Origins of High H_2S-bearing Natural Gas in China   总被引：2，自引：0，他引：2  

ZHU Guangyou  ZHANG Shuichang  LIANG Yingbo  DAI Jinxing  LI Jian Research Institute of Petroleum Exploration  Development  China National Petroleum Corporation  Beijing 《《地质学报》英文版》2005,79(5):697-708

Natural gas containing hydrogen sulphide （H2S） has been found in several petroliferous basins in China, such as the Sichuan Basin, Bohai Bay Basin, Ordos Basin, Tarim Basin, etc. Natural gas with higher HES contents （HES 〉5 % mol.） is mostly distributed in both the gas reservoirs of Dukouhe, Luojiazhai, Puguang and Tieshanpo, which belong to the Triassic Feixianguan Formation in the northeastern Sichuan Basin and those of the Kongdian-Shahejie formations in the northeastern Jinxian Sag of the Jizhong Depression, Bohai Bay Basin. In the Sichuan Basin, the HES contents of natural gas average over 9% and some can be 17 %, while those of the Bohai Bay Basin range from 40 % to 92 %, being then one of the gas reservoirs with the highest H2S contents in the world. Based on detailed observation and sample analysis results of a total 5000 m of core from over 70 wells in the above-mentioned two basins, especially sulfur isotopic analysis of gypsum, brimstone, pyrite and natural gas, also with integrated study of the geochemical characteristics of hydrocarbons, it is thought that the natural gas with high HES contents resulted from thermochemical sulfate reduction （TSR） reactions. Among them, the natural gas in the Feixianguan Formation resulted from TSR reactions participated by hydrocarbon gas, while that in the Zhaolanzhuang of the Jinxian Sag being the product of TSR participated by crude oil. During the consumption process of hydrocarbons due to TSR, the heavy hydrocarbons were apt to react with sulfate, which accordingly resulted in the dry coefficient of natural gas increasing and the carbon isotopes becoming heavier.  相似文献   

埕东泡沫复合驱HPAM溶液黏度影响因素及对策研究     

王劲松  陈景军 《海洋地质译丛》2010,(3):53-55,63

在油田现场复合体系的注入过程中,用回注污水配制的聚合物溶液黏度逐步下降至1～5 mPa.s,影响了现场试验效果。通过研究污水水质状况、腐蚀性、现场使用的各种化学剂以及泡沫驱体系引入的各因素对聚合物溶液黏度的影响,确定了聚合物黏度下降的主要因素,即污水中含有硫化氢（负二价硫）是造成井口注聚黏度低的主要原因。分析认为,负二价硫的来源主要是由于泡沫剂在硫酸盐还原菌的作用下转化产生的。根据聚合物黏度变化规律和降解机理,开展了聚合物黏度保留措施研究,并开展了聚合物降解抑制剂和氧化脱硫技术的现场试验。现场试验结果表明,配注聚合物溶液黏度可保持在15 mPa.s以上,增黏效果明显,对于注聚驱提高注入质量和效果具有指导意义。  相似文献   

Biostratigraphy versus isotope geochronology: Testing the Urals island arc model     

Svetlana Tessalina  Cristina Talavera  Michael E. Pritchin  Victor Puchkov 《地学前缘(英文版)》2019,10(1):119-125

Formation of the Urals volcanic-hosted massive sulphide(VHMS) deposits is considered to be related with the intra-oceanic stage of island arc(s) development in the Upper Ordoviciane Middle Devonian based on the biostratigraphic record of ore-hosting sedimentary rocks. However, the direct Re-Os dating of four known VHMS systems in the Urals gives significantly younger Re-Os isochron ages ranging from355 ± 15 Ma up to 366 ± 2 Ma. To address this discrepancy, we performed SHRIMP U-Pb dating on zircons extracted from rhyodacites(Eifelian biostratigraphic age of 393 -388 Ma) from the footwall of the Alexandrinka VHMS deposit which has a Re-Os isochron age of sulphides of 355 ± 15 Ma.New ²⁰⁶ Pb/²³⁸ U mean age of 374 ± 3 Ma(MSWD ? 1.4 and probability ? 0.11) is considered to be the crystallisation age of the host volcanic rock. This age is ca. 15 Ma younger than the Eifelian(393 -388 Ma)biostratigraphic age and overlaps the Frasniane Famennian boundary(372 ± 2 Ma), characterised by the final stages of Magnitogorsk Arc e East European continent collision. Such an inconsistency with geochronological age may be due to a reburial of conodonts during resedimentation as a result of erosion of older rocks in younger sedimentary sequences.  相似文献   

安徽铜陵马山层控金铜硫矿床成因          下载免费PDF全文

邵毅  张遵忠  吴昌志  李爱菊  顾连兴 《地质找矿论丛》2010,25(4):310-318,335

安徽铜陵马山金铜硫矿床产于中石炭统黄龙组白云岩与灰岩地层之间,主矿体呈层状。矿石结构构造、成矿元素地层学分带、硫化物矿物微量元素地球化学和硫、铅同位素等特征表明,该矿床是中石炭世海底喷流沉积的块状硫化物矿床,成矿后在燕山期又受到了石英闪长岩体的改造和叠加。在长江中、下游断裂拗陷带中有许多硫化物矿床在成因上与马山相似。研究表明,在晚古生代,有一片洋壳拖着扬子板块往北向华北板块俯冲,故这类矿床形成于扬子古陆北缘的被动大陆边缘环境。  相似文献   

Sulphur cycling in organic-rich marine sediments from a Scottish fjord   总被引：1，自引：0，他引：1  

SIMON H. BOTTRELL  ROBERT J.G. MORTIMER  IAN M. DAVIES†  S. MARTYN HARVEY‡  MICHAEL D. KROM 《Sedimentology》2009,56(4):1159-1173

In this study, the biogeochemical transformations of sulphur in organic‐rich marine sediments in a Scottish fjord are investigated by a combination of pore water and sediment geochemistry with sulphide diffusive gradient thin‐film probes and sulphate isotopic data (δ³⁴S and δ¹⁸O). Particular attention is paid to sulphur cycling in the upper sediment profile where sulphate reduction occurs but free sulphide is below the detection limits of conventional pore water geochemical analysis but quantifiable by sulphide diffusive gradient thin film. In the uppermost part of the sediment core, δ¹⁸O sulphate decreased from near‐sea water values to +7‰, indicating that anoxic sulphide oxidation dominated during this interval. Sulphate δ³⁴S remained unchanged as there was no net sulphate reduction (i.e. reduction was balanced by re‐oxidation). Below 4 cm depth, there was a slight increase in sulphate δ³⁴S from 20‰ to 23‰ associated with minor accumulation of iron sulphide. The δ¹⁸O of the sulphate also increased, to around +10‰ at 10 cm depth, as a result of the isotopic exchange of sulphate–oxygen with pore water and/or sulphur disproportionation reactions mediated during sulphur cycling. These processes continued to increase the δ¹⁸O of the sulphate to 14‰ at 20 cm depth with no further change in the δ³⁴S of the sulphate. Below 20 cm depth, free sulphide is detectable in pore waters and both the δ³⁴S of the sulphate and sulphide increase with depth with an offset controlled by kinetic fractionation during bacterial sulphate reduction. The δ³⁴S of the sedimentary organic fraction shifted towards lower, more bacteriogenic, values with depth in the profile, without any increase in the size of this sulphur pool. Thus, the organic sulphur fraction was open to interaction with bacteriogenic sulphide without the occurrence of net addition. Therefore, caution should be exercised when using sulphur isotopic compositions to infer simple net addition of bacteriogenic sulphide to the organic sulphur fraction.  相似文献   

Geochronology and geochemistry of the Nantianwan mafic–ultramafic complex,Emeishan large igneous province: metallogenesis of magmatic Ni–Cu sulphide deposits and geodynamic setting     

《International Geology Review》2012,54(15):1746-1764

The Nantianwan mafic–ultramafic complex is situated in the northwest part of the Panxi district, southwest China. It consists predominantly of gabbros, gabbronorites, and lherzolites. LA–ICP–MS U–Pb zircon dating of the gabbronorites yields an age of 259.7 ± 0.6 million years, consistent with the ages of other mafic–ultramafic intrusions in the Emeishan large igneous province (ELIP). Gabbronorites and lherzolites host Cu–Ni sulphide ores. Cumulus texture is pronounced in these rocks, containing magnesium-rich olivine (up to 81.4% forsterite). SiO₂ contents of the lherzolites range from 42.93 to 44.18 wt.%, whereas those of the gabbronorites vary between 44.89 and 52.76 wt.%. Analysed samples have low rare earth element (REE) contents (23.22–30.16 ppm for lherzolites and 25.21–61.05 ppm for gabbronorites). Both lherzolites and gabbronorites have similar chondrite-normalized REE patterns, suggesting that they are comagmatic. All samples are slightly enriched in large ion lithophile elements (LILEs, e.g. Rb, Ba, and Sr) relative to high field strength elements (HFSEs, e.g. Nb, Ta, and Ti), very similar to those of ocean island basalts (OIBs). The presence of cumulus textures and geochemical signatures indicates that fractional crystallization played an important role in the petrogenesis of these rocks. Initial (⁸⁷Sr/⁸⁶Sr) _t (t?=?260 Ma) ratios and ?_Nd(t) values of the mafic–ultramafic suite vary from 0.70542 to 0.70763, and??0.4 to 1.7, respectively. Compared to the Cu–Ni-bearing Baimazhai and Limahe intrusions in the ELIP, which were considerably contaminated by variable crustal materials, the Nantianwan complex exhibits much lower (⁸⁷Sr/⁸⁶Sr) _t . Their ?_Nd(t) versus (Th/Nb)_PM ratios also indicate that the ore-bearing magmas did not undergo significant crustal contamination. In combination with (Tb/Yb)_PM versus (Yb/Sm)_PM modelling, we infer that the magmas originated from an incompatible elements-enriched spinel-facies lherzolite that itself formed by interaction between the Emeishan plume and the lithospheric mantle. Most plots of NiO versus Fo contents of olivine suggest that sulphides are separated from the parental magma by liquid immiscibility, which is also supported by bulk-rock Cu/Zr ratios of the lherzolites (7.04–102.67) and gabbronorites (0.88–5.56). We suggest that the gabbronorites and lherzolites experienced undersaturation to oversaturation of sulphur; the latter may be due to fractional crystallization in a high-level magma chamber, accounting for the sulphide segregation.  相似文献   

Palaeoproterozoic Chibaisong mafic intrusion and mineralization (Northeast China), the oldest Cu–Ni sulphide deposit in China: evidence from Re–Os dating of pyrrhotite     

《International Geology Review》2012,54(14):1783-1791

The Chibaisong magmatic Cu–Ni sulphide deposit is located in Tonghua City, Jilin Province, in the eastern part of the northern margin of the North China Craton. The geological characteristics of the deposit have been investigated, and pyrrhotite Re–Os isotope dating has been utilized to constrain the age. Five pyrrhotite samples separated from the Chibaisong Cu–Ni sulphide deposit yielded a Re–Os isotopic isochron age of 2237 ± 62 Ma (mean squared weighted deviation = 1.13, n = 5), indicating that the only Palaeoproterozoic magmatic Cu–Ni sulphide deposit in China is the Chibaisong Cu–Ni sulphide deposit. The geodynamic setting during ore formation was related to the Liaoning–Jilin Palaeoproterozoic rift split. The Re–Os isotope analyses showed an initial ¹⁸⁷Os/¹⁸⁸Os ratio of 0.778 ± 0.033, and (¹⁸⁷Os/¹⁸⁸Os)_i and γOs(t) values ranged from 0.7531 to 0.8013 (average 0.7734) and from 574 to 617 (average 592), respectively, indicating that abundant crustal material (5–10%) was mixed with the Cu–Ni sulphide ore system during magma ascent and ore formation.  相似文献   

东山湾表层沉积物中8项化学要素的地球化学特征   总被引：11，自引：0，他引：11  

王瑞贤  许清辉 《台湾海峡》1992,11(3):197-202

本文根据1988年泰山湾调查资料,对该湾表层沉积物中有机质、重金属等8项化学要素进行了地球化学研究.结果表明,该湾表层沉积物的化学成分主要来源于(?)江径流携带的陆源物质,其分布呈北部和西部高,并向东南部递减的趋势。潮流是影响该湾化学要素分布的重要因素.有机质与多数元素有明显的正相关.污染物质含量较低.  相似文献   

辽北太古宙块状硫化物矿床     

方如恒 《国土资源》1992,(1)

辽北太古宙由花岗岩-绿岩带组成。绿岩生成于岛弧构造环境,时间在3.0—2.8Ga,火山岩属拉斑玄武质及钙碱性火山岩。花岗岩在绿岩之后侵入,具多旋回特点。块状硫化物矿床与长英质火山岩有关,具有2—3含矿层位,透镜状矿体数目较多,未发现管状细脉带。矿石中Cu>Zn>>Pb,具有明显贫铅的特点,Cu×100/Cu+Zn为88—25。矿床类型属活火山型火山热液矿床。成矿温度为350—250℃,压力为9.5—4.0MPa,fo_2为10~(-30)-10~(-44)Pa,fs_2为2.57×10~(-9)-8.13×10~(-14)Pa,pH值为4.5—5。共生有阿尔戈马型铁矿与火山成因金矿。块状硫化物矿床遭受变质、变形、伟晶岩的改造,并在主褶皱幕期迭生与基性岩有关的热液多金属矿化。  相似文献   

Facies architecture of a silicic intrusion-dominated volcanic centre at Highway–Reward, Queensland, Australia     

M. G. Doyle  J. McPhie 《Journal of Volcanology and Geothermal Research》2000,99(1-4)

The Highway–Reward massive sulphide deposit is hosted by a silicic volcanic succession in the Cambro-Ordovician Seventy Mile Range Group, northeastern Australia. Three principal lithofacies associations have been identified in the host succession: the volcanogenic sedimentary facies association, the primary volcanic facies association and the resedimented syn-eruptive facies association. The volcanogenic sedimentary facies association comprises volcanic and non-volcanic siltstone and sandstone turbidites that indicate submarine settings below storm wave base. Lithofacies of the primary volcanic facies association include coherent rhyolite, rhyodacite and dacite, and associated non-stratified breccia facies (autoclastic breccia and peperite). The resedimented volcaniclastic facies association contains clasts that were initially formed and deposited by volcanic processes, but then redeposited by mass-flow processes. Resedimentation was more or less syn-eruptive so that the deposits are essentially monomictic and clast shapes are unmodified. This facies association includes monomictic rhyolitic to dacitic breccia (resedimented autoclastic facies), siltstone-matrix rhyolitic to dacitic breccia (resedimented intrusive hyaloclastite or resedimented peperite) and graded lithic-crystal-pumice breccia and sandstone (pumiceous and crystal-rich turbidites). The graded lithic-crystal-pumice breccia and sandstone facies is the submarine record of a volcanic centre(s) that is not preserved or is located outside the study area. Pumice, shards, and crystals are pyroclasts that reflect the importance of explosive magmatic and/or phreatomagmatic eruptions and suggest that the source vents were in shallow water or subaerial settings.The lithofacies associations at Highway–Reward collectively define a submarine, shallow-intrusion-dominated volcanic centre. Contact relationships and phenocryst populations indicate the presence of more than 13 distinct porphyritic units with a collective volume of 0.5 km³. Single porphyritic units vary from <10 to 350 m in thickness and some are less than 200 m in diameter. Ten of the porphyritic units studied in the immediate host sequence to the Highway–Reward deposit are entirely intrusive. Two of the units lack features diagnostic of their emplacement mechanism and could be either lavas and intrusions. Direct evidence for eruption at the seafloor is limited to a single partly extrusive cryptodome. However, distinctive units of resedimented autoclastic breccia indicate the presence nearby of additional lavas and domes.The size and shape of the lavas and intrusions reflect a restricted supply of magma during eruption/intrusion, the style of emplacement, and the subaqueous emplacement environment. Due to rapid quenching and mixing with unconsolidated clastic facies, the sills and cryptodomes did not spread far from their conduits. The shape and distribution of the lavas and intrusions were further influenced by the positions of previously or concurrently emplaced units. Magma preferentially invaded the sediment, avoiding the older units or conforming to their margins. Large intrusions and their dewatered envelope may have formed a barrier to the lateral progression and ascent of subsequent batches of magma.  相似文献