共查询到19条相似文献,搜索用时 750 毫秒
1.
为了查明青藏高原乌丽冻土区天然气的组分与成因,对采集自乌丽水合物试验孔ZK1井及其周边钻孔的岩心顶空气、岩心解析气以及湖水气进行了组分和碳同位素测试分析,同时对ZK1井及其周边钻孔岩心中的碳酸盐岩碳同位素进行了测试分析。测试结果显示:该区天然气主要成分为二氧化碳,其含量在98%以上,烃类气体(主要为甲烷)含量很少;二氧化碳碳同位素主频在-4‰~-6‰(VPDB)之间,少量富烃样品的甲烷碳同位素主频介于-3238‰~-2782‰(VPDB)之间,碳酸盐岩的碳同位素平均值为-387‰(VPDB)。综合分析认为,研究区二氧化碳主要为幔源成因,可能与该区强烈的构造运动和岩浆活动有关。 相似文献
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利用气相色谱(GC)和气相色谱/同位素比值质谱(GC/IRMS)对东海近岸泥质区、济州岛西南泥质区和冲绳海槽北部表层沉积物中正构烷烃的单体碳同位素组成及分布进行了分析。结果显示东海不同泥质区典型海洋藻类源正构烷烃C19同位素组成基本相似,在-27.4 ‰ ~-28.0 ‰ 之间,平均为-27.7 ‰ 。典型海洋水生植物源C23同位素组成在-28.5 ‰ ~-31.6 ‰ 之间,平均为-30.5 ‰ ,碳同位素组成从近岸泥质区到冲绳海槽北部逐渐变重,表明海槽区与陆架区海洋水生植物种类有所不同。陆架区长链正构烷烃(C25~C31)部分随着碳数的增加,其同位素组成逐渐变轻,但海槽区这一变化不大,显示陆架区的陆源高等植物蜡具有相似的物源,而冲绳海槽北部由于黑潮主干区和黑潮分支(对马暖流)对陆架沉积物进入深海的控制性阻隔作用,其物源与陆架区区别较大。现代输入东海的陆源植物以C3植物为显著优势,C3植物对近岸泥质区北部、近岸泥质区南部、远端济州岛西南泥质区和冲绳海槽北部陆源植物的贡献分别为83 % ,95 %,75 % 和70 % 。 相似文献
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南海北部天然气水合物钻探区烃类气体成因类型研究 总被引:5,自引:2,他引:3
南海北部天然气水合物钻探区水合物气、顶空气样品和沉积物样品烃类气体组分和甲烷同位素特征测试结果表明,气体样品中烃类气体以甲烷为主,含微量乙烷和丙烷,C1/(C2+C3)值均大于或接近1 000。甲烷的碳同位素值为-54.1‰~-62.2‰,氢同位素值为-180‰~-255‰,属于微生物气或是以微生物气为主的混合气,甲烷由CO2还原生成,由原地提供或侧向运移而来。沉积物样品酸解烃分析显示多数样品甲烷丰度大于90%,含一定量的乙烷、丙烷及少量的丁烷,C1/(C2+C3)值均小于50。甲烷的碳同位素值为-29.8‰~-48.2‰,呈现典型的热解气特征,显示由深部运移而来。 相似文献
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为了弄清柴达木盆地东部石炭系海陆过渡相页岩气特征和成因,选取柴页2井石炭系克鲁克组泥页岩和页岩气样品展开地球化学研究。通过对泥页岩样品热解和镜检实验,页岩气现场解析、室内气体组分测试和碳同位素分析,取得以下认识:柴达木盆地上石炭统海陆过渡相煤系地层发育暗色泥页岩、碳质泥页岩、煤和泥灰岩4类富有机质沉积,TOC含量平均值分别为3.46%、12.34%、77.62%和1.89%,以Ⅲ型和Ⅱ2型干酪根为主,处于高成熟演化阶段,具备生成大量页岩气的物质基础。柴页2井现场解析气中氮气含量较高,含极少量Ar和He,烃类气体以甲烷为主,总体为干气;甲烷稳定碳同位素组成主要分布在-48.6‰~-39.8‰,介于海相和陆相页岩气之间,随深度增大,呈现碳同位素偏重的现象;页岩气以热成因气为主,其次是生物成因气。 相似文献
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对取自赣南地区10个温泉的地热气体进行了气体化学成分及氦、碳、氖同位素组成的分析。该区地热气体可分为CO2型和N2型两种类型。CO2型地热气体分布在赣南东南部地区,主要成分是CO2,占总体积96.47%以上,二氧化碳气体的δ13C值为 -5.50‰~-3.49‰(PDB),平均为 -4.66‰,为幔源无机成因,其氦同位素组成为1.36~2.27 Ra,具有明显的幔源成因特征,最高约有28.2%的氦源于地幔,其N2-Ar-He关系研究表明,该型地热气体中的氮源于地幔-地壳-大气混合成因。研究揭示该区CO2型地热气体属幔源无机成因气,是地幔脱气作用的产物。N2型地热气体分布在赣南西部地区,N2含量占91.04%以上,其中二氧化碳气体的δ13C值为 -23.7‰~-12.6‰,平均为 -17.82‰,为壳源有机成因,其氦同位素组成为0.06~0.13 Ra,具有明显的壳源放射性成因特征,3He/4He 与 4He/20Ne关系和He-Ar-N2关系研究表明,N2型温泉气主要来源于大气,并有壳源气体的贡献。 相似文献
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大庆兴城地区天然气组分和碳同位素具有“杂、干、重、反”4个基本特征,即天然气组分复杂多样,烃类气体中甲烷含量高,碳同位素重,烷烃碳同位素普遍出现反转序列.甲烷气体碳同位素重和烷烃碳同位素普遍出现反转序列是无机烃的特征,但并非其独有的特征.与烃类气体伴生的非烃类气体CO2、He的高含量与同位素分析表明具幔源成因特征,结合大庆兴城地区地质背景,认为不但非烃类气体具无机成因气,而且烃类气体中也有无机成因气的存在,反映出兴城地区天然气为有机成因与无机成因的混合气体.无机气体是岩浆与火山活动的产物. 相似文献
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由于松辽盆地南部浅层天然气成因研究比较薄弱,通过采集伏龙泉地区泉头组天然气样品,对天然气组分、碳同位素、轻烃组分进行了分析。结果表明该地区天然气有油型气和生物降解气2种成因。第一类天然气甲烷碳同位素值在-35‰左右,甲烷及其同系物碳同位素呈正碳分布;甲基环己烷指数在20%左右、环己烷指数略高于10%,符合油型气的特征。由甲烷碳同位素计算的R0值,以及轻烃中的庚烷值和异庚烷值均在高-过成熟的范围,因此是高成熟的油型气。第二类天然气甲烷碳同位素偏轻,丙烷碳同位素偏重;轻烃色谱图中以环烷烃为主峰,轻烃内组成中支链烷烃和环烷烃含量高,各项轻烃参数(甲基环己烷指数、庚烷值、K1值等)都在较大范围内波动,为生物降解气。这一研究对于今后该区天然气勘探与资源评价及其成藏机理研究具有重要意义。 相似文献
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煤层气的成因研究可以为煤层气勘探与开发提供科学依据,然而,煤层气的氢碳同位素组成受多种因素的影响,以前较多的研究是成气母质性质和成熟度对煤层气氢碳同位素的影响,对于成煤物质形成的气候环境对热解煤层气同位素的影响尚不清楚.热解模拟了高纬度寒冷干旱和低纬度热带湿润环境的草本泥炭,对热解烃类气体的氢碳同位素组成及其差异性进行了研究.研究结果表明:与低纬度热带湿润环境中形成的草本泥炭相比较,高纬度寒冷干旱环境的草本泥炭热解甲烷、乙烷和丙烷具有轻的氢同位素组成和重的碳同位素组成,并且从泥炭连续热解至Ro分别为2.5%、3.5%和5.5%时,甲烷、乙烷和丙烷δD值分别平均降低-17‰~-10‰、-32‰~-28‰和-25‰~-17‰,甲烷和乙烷δ13C值分别平均升高2.9‰~3.6‰和0.9‰~1.1‰.认为这种同位素差异起因于气候环境对形成泥炭的植物氢碳同位素组成的影响.建立了高纬度寒冷干旱和低纬度热带湿润环境中形成的成煤有机质热解烃类气体氢碳同位素组成与Ro之间的关系式,同时也建立了烃类气体的碳和氢同位素之间的关系式.这些研究成果为不同气候环境下形成的成煤有机质生成的煤层气成因研究提供了科学依据. 相似文献
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川西坳陷中段天然气碳同位素特征及其成因类型 总被引:3,自引:1,他引:2
川西坳陷中段天然气的组份以烃类气体为主,占气体总体积的98.1%~99.7%;非烃气体以CO,2和N2为主,其含量分别占气体的0.12%~1.32%和0.25%~1.54%;烃类气体中以甲烷占绝对优势,平均含量为95.83%;重烃含量较低,平均为3.21%;干燥系数(C1/C,1-5>)平均为0.97,整体上属典型的干气.川西坳陷中段的所有样品δ13C,2都大于-25.8‰,属于典型的煤型气范畴,天然气的δ13C,1δ'13C,2δ13C,3,呈明显的正序排列,显示出天然气为典型的有机成因.甲烷碳同位素组成,反映了其母质演化程度已处于成熟~高成熟阶段,且以高成熟阶段为主. 相似文献
11.
Hydrocarbon gases (methane, ethane, ethene, propane, propene, isobutane and n-butane) are present in low concentrations in the top two meters of sediment from the shelf, slope and basin of the Bering Sea. Methane is most abundant and its concentration increases with depth in the sediment. Average concentrations of methane recovered from these sediments are between about 4000 and 5000 nl per 1 of interstitial water. Ethane, ethene, propane and propene are present in almost all samples, but the concentrations of these gases are about two orders of magnitude lower than the concentration of methane. The average ratios of ethane to ethene are usually greater than one in shelf sediment, about one in slope sediment, and usually less than one in basin sediments. These hydrocarbon gases are probably derived from low-temperature chemical and biochemical processes operating at or near the sea-floor. At one location on the shelf, hydrocarbon gases suggest the possibility of petroleum at depth. 相似文献
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Haiping Huang Jie Yang Yufeng Yang Xiujuan Du 《International Journal of Coal Geology》2004,58(4):231-244
Chemical composition and stable carbon isotopic studies were undertaken for 27 gas samples from deep strata of the Xujiaweizi Depression in the Songliao Basin to investigate their origin. Gas molecular and carbon isotopic compositions show great variety. Methane is the main component for all studied samples and its content ranges from 57.4% to 98.2% with an average of 90.1%. Gas wetness ranges from 0.8% to 16.7% with an average of 2.7%. The main non-hydrocarbon gases are carbon dioxide and nitrogen with an average of 4.0% and 3.2%, respectively. Carbon isotope data suggest that these deep strata gases are mainly coal-type gases mixed with minor amounts of associated (oil-type) gases. Coal-type gases are characterized by heavier carbon isotopic values and drier chemical compositions. These gases were generated from the Lower Cretaceous Shahezi Formation coals interbedded shales with type III kerogen during the postmature stage of hydrocarbon generation. Oil-type gases are characterized by lighter carbon isotope and higher wetness, which were generated from the Lower Cretaceous shales with type II kerogen in the shallow strata during the early mature stage of hydrocarbon generation. Mixing of two different gases causes unusual carbon isotopic distribution patterns, with lighter isotopic values in higher numbered carbons in most gases. The discovery of coal-type gases in the Songliao Basin provides new prospects for the exploration in this region. 相似文献
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徐家围子断陷深层天然天的形成 总被引:8,自引:0,他引:8
通过对松辽盆地徐家围子断陷深层天然气的地质和地球化学分析,揭示了天然气的成因特征和形成过程。该区天然气的分子组成和同位素组成均显示出较大的变化,甲烷是天敢中的主要组分,质量分数在57.4%-98.2%之间,平均为90.1%,主要非烃气体是CO2和N2,平均质量分数分别为4.9%和3.2%,且CO2质量分数变化范围较大,气体同位素分析结果表明,甲烷同位素显示煤型气特征,而乙烷和丙烷的同位素显示油型 的特征,表明徐家子深部除煤和III型干酪根作为主要气源外,仍有一定含量趋于生油的II型干酪根作为次要气源,实测和计算结果证实天然气主要是有机质在高成熟阶段形成的产物,运移过程中和成藏后的次生变化使天然气的组成和同位素面目变得非常复杂,尤其是由盖层微渗漏造成的蒸发分馏的作用使同位素出现例转,徐家围子断陷深层煤型气的发现为 相似文献
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徐家围子断陷深层天然气的形成 总被引:6,自引:0,他引:6
通过对松辽盆地徐家围子断陷深层天然气的地质和地球化学分析 ,揭示了天然气的成因特征和形成过程。该区天然气的分子组成和同位素组成均显示出较大的变化 ,甲烷是天然气中的主要组分 ,质量分数在 57.4 % - 98.2 %之间 ,平均为 90 .1%。主要非烃气体是CO2 和N2 ,平均质量分数分别为 4 .9%和 3.2 % ,且CO2 质量分数变化范围较大。气体同位素分析结果表明 ,甲烷同位素显示煤型气特征 ,而乙烷和丙烷的同位素显示油型气的特征 ,表明徐家围子深部除煤和Ⅲ型干酪根作为主要气源外 ,仍有一定含量趋于生油的Ⅱ型干酪根作为次要气源 ,实测和计算结果证实天然气主要是有机质在高成熟阶段形成的产物。运移过程中和成藏后的次生变化使天然气的组成和同位素面目变得非常复杂 ,尤其是由盖层微渗漏造成的蒸发分馏作用使同位素出现倒转。徐家围子断陷深层煤型气的发现为该区油气勘探展示出了更广阔的前景。 相似文献
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塔里木盆地东部地区天然气地球化学特征及成因探讨(之一) 总被引:16,自引:0,他引:16
塔里木盆地是世界上勘探程度较低的大型盆地之一。近年来在该盆地中进行了大规模的油气勘探,发现了一系列的油、气田,其油、气资源量近似1∶1,说明在该盆地中天然气资源非常丰富。该盆地已发现的天然气主要分布在塔里木盆地东部地区的塔北隆起、塔中隆起和库车拗陷。天然气主要与凝析油及原油伴生。该盆地天然气组分分析表明,已发现的天然气藏绝大多数烃类气体含量大于65%;非烃气体CO2含量小于5%,N2含量小于10%。一些天然气中N2含量达25%到35%。在塔北隆起油气藏中天然气的干湿指数(C1/C2+比值)具有从东到西降低的趋势,天然气中N2含量具有从东到西升高的趋势,天然气甲烷的碳同位素组成也具有由东到西变轻的趋势,结合该区的地质背景可知造成这一趋势的主要因素可能是由于该区下古生界烃源岩热演化程度具有东高西低的特征。 相似文献
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江西省横迳温泉区地热气体地球化学 总被引:2,自引:0,他引:2
从赣南横迳温泉区采集10个水样并分析了温泉及冷泉的水化学成分,认为热水起源于大气降水补给。在此基础上,还在温泉区采集了4个气样,测定了气体组分的含量及氦同位素.以及CO2和CH4的碳同位素。研究结果表明:横迳地区温泉气中CO2的含量很高(>96%),δCCO2较重(-4.43‰~-5.50‰),属幔源CO2;He同位素特征值(R/Ra)变化于1.36~2.11之问.均大于1,有幔源He的加入;本区温泉气的的组合类型为二氧化碳幔源温泉气,从整体上来说属于幔源无机成因气,是地幔脱气的产物。 相似文献
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Tobias F. Ertefai Verena B. Heuer Christoph Vogt Jeffrey Seewald 《Geochimica et cosmochimica acta》2010,74(21):6033-6048
Sorption of volatile hydrocarbon gases (VHCs) to marine sediments is a recognized phenomenon that has been investigated in the context of petroleum exploration. However, little is known about the biogeochemistry of sorbed methane and higher VHCs in environments that are not influenced by thermogenic processes. This study evaluated two different extraction protocols for sorbed VHCs, used high pressure equipment to investigate the sorption of methane to pure clay mineral phases, and conducted a geochemical and mineralogical survey of sediment samples from different oceanographic settings and geochemical regimes that are not significantly influenced by thermogenic gas. Extraction of sediments under alkaline conditions yielded higher concentrations of sorbed methane than the established protocol for acidic extraction. Application of alkaline extraction in the environmental survey revealed the presence of substantial amounts of sorbed methane in 374 out of 411 samples (91%). Particularly high amounts, up to 2.1 mmol kg−1 dry sediment, were recovered from methanogenic sediments. Carbon isotopic compositions of sorbed methane suggested substantial contributions from biogenic sources, both in sulfate-depleted and sulfate-reducing sediments. Carbon isotopic relationships between sorbed and dissolved methane indicate a coupling of the two pools. While our sorption experiments and extraction conditions point to an important role for clay minerals as sorbents, mineralogical analyses of marine sediments suggest that variations in mineral composition are not controlling variations in quantities of sorbed methane. We conclude that the distribution of sorbed methane in sediments is strongly influenced by in situ production. 相似文献
19.
A review of the geochemistry of methane in natural gas hydrate 总被引:7,自引:0,他引:7
Keith A. Kvenvolden 《Organic Geochemistry》1995,23(11-12)
The largest accumulations on Earth of natural gas are in the form of gas hydrate, found mainly offshore in outer continental margin sediment and, to a lesser extent, in polar regions commonly associated with permafrost. Measurements of hydrocarbon gas compositions and of carbon-isotopic compositions of methane from natural gas hydrate samples, collected in subaquatic settings from around the world, suggest that methane guest molecules in the water clathrate structures are mainly derived by the microbial reduction of CO2 from sedimentary organic matter. Typically, these hydrocarbon gases are composed of > 99% methane, with carbon-isotopic compositions (δ13CPDB) ranging from − 57 to − 73‰. In only two regions, the Gulf of Mexico and the Caspian Sea, has mainly thermogenic methane been found in gas hydrate. There, hydrocarbon gases have methane contents ranging from 21 to 97%, with δ13C values ranging from − 29 to − 57‰. At a few locations, where the gas hydrate contains a mixture of microbial and thermal methane, microbial methane is always dominant. Continental gas hydrate, identified in Alaska and Russia, also has hydrocarbon gases composed of > 99% methane, with carbon-isotopic compositions ranging from − 41 to − 49‰. These gas hydrate deposits also contain a mixture of microbial and thermal methane, with thermal methane likely to be dominant. Published by Elsevier Science Ltd 相似文献