-drilling in 2007 support the interpretation of substantial gas hydrate in many of these structures. 相似文献