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文章以滇东南浅水湖泊异龙湖作为研究对象,通过对湖泊不同位置的40个表层沉积物样品进行粒度测试,结合流域自然地理要素和人类活动特征,分析了异龙湖表层沉积物粒度空间分布特征,并探讨了其影响因素。结果表明,异龙湖表层沉积物沉积类型主要有粘土质粉砂、粉砂质粘土以及砂-粉砂-粘土3种,其中以粘土质粉砂类型为主,其次为粉砂质粘土。粉砂(4~63μm)为异龙湖表层沉积物优势粒径成分,其含量介于57.08%~82.41%,其次为粘土(小于4μm),介于11.22%~35.58%,砂组分(大于63μm)含量最低,含量介于0.16%~25.80%。异龙湖表层沉积物具有明显的空间分布特征,其中粉砂类似同心圆的空间分布特征,其含量由湖区的中间地带分别向西北、西南、东南3个方向递增;而粘土含量则呈现出相反的趋势。由于受断层影响,异龙湖表层沉积物各粒度组分形成了西北、东南两个相对对称的区域;西北湖区沉积物粒度分布特征同时受自然环境与人类活动的影响,沉积物类型主要有粘土质粉砂和粉砂质粘土,其中以粘土质粉砂为主;而东南深水湖区由于受人为干扰因素较弱,可以视为认识自然状态下物质搬运过程、探讨水动力特征以及研究自然湖泊沉积和气候变化的理想场所。 相似文献
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ODP204航次天然气水合物的可能有利储层——浊积层 总被引:3,自引:1,他引:3
为了解岩性在天然气水合物分布中的作用, 利用岩矿鉴定、扫描电镜和能谱法对ODP204航次的 4个站位 10个钻孔共计 115个沉积物样品进行分析, 发现沉积物中矿物成分基本相近, 以粘土矿物为主, 含少量以石英为主的陆源碎屑。样品中含有丰富的硅藻和有孔虫等微体化石, 可形成硅藻粘土—硅藻土、有孔虫硅藻土或凝灰质硅质生物粘土。石英碎屑大多呈棱角状, 粒径小、含量少, 同时, 样品中可见透镜体、团块或旋涡状层状结构以及杂乱堆积的斑杂构造。上述特征表明沉积物为含有大量深海或半深海的浊流沉积物或其夹层。由于钻井岩心中有相当部分的天然气水合物样品分布在上述沉积物中, 推断这些浊流沉积物很可能是ODP204航次天然气水合物的有利储层。 相似文献
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沉积物粒度对水合物形成的制约:来自IODP 311航次证据 总被引:1,自引:0,他引:1
对取自IODP 311航次(东北太平洋Cascadia大陆边缘)所有5个站位、采样间距约为1.5 m的614件沉积物样品,利用Beckman Coulter LS 230激光粒度仪进行了沉积物粒度分析,获得了沉积物粒度随深度变化特征,进而与水合物层位的替代指标进行了位置对比,这些指标包括特殊沉积构造(soupy和mousse like构造)、测井数据(LWD)推算出来的水合物饱和度(Sh)、岩芯红外图像和实际钻取的含水合物沉积物等。发现沉积物粒度分别为31~63 μm和63~125 μm的2组较粗粒径的沉积物数量变化增多的位置与水合物出现层位之间存在较好的位置对应关系。如在U1326站位海底以下5~8 m、21~26 m、50~123 m、132~140 m、167~180 m、195~206 m、220~240 m深度位置出现了沉积物粒度明显偏向粗粒的趋势,而这些位置正好对应于大多数特殊沉积构造出现的深度,也对应于水合物饱和度(Sh)值相对较高的深度,并与一些实际钻取的赋含水合物的浊积沙层观察结果一致。因此,初步研究后认为,沉积物粒度在水合物形成过程中扮演了重要角色,天然气水合物可能偏向形成于粒度大于31 μm的粗粒沉积物中。
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南海北部海区海底沉积物中孔隙水的Cl~-和SO_4~(2-)浓度异常特征及其对天然气水合物的指示意义 总被引:41,自引:9,他引:32
报道了中国南海北部海区海底沉积物中孔隙水的Cl-和SO42-质量浓度的变化特征, 圈定了孔隙水中Cl-质量浓度的高值异常区。由于水合物形成过程中的排盐效应, 会使其上覆浅表层沉积物中孔隙水的盐度增高, 因此这些氯离子的高值异常区值得进一步的勘查。对孔隙水中SO42-的质量浓度分析表明, 研究区的一些站位表现出随深度增加SO42-的质量浓度梯度发生明显的变化, 计算的硫酸盐甲烷交接带SMI界面深度均在 10m左右, 与ODP164航次和ODP204航次有天然气水合物的钻孔的SMI界面深度基本吻合, 说明这些站位深部有天然气水合物存在的可能性。 相似文献
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《矿物岩石地球化学通报》2016,(3)
为探讨河北曹妃甸人工填海对近岸海域沉积环境及水动力条件的影响,对该区沉积物粒度特征进行了研究。利用LS13320系列激光粒度分析仪对13个站位沉积物粒度进行测试,分析了其粒级组成与特征参数。结果表明,研究区分为3个岩性区:北部海域潮间带沉积物以砂质粉砂为主;中部工业区周围海域沉积物偏粗,以粉砂质砂为主;南部沿岸海域沉积物较细,以黏土质粉砂为主。沉积物平均粒径介于2.94~6.87Φ,粒级组分为黏土、粉砂和砂,质量分数平均值分别为18.16%、52.30%和29.53%。粒度频率曲线偏态Ski为0.07~0.81,峰态Kg为0.63~2.21,自北向南,由单峰逐渐过渡为主峰或弱峰,与2007年人工填海初期沉积环境相比,沉积物类型变单一、组分粗化,表明人工填海工程对曹妃甸近岸海域沉积环境是有影响的。 相似文献
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渤海湾西部表层沉积物粒度特征与沉积混合 总被引:2,自引:0,他引:2
根据渤海湾西部135个表层沉积物样品的粒度分析结果,分析了表层沉积物的粒度特征与规律。整体上由研究区东北部沿海岸向南沉积物粒度变细,由砂和粉砂质砂变为砂质粉砂,再变为粘土质粉砂。沉积物粒度频率曲线显示,由研究区东北部至北部,沉积物粗组分含量减少,由单峰逐渐过渡为主峰或弱峰,到中部粗组分减少为粗尾形态,到南部粗组分几乎缺失;而沉积物细组分的变化趋势则与之相反。沉积物粗组分在粒度频率曲线上的表现由单峰逐渐过渡至主峰或次峰,粗峰含量减少,到中部粗组分减少为粗尾形态,到南部粗组分几乎消失;而沉积物细组分的变化趋势则与之相反。沉积物粒度参数的平面分布规律和粒度参数之间的相关性变化形态显示出粗细2种母质组分以不同比例的沉积混合的特征,即来自东北部的粗组分与来自南部的细组分发生混合,这可能主要与区内双向的沿岸环流输运有关。 相似文献
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《地学前缘》2017,(2):234-245
本文采用ODP/IODP典型站位样品实测和相关数据搜集对比研究的方法,进行了多种游离烃甲烷及相关指标在水合物形成过程中的地质作用和地球化学特征研究,以及酸解烃甲烷与围岩组分和沉积中自生碳酸盐、浊积岩的关系及地球化学特征的研究,据此筛选出判识水合物稳定带(GHSZ)的地球化学标志。结果显示:(1)下伏地层中游离甲烷异常是天然气水合物稳定带孔隙中赋存动态甲烷的反映,由于指标测试方法和沉积物状态的差异,深部水合物稳定带上呈现出特定的两种游离烃甲烷指标HS和VAC正负拆离分隔的异常模式;(2)酸解烃与地层吸附甲烷能力和围岩组分性质密切相关,对应于水合物最佳赋存条件的自生碳酸盐和浊流岩,酸解烃甲烷具有显著的量化异常特征;(3)水合物形成过程中甲烷通量促进了甲烷厌氧氧化反应(AMO)和自生碳酸盐的生成。酸解烃甲烷与浅层自生碳酸盐具有显著的对应关系,弥补了浅部沉积中游离烃甲烷异常具多源和多解性的不足;(4)游离烃甲烷异常组合模式和酸解烃甲烷量化异常分布是GHSZ和有利水合物赋存条件的综合反映,能够为水合物稳定带和带内水合物聚集的判识提供依据。 相似文献
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粒度分析结果揭示了研究区内沉积物类型:细砂、粉砂质砂、砂质粉砂、砂-粉砂-粘土、粘土质粉砂、粉砂质粘土。沉积物从西北部的陆架中西南部的陆坡区,颗粒由粗变细,水动力较强,从西北产的陆架区向东南部的陆坡区,粒级含量发生变化,砂与粉砂含量从70%递减为51.5%,粘土含量从30%递增为48.5%。水动力由强变弱。粒度分析资料的研究对沉积物来源及沉积环境的分析提供依据。 相似文献
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Abstract: Stratigraphic controls on the formation and distribution of gas hydrates were examined for sediments from a BH-1 well drilled in the landward slope of the Nankai Trough, approximately 60 km off Omaezaki, Japan. Three lithologic units were recognized in the 250 m-thick sequence of sediments: Unit 1 (0–70 mbsf) consists of calcareous silt and clay with thin volcanic ash layers, Unit 2 (70–150 mbsf) consists of calcareous silt and clay with volcanic ash and thin sand layers, and Unit 3 (150–250 mbsf) consists of weakly consolidated calcareous silt and clay with thick and frequent sand layers. Soupy structures and gas bubbles in the sediments indicate the presence of two hydrate zones between 40 and 130 mbsf and below 195 mbsf. Nannofossil biostratigraphy and magnetostratigraphy indicate that the sequence recovered at the BH-1 well is mostly continuous and represents sediments deposited from 0 to 1.5 Ma. Calculation of the sedimentation rate reveals a condensed section between 65 and 90 mbsf. The inferred distribution of gas hydrates in the BH-1 well appears to be strongly controlled by the stratigraphy and lithology of the sediments. Thick, gently inclined sand layers in Unit 3 provide a conduit for the migration of gases from deeper regions, and are considered responsible for the formation of the hydrate zone below 195 mbsf. At shallower levels, thin, gently inclined sand layers are also considered to allow for the migration of gases, leading to the formation of the upper hydrate zone between 40 and 130 mbsf. The overlying sub-horizontal silt and clay of the condensed section, truncating the underlying gently inclined sand and silt/clay layers, may provide an effective trap for gases supplied through the sand layers, further contributing to hydrate formation in the upper hydrate zone. 相似文献
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为了探讨水合物储层中不同黏土矿物与水合物饱和度的关系,选取位于东太平洋水合物海岭国际大洋钻探计划204航次中的3个钻孔(1245B孔、1244C孔和1251B),开展储层沉积物黏土矿物的测试和综合分析。结果表明,蒙脱石、伊利石、绿泥石为主要黏土矿物(平均含量分别为40.3%、33.4%、21.4%);高岭石为次要黏土矿物(平均4.9%)。伊利石、绿泥石、高岭石三种矿物含量的垂向变化规律相似,但它们与蒙脱石的垂向变化趋势相反。该区水合物饱和度与蒙脱石含量呈正相关,且正相关程度在“细粒岩性”层段较高(R=0.55~0.97);水合物饱和度与伊利石、绿泥石、高岭石则显示负相关。3个钻孔中水合物储层厚度、水合物饱和度在各钻孔中分布的差异性表明水合物饱和度的受控因素复杂,首先是气源和流体迁移与供给,其次为沉积物岩性;而“细粒岩性”层段较高含量蒙脱石与水合物饱和度正相关关系可能代表了更次一级的沉积影响因素。为检验其它海区是否也存在黏土矿物对水合物饱和度的影响,将上述3个钻孔与印度外海Krishna-Godavari盆地17-07P钻孔记录进行对比。结果显示,17-07P孔的砂含量高,在粗砂层蒙脱石含量与水合物饱和度呈正相关,反映两个海域岩性对水合物饱和度控制机理不同。上述“细粒岩性”层段蒙脱石含量和伊利石、绿泥石、高岭石3种黏土矿物含量与水合物饱和度之间相关性的差异,可能因为蒙脱石具有特殊层状结构和表面化学性质(层间表面带负电荷、具有可交换的层间水合阳离子等),有利于促进水合物的形成和富集,因而表现为正相关;而伊利石、绿泥石、高岭石自身属性与蒙脱石不同(吸水膨胀能力、对甲烷的吸附能力较蒙脱石弱),不利于水合物的聚集,表现为负相关。 相似文献
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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
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通过对神狐海域沉积物组分与水合物成藏关系的研究, 得到SH7B孔含水合物层(155~177 m)有孔虫丰度以及有孔虫壳体微结构与水合物饱和度的关系.结果表明, 有孔虫丰度与水合物饱和度有良好的对应关系, 有孔虫丰度高, 水合物饱和度也高; 反之亦然.有孔虫丰度与水合物饱和度二者的相关系数为0.72, 说明有孔虫与水合物的分布和富集有关.扫描电镜研究表明, 有孔虫成岩作用不明显, 有孔虫为有效孔隙, 有孔虫独特的壳体结构增加了沉积物的孔隙空间, 有利于水合物的储存和富集.大部分有孔虫壳体大小相当于砂粒级, 它的存在一方面增加沉积物粗组分砂的含量, 另一方面增加沉积物的孔隙度.沉积物中生物组分——有孔虫, 是南海神狐海域水合物富集的重要因素之一. 相似文献
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Subsurface Occurrence of Natural Gas Hydrate in the Nankai Trough Area: Implication for Gas Hydrate Concentration 总被引:2,自引:0,他引:2
Abstract. The Nankai Trough runs along the Japanese Islands, where extensive BSRs have been recognized in its forearc basins. High resolution seismic surveys and site-survey wells undertaken by the MITI have revealed the gas hydrate distribution at a depth of about 290 mbsf. The MITI Nankai Trough wells were drilled in late 1999 and early 2000. The highlights were successful retrievals of abundant gas hydrate-bearing cores in a variety of sediments from the main hole and the post survey well-2, keeping the cored gas hydrate stable, and the obtaining of continuous well log data in the gas hydrate-dominant intervals from the main hole, the post survey well-1 and the post survey well-3. Gas-hydrate dominant layers were identified at the depth interval from 205 to 268 mbsf. Pore-space hydrate, very small in size, was recognized mostly filling intergranular pores of sandy sediments. Anomalous chloride contents in extracted pore water, core temperature depression, core observations as well as visible gas hydrates confirmed the presence of pore-space hydrates within moderate to thick sand layers. Gas hydrate-bearing sandy strata typically were 10 cm to a meter thick with porosities of about 40 %. Gas hydrate saturations in most hydrate-dominant layers were quite high, up to 90 % pore saturation.
All the gas hydrate-bearing cores were subjected to X-ray CT imagery measurements for observation of undisturbed sedimentary textures and gas-hydrate occurrences before being subjected to other analyses, such as (1) petrophysical properties, (2) biostratigraphy, (3) geochemistry, (4) microbiology and (5) gas hydrate characteristics. 相似文献
All the gas hydrate-bearing cores were subjected to X-ray CT imagery measurements for observation of undisturbed sedimentary textures and gas-hydrate occurrences before being subjected to other analyses, such as (1) petrophysical properties, (2) biostratigraphy, (3) geochemistry, (4) microbiology and (5) gas hydrate characteristics. 相似文献
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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
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Abstract. The Nankai Trough parallels the Japanese Island, where extensive BSRs have been interpreted from seismic reflection records. High resolution seismic surveys and drilling site-survey wells conducted by the MTI in 1997, 2001 and 2002 have revealed subsurface gas hydrate at a depth of about 290 mbsf (1235 mbsl) in the easternmost part of Nankai Trough. The MITI Nankai Trough wells were drilled in late 1999 and early 2000 to provide physical evidence for the existence of gas hydrate. During field operations, continuous LWD and wire-line well log data were obtained and numerous gas hydrate-bearing cores were recovered. Subsequence sedimentologic and geochemical analyses performed on the cores revealed important geologic controls on the formation and preservation of natural gas hydrate. This knowledge is crucial to predicting the location of other hydrate deposits and their eventual energy resource. Pore-space gas hydrates reside in sandy sediments from 205 to 268 mbsf mostly filling intergranular porosity. Pore waters chloride anomalies, core temperature depression and core observations on visible gas hydrates confirm the presence of pore-space hydrates within moderate to thick sand layers. Gas hydrate-bearing sandy strata typically were 10 cm to a meter thick. Gas hydrate saturations are typically between 60 and 90 % throughout most of the hydrate-dominant sand layers, which are estimated by well log analyses as well as pore water chloride anomalies.
It is necessary for evaluating subfurface fluid dlow behavious to know both porosity and permeability of gas hydrate-bearing sand to evaluate subsurface fluid flow behaviors. Sediment porosities and pore-size distributions were obtained by mercury porosimetry, which indicate that porosities of gas hydrate-bearing sandy strata are approximately 40 %. According to grain size distribution curves, gas hydrate is dominant in fine- to very fine-grained sandy strata. 相似文献
It is necessary for evaluating subfurface fluid dlow behavious to know both porosity and permeability of gas hydrate-bearing sand to evaluate subsurface fluid flow behaviors. Sediment porosities and pore-size distributions were obtained by mercury porosimetry, which indicate that porosities of gas hydrate-bearing sandy strata are approximately 40 %. According to grain size distribution curves, gas hydrate is dominant in fine- to very fine-grained sandy strata. 相似文献
18.
甲烷水合物在人工毛细管沉积物柱中的形成和分解 总被引:1,自引:0,他引:1
天然气水合物在海底的形成与沉积物性质密切相关,沉积物的粒度、孔隙度、矿物组成等都可以影响到水合物的成核生长。通过拉曼测试和显微镜下观察人工毛细管模拟沉积物中CH4水合物的形成和分解过程,实验发现无论是在气液界面还是在溶有过饱和CH4的流体内,水合物都能够成核形成,但水合物更容易在气液和固液界面成核,并迅速生长;水合物在较大粒径石英砂(39~53μm)形成的孔隙内的成核机会比在粘土粒级的砂粒孔隙中的机会更大;水合物晶体主要呈发丝状附着于沉积物颗粒表面。 相似文献
19.
对采自雷州半岛8个红树林湿地典型分布区的37个表层沉积物样品进行粒度分析,结果显示:(1)研究区表层沉积物粒度组成粉砂含量最高,占52. 9%;其次为砂,占27. 8%;黏土含量最低,占19. 3%。(2)研究区表层沉积物有砂质粉砂、黏土质粉砂、砂和粉砂质砂4种类型,其中砂质粉砂和黏土质粉砂主要分布在南山、高桥和观海长廊等地,砂和粉砂质砂主要分布在特呈岛、企水等地。(3)研究区沉积物平均粒径为5. 7,沉积物颗粒整体偏细;分选系数平均值为1. 90,分选较差;偏态平均值为-0. 14,为负偏;峰态平均为1. 07,峰态等级为中等。(4)通过系统聚类分析方法将研究区沉积环境分为三种类型,不同沉积环境水动力条件和环境特征差异明显。(5)沉积物砂粒含量与有机质含量、盐度呈极显著的负相关关系,与p H值呈正相关;粉砂含量与有机质含量、盐度呈极显著正相关,与p H值呈负相关;黏土含量与有机质含量、盐度正呈相关,与p H值则呈负相关。 相似文献
20.
科学大洋钻探与天然气水合物 总被引:7,自引:0,他引:7
天然气水合物是由水和甲烷等气体水分子组成的冰状物,主要分布于海洋陆坡区和陆地永久冻土带,是21世纪理想的替代能源。科学家已对天然气水合物的物理化学性质、产出条件、分布规律、勘查技术、开采工艺、经济评价及开采可能造成的环境影响等进行了广泛而深入的研究。大洋钻探计划(ODP)是获得深部含天然气水合物和游离气沉积物的唯一途径,已成功实施了164和 204两个以天然气水合物为主要目标的航次,分析研究了含天然气水合物沉积物的原位物理化学特性和地球物理性质,探讨了气体-水-沉积物-水合物间的相互作用机理,为气体储量计算提供了依据,对推动水合物研究作出了重大贡献。综合大洋钻探计划(IODP)的启动,将为人们深刻理解地球历史和地球系统过程(ESP),特别是认识天然气水合物在地质过程中的作用,提供前所未有的机会。 相似文献