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1.
南沙海槽的构造和沉积受控于南海的构造运动和加里曼丹西北大陆边缘的演化,具有适于天然气水合物形成的物源基础、温压条件、输导系统和储藏场所。似海底反射层(BSR)出现在水深650~2 800 m、海底下65~350 m深的晚中新世沉积物中,与褶皱、逆冲推覆构造及穹窿构造有关;沉积物中的甲烷含量和孔隙水的SO24-含量表现出异常变化特征,硫酸盐-甲烷界面(SMI)深度仅为8~11 m;表层沉积的自生石膏和黄铁矿的成岩环境与甲烷流体排溢引起的厌氧甲烷氧化(AOM)有关,这些地球物理和地球化学指标均指示南沙海槽发育天然气水合物。研究表明,南沙海槽沉积物的甲烷以二氧化碳还原型微生物成因为主,少量为混合气,海槽东南部可能是最有潜力的天然气水合物远景区。 相似文献
2.
Oceanic gas hydrates have been measured near the seafloor for the first time using a seagoing Raman spectrometer at Hydrate Ridge, Oregon, where extensive layers of hydrates have been found to occur near the seafloor. All of the hydrates analyzed were liberated from the upper meter of the sediment column near active gas venting sites in water depths of 770-780 m. Hydrate properties, such as structure and composition, were measured with significantly less disturbance to the sample than would be realized with core recovery. The natural hydrates measured were sI, with methane as the predominant guest component, and minor/trace amounts of hydrogen sulfide present in three of the twelve samples measured. Methane large-to-small cage occupancy ratios of the hydrates varied from 1.01 to 1.30, in good agreement with measurements of laboratory synthesized and recovered natural hydrates. Although the samples visually appeared to be solid, varying quantities of free methane gas were detected, indicating the possible presence of occluded gas in a hydrate bubble fabric. 相似文献
3.
The Shenhu gas hydrate drilling area is located in the central Baiyun sag, Zhu Ⅱ depression, Pearl River Mouth basin, northern South China Sea. The gas compositions contained in the hydrate-bearing zones is dominated by methane with content up to 99.89% and 99.91%. The carbon isotope of the methane (δ13C1 ) are 56.7‰ and 60.9‰, and its hydrogen isotope (δD) are 199‰ and 180‰, respectively, indicating the methane from the microbial reduction of CO2 . Based on the data of measured seafloor temperature and geothermal gradient, the gas formed hydrate reservoirs are from depths 24-1699 m below the seafloor, and main gas-generation zone is present at the depth interval of 416-1165 m. Gas-bearing zones include the Hanjiang Formation, Yuehai Formation, Wanshan Formation and Quaternary sediments. We infer that the microbial gas migrated laterally or vertically along faults (especially interlayer faults), slump structures, small-scale diapiric structures, regional sand beds and sedimentary boundaries to the hydrate stability zone, and formed natural gas hydrates in the upper Yuehai Formation and lower Wanshan Formation, probably with contribution of a little thermogenic gas from the deep sedments during this process. 相似文献
4.
Gas hydrate systems at Hydrate Ridge offshore Oregon inferred from molecular and isotopic properties of hydrate-bound and void gases 总被引:3,自引:0,他引:3
Alexei V. Milkov George E. Claypool Roger Sassen 《Geochimica et cosmochimica acta》2005,69(4):1007-1026
We report and discuss molecular and isotopic properties of hydrate-bound gases from 55 samples and void gases from 494 samples collected during Ocean Drilling Program (ODP) Leg 204 at Hydrate Ridge offshore Oregon. Gas hydrates appear to crystallize in sediments from two end-member gas sources (deep allochthonous and in situ) as mixtures of different proportions. In an area of high gas flux at the Southern Summit of the ridge (Sites 1248-1250), shallow (0-40 m below the seafloor [mbsf]) gas hydrates are composed of mainly allochthonous mixed microbial and thermogenic methane and a small portion of thermogenic C2+ gases, which migrated vertically and laterally from as deep as 2- to 2.5-km depths. In contrast, deep (50-105 mbsf) gas hydrates at the Southern Summit (Sites 1248 and 1250) and on the flanks of the ridge (Sites 1244-1247) crystallize mainly from microbial methane and ethane generated dominantly in situ. A small contribution of allochthonous gas may also be present at sites where geologic and tectonic settings favor focused vertical gas migration from greater depth (e.g., Sites 1244 and 1245). Non-hydrocarbon gases such as CO2 and H2S are not abundant in sampled hydrates. The new gas geochemical data are inconsistent with earlier models suggesting that seafloor gas hydrates at Hydrate Ridge formed from gas derived from decomposition of deeper and older gas hydrates. Gas hydrate formation at the Southern Summit is explained by a model in which gas migrated from deep sediments, and perhaps was trapped by a gas hydrate seal at the base of the gas hydrate stability zone (GHSZ). Free gas migrated into the GHSZ when the overpressure in gas column exceeded sealing capacity of overlaying sediments, and precipitated as gas hydrate mainly within shallow sediments. The mushroom-like 3D shape of gas hydrate accumulation at the summit is possibly defined by the gas diffusion aureole surrounding the main migration conduit, the decrease of gas solubility in shallow sediment, and refocusing of gas by carbonate and gas hydrate seals near the seafloor to the crest of the local anticline structure. 相似文献
5.
南海北部白云凹陷08CF7岩心沉积物的磁化率特征及其意义 总被引:2,自引:0,他引:2
海洋沉积物的磁性异常与甲烷渗漏活动及其产物密切相关。为揭示南海北部天然气水合物区沉积物磁化率的变化特征及其意义,对白云凹陷08CF7岩心331个沉积物样品的磁化率进行测定和分析。08CF7岩心沉积物磁化率变化范围为554×10-6~2656×10-6SI,平均值为1141×10-6SI。磁化率随深度变化可分为0~188 cm、188~240 cm及240 cm以下等3段,分别与硫酸盐富集带、硫酸盐-甲烷转换界面(SMT)的上部过渡带及SMT相对应。研究表明,海底天然气渗漏是08CF7岩心沉积物磁化率异常变化的可能原因,其机理是:在强烈的还原环境中,甲烷厌氧氧化反应的产物HS-与沉积物中的Fe3+发生反应,形成顺磁性的黄铁矿。沉积物磁化率变化能快速了解SMT状况及其深度,提供了一种识别南海北部天然气水合物的间接方法。 相似文献
6.
海底天然气水合物分解与甲烷归宿研究进展 总被引:6,自引:1,他引:5
综述了近年来天然气水合物分解与甲烷归宿等方面的研究成果。天然气水合物的汇聚与地质构造或地层圈闭有关,其溶解受物质转换控制,分解则受热转换控制。水合物释放甲烷的运移方式包括分散式、中心式和大规模排放式。缺氧氧化和耗氧氧化是甲烷在海洋环境中的2种主要转化方式。天然气水合物释放甲烷的最终归宿主要为:①重新形成天然气水合物;②形成化能自养生物群落和沉淀出碳酸盐沉积;③与氧发生氧化后转变为CO2;④直接排放进入到大气中。沉积物中的微构造、化能自养生物群落、自生碳酸盐矿物及其碳氧同位素组成是水合物释放事件的指纹记录。 相似文献
7.
V. G. Prokudin 《Russian Journal of Pacific Geology》2013,7(2):133-139
The results of investigations in the Sea of Okhotsk by the seismic reflection method are considered with special attention paid to the acoustic anomalies. Two types of such anomalies are definable in the basin: local (“gas channel”) and areal (“turbid sequences”). It is shown that the acoustic anomalies distinguishable in the single channel seismic profiling (SCSP) records are characteristic of sediments with partial gas filling. Many local anomalies documented on the Sakhalin slope are spatially connected with zones of faulting. The simultaneous presence of acoustic anomalies and BSR in the upper part of the section serves as a reliable diagnostic feature of gas hydrates. The dispersion of the velocities in the wave packet characterizing the acoustic anomaly associated with the lower part of the sedimentary cover in the Kurile Basin points to the significant thickness of the gas-bearing sediments in the latter. 相似文献
8.
天然气水合物是一种新型的洁净能源。甲烷天然气水合物是储量最丰富的一种类型,常出现在深海中或极地大陆上,其生成的过程中会发生同位素的分馏效应。通过实验室模拟水合物生成的过程,利用天然海水与甲烷或二氧化碳气体反应,以及更接近实际生成环境的甲烷-海水-沉积物动态聚散实验,对甲烷水合物和二氧化碳水合物生成前后δ13C值进行测定,研究水合物生成过程中δ13C的变化情况。实验证明,水合物反应中碳同位素分馏是存在的,其变化程度明显小于氧同位素和氢同位素。甲烷水合物碳同位素的分馏系数αC的值为1000 3~1000 9。二氧化碳水合物生成反应后气相的碳、氧同位素变轻,重同位素趋向于进入水合物中,二氧化碳水合物碳同位素的分馏系数αC的值为1000 7~1001 2。海水中溶解的CO2气体在甲烷水合物形成过程中会被水合物捕获,从而使得δ13CDIC值变小,重的碳同位素趋于进入水合物中,而较轻的碳同位素留在海水中。但由于海水中含有的溶解CO2气体有限,经过多轮水合物动态聚散后δ13CDIC值的变化幅度会越来越小。 相似文献
9.
LIU Liping SUN Zhilei ZHANG Lei WU Nengyou Yichao Qin JIANG Zuzhou GENG Wei CAO Hong ZHANG Xilin ZHAI Bin XU Cuiling SHEN Zhicong JIA Yonggang 《《地质学报》英文版》2019,93(3):731-755
Natural gas hydrates have been hailed as a new and promising unconventional alternative energy, especially as fossil fuels approach depletion, energy consumption soars, and fossil fuel prices rise, owing to their extensive distribution, abundance, and high fuel efficiency. Gas hydrate reservoirs are similar to a storage cupboard in the global carbon cycle, containing most of the world’s methane and accounting for a third of Earth’s mobile organic carbon. We investigated gas hydrate stability zone burial depths from the viewpoint of conditions associated with stable existence of gas hydrates, such as temperature, pressure, and heat flow, based on related data collected by the global drilling programs. Hydrate-related areas are estimated using various biological, geochemical and geophysical tools. Based on a series of previous investigations, we cover the history and status of gas hydrate exploration in the USA, Japan, South Korea, India, Germany, the polar areas, and China. Then, we review the current techniques for hydrate exploration in a global scale. Additionally, we briefly review existing techniques for recovering methane from gas hydrates, including thermal stimulation, depressurization, chemical injection, and CH4–CO2 exchange, as well as corresponding global field trials in Russia, Japan, United States, Canada and China. In particular, unlike diagenetic gas hydrates in coarse sandy sediments in Japan and gravel sediments in the United States and Canada, most gas hydrates in the northern South China Sea are non-diagenetic and exist in fine-grained sediments with a vein-like morphology. Therefore, especially in terms of the offshore production test in gas hydrate reservoirs in the Shenhu area in the north slope of the South China Sea, Chinese scientists have proposed two unprecedented techniques that have been verified during the field trials: solid fluidization and formation fluid extraction. Herein, we introduce the two production techniques, as well as the so-called “four-in-one” environmental monitoring system employed during the Shenhu production test. Methane is not currently commercially produced from gas hydrates anywhere in the world; therefore, the objective of field trials is to prove whether existing techniques could be applied as feasible and economic production methods for gas hydrates in deep-water sediments and permafrost zones. Before achieving commercial methane recovery from gas hydrates, it should be necessary to measure the geologic properties of gas hydrate reservoirs to optimize and improve existing production techniques. Herein, we propose horizontal wells, multilateral wells, and cluster wells improved by the vertical and individual wells applied during existing field trials. It is noteworthy that relatively pure gas hydrates occur in seafloor mounds, within near-surface sediments, and in gas migration conduits. Their extensive distribution, high saturation, and easy access mean that these types of gas hydrate may attract considerable attention from academia and industry in the future. Herein, we also review the occurrence and development of concentrated shallow hydrate accumulations and briefly introduce exploration and production techniques. In the closing section, we discuss future research needs, key issues, and major challenges related to gas hydrate exploration and production. We believe this review article provides insight on past, present, and future gas hydrate exploration and production to provide guidelines and stimulate new work into the field of gas hydrates. 相似文献
10.
Lin Lin Jun Cao Jin Qian Jiu-jing Shang Wei Zhang Jin-gan Lu Jin-qiang Liang 《China Geology》2022,5(2):267-275
Evaluating velocity-porosity relationships of hydrate-bearing marine sediments is essential for characterizing natural gas hydrates below seafloor as either a potential energy resource or geohazards risks. Four sites had cored using pressure and non-pressure methods during the gas hydrates drilling project (GMGS4) expedition at Shenhu Area, north slope of the South China Sea. Sediments were cored above, below, and through the gas-hydrate-bearing zone guided with logging-while-drilling analysis results. Gamma density and P-wave velocity were measured in each pressure core before subsampling. Methane hydrates volumes in total 62 samples were calculated from the moles of excess methane collected during depressurization experiments. The concentration of methane hydrates ranged from 0.3% to 32.3%. The concentrations of pore fluid (25.44% to 68.82%) and sediments (23.63% to 54.28%) were calculated from the gamma density. The regression models of P-wave velocity were derived and compared with a global empirical equation derived from shallow, unconsolidated sediments data. The results were close to the global trend when the fluid concentration is larger than the critical porosity. It is concluded that the dominant factor of P-wave velocity in hydrate-bearing marine sediments is the presence of the hydrate. Methane hydrates can reduce the fluid concentration by discharging the pore fluid and occupying the original pore space of sediments after its formation.©2022 China Geology Editorial Office. 相似文献
11.
天然气水合物研究中的几个重要问题 总被引:20,自引:0,他引:20
综述了当前关于天然气水合物研究中的几个重要问题,提出了今后的主要研究方向,全球大约有10^19g碳以天然气水合物的形式储存在沉积物中,大约是其它所有化石燃料沉积物形式储存量的2倍多,因此,天然气水合物被认为是21世纪具有商业开发无景的潜在的战略资源,天然气水合物是一种亚稳态物质,极易受到温度和压力条件的影响,海底天然气水合物的分解将会影响沉积物的物理化学性质(如剪切强度和流变性等),地球物理性质(如地震波速和电导性),以及地球化学性质(如孔隙流体成分)的明显变化,导致诸如海底滑塌等地质灾害的发生,天然气水合物的分解会产生导致“温室效应”的甲烷气体,该气体进入大气圈中会引起全球气候和环境的变化。 相似文献
12.
冷泉流体沉积碳酸盐岩的地质地球化学特征 总被引:39,自引:3,他引:36
冷泉流体是指来自海底沉积界面之下的低温流体以喷涌和渗漏方式注入盆地, 并产生系列的物理和化学及生物作用, 这种作用及产物称为冷泉?它是继洋中脊以盆下源中高温流体的热泉被发现和研究之后的又一个新的盆地流体沉积领域?日前研究较多的是以水? 碳氢化合物 (天然气和石油) ? 硫化氢? 细粒沉积物为主要成分, 温度与海水相近的流体, 广泛发育于活动和被动大陆边缘斜坡海底?冷泉流体沉积体系发育高密度的化学自养生物群, 以碳酸盐岩和天然气水合物为主, 有少量的硫化物和硫酸盐等?冷泉碳酸盐岩的产状有丘? 结核? 硬底? 烟囱? 胶结物和小脉等, 以化学自养生物碎屑和多期次的自生碳酸盐胶结物组成的生物丘最为常见, 它在物质来源? 形成环境? 形成作用等方面与传统来源于海水碳的碳酸盐岩建隆不同, 用术语 C h e r m o h e r m 表示, 以区别于传统海水碳酸盐岩建隆术语b i o h e r m s ? l i t h o h e r m s ? p s e u d o b i o h e r m s 和 b i o s t r o m e s ?地层中石化的化学自养生物丘常是含有大量底栖生物化石的碳酸盐岩建隆产于深水相沉积地层中, 在沉积环境和相分析上出现纵向和横向的不连续, 甚至出现反常现象?矿物以镁方解石? 白云石和文石为主, 与传统的碳酸盐岩相似, 在地球化学组成上最大的区别是冷泉流体沉积碳酸盐岩的碳来源于冷泉体系中的细菌生物成因碳, 具有特别负的碳同位素值?冷泉在海底主要沿构造带和高渗透地层呈线性群, 或围绕泥火山或盐底劈顶部呈圆形或不规则状冷泉群分布,或以海底地形低凹处和峡谷转向处呈孤立冷泉形式产出?冷泉流体以沉积建造流体为主?上覆快速堆积? 成岩压实和胶结作用? 构造挤压和变形作用? 深部的后生作用和成岩作用? 海底沉积物中的天然气水合物分解作用是建造流体向上运移进入海底成为冷泉的驱动力?冷泉碳酸盐岩的沉积作用主要有胶结作用? 充填作用和生物化学沉积作用?冷泉流体中的碳主要是以甲烷为主的碳氢化合物形式存在, 经微生物作用转变为 C O2 ,最终形成冷泉碳酸盐岩? 相似文献
13.
Veligeti Jyothi Kalachand Sain Vivekanand Pandey Ajoy K. Bhaumik 《Journal of the Geological Society of India》2017,90(3):261-266
Gas hydrates have received global attention as a possible alternative non-conventional energy resource. Hence, the detection, characterization and quantification of gas hydrates are very important for evaluating the resource potential. Presence of gas hydrates in sediments above the bottom simulating reflector or BSR is associated with low attenuation or high quality factor (Q), whereas, free gas bearing sediments below the BSR exhibit high attenuation or low seismic Q. Here the logarithm spectral ratio (LSR) method is applied to marine seismic reflection data along two cross lines (18 and 46) in the Krishna-Godavari (KG) basin in eastern Indian margin, where gas hydrates have already been established by drilling/coring. The interval Qs is calculated for three sedimentary layers (A, B, and C) bounded by the seafloor, BSR, one reflector above and another reflector below the BSR at some common depth points (CDPs) to study the attenuation characteristics of sediments across the BSR. The estimated average interval Q (160) for the hydrate bearing sediments (layer B) is much higher than the average interval Q (80) for both the loose clayey sediments (Layer A) and underlying free gas saturated sediments (layer C). This demonstrates that estimation of seismic quality factor Q can be used for characterization of gas hydrate reservoir. 相似文献
14.
东太平洋水合物海岭BSR以上沉积物粒度变化与气体水合物分布 总被引:10,自引:1,他引:10
文中对国际大洋钻探204航次在太平洋水合物海岭8 个站位BSR深度以上气体水合物稳定带的沉积物进行了粒度分析和对比研究。结果表明,该稳定带内沉积物总体粒径变化特征为:粉砂质量分数在60%~75%之间,为气体水合物稳定带内沉积组分的主体组分。粘土质量分数一般小于35%,砂质量分数小于5%。该结果获得的粒径变化范围,与204 航次中沉积学研究所确定的粘土质粉砂、粉砂质粘土夹含砂质粉砂、含砂质粘土岩性特征一致。各站位沉积粒径变化和代表气体水合物存在的岩心红外照相IR异常低温记录之间的初步对比说明,气体水合物主要富集在沉积组分较粗,相当于粉砂或者砂级质量分数较高的粒度层。统计学的相关性研究结果定量地揭示了各个站位沉积物粒径变粗与气体水合物的存在有不同的相关关系。归纳起来发现,不同构造部位沉积物中气体水合物赋存层段的粒径范围不同。坡后盆地由于当地总体沉积物颗粒细,气体水合物赋存在极细粉砂粒级(8~26μm)的沉积物中。水合物海岭南峰顶部附近站位气体水合物主要赋存在粗粉砂和细砂(50~148μm)之间。 相似文献
15.
水力输送法开采海底浅层天然气水合物技术研究 总被引:3,自引:0,他引:3
海洋天然气水合物占全球水合物总储量的99%,海洋天然气水合物大部分沉积在海底浅层没有良好的覆盖层,无法采用开采传统油气资源的方法进行开采.为了开采海底浅层天然气水合物,分析了海洋天然气水合物的存在类型及地质特征,探讨了目前开采海洋天然气水合物的理论方法及局限性.根据海底天然气水合物成矿的地质特点及水合物的物理特性,提出了以水力输送技术为主要理论的海洋浅层天然气水合物开采方法.该方法克服了其他方法开采海底天然气水合物面临的技术困难,为海洋天然气水合物的开采提供了技术基础及理论支撑. 相似文献
16.
获取合适的气候变化代用指标,检验其在更长时间尺度内应用的有效性对于利用我国西部内陆湖盆沉积反映新生代以来大陆气候变化具有重要意义。易溶盐含量作为一种反映环境变化的代用指标,在沉积相稳定的内陆湖泊沉积物研究中已获得广泛应用。对于存在沉积相变迁的古湖盆沉积物,其适用性需要进行考虑。本文对西宁盆地谢家剖面的一套年代为始新世到中新世的内陆湖相泥岩/石膏沉积进行研究发现,石膏层和泥岩层分别对应于Ca2+、SO2-4和Sr2+的高值和低值变化。石膏层广泛分布的剖面下部 Ca2+、SO2-4和Sr2+含量较高,Na+和Cl-含量较低,而石膏层逐渐消失的剖面上部Ca2+、SO2-4和Sr2+整体含量降低,Na+和Cl-含量略有升高。沉积相分析表明红色泥岩层和石膏层分别对应于冲积扇远端和干盐湖化学沉积,剖面下部石膏层和红色泥岩层交替到上部以红色泥岩层为主的岩相变化反映了区域范围上的干旱化进程。谢家剖面易溶盐含量强烈受控于上述沉积相变迁所决定的岩性变化,并清晰揭示出发生在约33 Ma的巨大干旱化事件。因此对于存在沉积相变迁的古湖盆沉积物,易溶盐含量分析不但要考虑内陆湖泊浓缩演化过程中溶解度控制的碳酸盐-硫酸盐-卤化物相继发生的沉淀序列,还需考虑易溶盐在不同沉积相中的赋存迁移规律以及研究时段内的溶质补给类型是否存在差异。 相似文献
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ABSTRACT The Black Sea contains immense gas accumulations. Exploration of gas accumulations is geologically and economically important because migration of methane in sediments may cause massive slope failures and the methane seeps may indicate deeper hydrocarbon reservoirs. Human activity both in and on the seafloor (oil industry) and natural activity (earthquakes, cyclones) trigger mechanisms for seafloor failure and gas release that may have a local and possibly global environmental impact. Recently, sonar and high‐resolution seismic surveys were carried out to obtain information about the effects of gas and gas‐filled sediments throughout the Turkish margin of the Eastern Black Sea, and shallow gas was detected on the subbottom profiler records. It continues about 25–65 m below the sea floor and is marked by bright and cloudy spots, sometimes pockmarks and acoustic voids. The lower section of the Turkish shelf is an extensive pockmarked plateau. The pockmarks are seen as circular structures with high backscattering on the sonar records. 相似文献
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TAN Furong LI Yang DU Fangpeng LIU Shiming CUI Weixiong LIU Zhiwu GENG Qingming LU Ping 《《地质学报》英文版》2021,95(2):602-616
The Qilian permafrost of the South Qilian Basin (SQB) has become a research focus since gas hydrates were discovered in 2009.Although many works from different perspectives have been conducted in this area,the origin of gas from gas hydrate is still controversial.Molecular composition and carbon isotope of 190 samples related to gas hydrates collected from 11 boreholes allowed exploration of genetic type,thermal maturity, biodegradation,as well as gas-source correlation of alkane gases from gas hydrates and free gases.Results indicate that alkane gases biodegraded after the formation of natural gas.According to differences in carbon isotopes of methane and their congeners (CH4,C2H6,C3H8),the thermal maturity (vitrinite reflectance,VRo) of most alkane gases ranges from 0.6% to 1.5%,indicating a mature to high mature stage.The thermal maturity VRo of a small part of alkane gas (in boreholes DK5 and DK6) is higher than 1.3%,indicating a high mature stage.Alkane gases were mainly produced by secondary cracking,consisting of crude oil-cracking gases and wet gases cracking to dry gases.Genetic types of alkane gases are primarily oil-type gases generated from shales and mudstones in the upper Yaojie Formation of Jurassic,with less coal-type gases originated from the mudstones in the Triassic Galedesi Formation and the lower Yaojie Formation of Jurassic.Carbon dioxides associated with alkanes from gas hydrates and free gases indicate the thermal decomposition and biodegradation of organic matter.The origins of natural gases from gas hydrates and free gases shed light on the evaluation of petroleum resource potential,deeply buried sediments,and petroleum resource exploration in the SQB. 相似文献
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多孔介质中天然气水合物稳定性的实验研究进展 总被引:8,自引:0,他引:8
勘探表明天然气水合物多产出于细碎屑沉积物中,其分布和赋存形式受温度、压力、水化学条件等多种物理化学因素的影响。前人的实验研究表明不同孔径尺度中的甲烷水合物稳定性有别于块状、层状水合物,同时孔隙表面的润湿性也是影响因素之一。在综合分析前人研究成果的基础上,系统阐述了孔隙的孔径、孔隙内表面润湿性对所含天然气水合物稳定性的影响规律,总结了可能的内在机理;并指出了当前应当尽快建立包括空间效应、温度、压力和组分等因素的综合天然气水合物相图,查明含天然气水合物沉积物的孔隙结构和表界面特征,建立天然气水合物的稳定性模型,将有助于精确预测天然气水合物的分布和规模,对于水合物开发和甲烷存储技术的研发也有着重要的意义。 相似文献
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中国海域的天然气水合物资源 总被引:12,自引:7,他引:5
天然气水合物是甲烷等天然气在高压、低温条件下形成的冰状固体物质。据估算,全球天然气水合物中碳的含量等于石油、煤等化石能源中碳含量的2倍。在人类面临化石能源即将枯竭的时候,各国科学家和政府都把目光投向这一未来能替代化石能源的新能源。新生代构造演化历史、沉积条件、沉积环境等显示,南海具有生成和蕴藏巨大天然气水合物资源的条件;南海海域的地震反射剖面多处显示存在BSR反射波;2007年已钻探见到水合物样品。东海冲绳海槽在第四纪的沉积速率高(10~40cm/ka),槽坡存在泥底辟构造和断裂活动,从上新世以来发生过两次构造运动,这些对天然气水合物的形成是十分有利的;因此,中国海域的天然水合物资源是十分丰富的,在不远的将来它可能成为新的替代能源。 相似文献