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1.
A.E.KELEPERTSIS E.KONTIS 《中国地球化学学报》1997,16(1):8-19
The mineralogy and geochemistry data are presented for thirty-seven shales,four concretions,two carbonate sediments and seven lignites from the Marathousa coal field of the Megalopolis Basin in Greece.The argillaceous rocks consist of chlorite,illite,kaolinte,albite,quartz.opal-A,calcite and dolomite;the concretions of aragonite,gypsum and pyrite;and the carbonate rocks of calcite,quartz and illite.The mineral matter in the lignites consists of gypsum,quartz,albite,chlorite,illite,opal-A,dolomite,pyrite,and rarely calcite and kaolinite Athree-factor model explains the total variaition of major and trace elements in the argillaceous sediments.The first factor is an aluminosilicate factor and involves the following elements:Al,Si,Mg,Na,K,Ti,Mn,Nb,Y,Rb,Zn,Cu,Ni,Cr,Nband V,associated with chlorite,albite and illite.The second factor involves the elements Ca,Sr,Ba,Znand Sc and is related to carbonate lithology and mainly the carbonate concretions with gypsum.The third factor involves Fe and Ce with a weak association with Mn.The diagenesis of the Marathousa sediments and lignites was not very advanced as indicated by (a) the total thickness of the sequence (500m),(b) the presence of biogenic silica(opal-A) and (c) the age of the deposit(Pleistocene).FOr these reasons the rpresence of chlorite,illite and kaolinite in the sediments and lignite is due not to diagenetic reactions but to weathering of the flysch and metamorphic rocks at the edges of the Megalopolis Basin and transport of the weathering products(illite,chlorite,kaolinite)into the basin of deposition.The diagenetic minerals of the Marathousa sequence include pyrite,gypsum,dolomite and aragonite. 相似文献
2.
Despite a great interest in Brazilian Equatorial Margin exploration, very little was published on the diagenesis of sandstones from that area. A wide recognition petrographic study was performed to identify the major diagenetic processes that impacted the porosity of Lower Cretaceous sandstones of the Pará-Maranhão, São Luís, Bragança-Viseu and Barreirinhas basins. Arkoses from the Pará-Maranhão Basin show neoformed or infiltrated clay coatings, mica replacement and expansion by kaolinite and vermiculite, and precipitation of grain-replacive and pore-filling quartz, kaolinite, albite, chlorite, calcite, dolomite, siderite, pyrite and titanium oxides. Compaction, quartz and calcite cementation were the main porosity-reducing processes. Barreirinhas Basin lithic arkoses and subarkoses display clay coatings, compaction of metamorphic fragments into pseudomatrix, and precipitation of grain-replacive and pore-filling kaolinite, quartz, albite, chlorite, calcite, dolomite, TiO2 and pyrite. The main porosity-reducing processes were calcite cementation in the subarkoses, and compaction and quartz cementation in lithic arkoses. Quartzarenites from this basin were early- and pervasively cemented by dolomite. Arkoses and lithic arkoses of the São Luís and Bragança-Viseu basins show clay coatings, pseudomatrix from mud intraclasts compaction, and precipitation of pore-filling and grain-replacive kaolinite, vermiculite, smectite, quartz, albite, chlorite, illite, calcite, dolomite, hematite, TiO2 and pyrite. Compaction of mud intraclasts and dissolution of feldspars and heavy minerals were the main porosity-modification processes. These preliminary results may contribute to the understanding of the spatial and temporal distribution of the diagenetic processes and their impacts on the porosity of the sandstones from these basins. 相似文献
3.
M. Julleh Jalalur Rahman Rumana Yeasmin Tom McCann 《Journal of the Geological Society of India》2016,88(6):705-710
Mineralogical and chemical investigations (<2μm clay separates) of shale samples from the Neogene-age Surma Group obtained from four wells (Habiganj-11, Shahbazpur-1, Titas-11, Titas-15) in the Bengal basin, Bangladesh, were carried out in order to reveal the clay mineral composition as reservoir exploration and exploitation requires a good understanding of the clay minerals. The samples were analyzed by X-ray diffraction (XRD), scanning electron microscope (SEM) and X-Ray fluorescence spectrometry (XRF). Mineralogically, the sub-surface Surma Group shales comprise predominantly quartz, plagioclase, illite, chlorite, kaolinite, with lesser amounts of K-feldspar, dolomite and smectite, and minor to trace amounts of calcite, siderite and pyrite. The chemical composition of the <2 μm clay separates also suggests an illite and chlorite-rich composition. With increasing burial depth, the Surma Group shales are enriched in illite. The gradual decreasing of the smectite clays with depth and ultimate disappearance at greater depths (≥ 3000 m) may have been responsible for the presence of the diagenetic illite. Based on the mineralogical composition it is most likely that the illite-chlorite associations together with quartz and feldspar were predominantly detrital in origin and thus reflect the presence of a rapidly-rising source terrain not subjected to intense weathering. 相似文献
4.
Despite recent advances, diagenetic processes in fine-grained sediments are still relatively poorly understood. Key questions still to be resolved include the types of diagenetic minerals present in mudstones and the extent of element mobility in these low permeability systems. This study utilizes data from the Haynesville-Bossier Shale, USA, to analyze lithologies, discriminate authigenic phases and identify mobile elements during diagenesis. It has implications for understanding how authigenic minerals develop and the sources of those authigenic minerals in fine-grained sediments. On the basis of grain-size and mineralogy five lithologies are designated: (i) silica-rich argillaceous mudstones; (ii) argillaceous siliceous mudstones; (iii) mixed siliceous mudstones; (iv) mixed mudstones; and (v) authigenically-dominated mudstones. The diagenetic development of the Haynesville-Bossier Shale can be divided into early and late diagenesis. Ferroan and non-ferroan dolomite, framboidal pyrite and bioclast pore-filling kaolinite and calcite grain replacements and cements all formed during early diagenesis. Late diagenetic mineral phases include illite formed by the illitization of smectite, replacive and displacive chlorite, calcite-replacive albite, quartz-replacive calcite and replacive and/or displacive quartz. The presence of extensive late diagenetic mineral precipitates indicates that there was a degree of element mobility on at least the local scale. Aluminium present in albite is most likely to have resulted from the illitization of smectite. Quartz overgrowths probably resulted from illitization and the pressure dissolution at quartz silt grain boundaries. Externally, hydrothermal fluids resulting from regional-scale igneous activity appear to have played a role in the formation of chlorite and possibly albite. The work indicates that extensive mineral development and element mobility occurred during late diagenesis. 相似文献
5.
Rare earth elements (REE) were determined in fine, medium and coarse crystalline replacement dolomites, and for saddle dolomite cements from the Middle Devonian Presqu'ile barrier from Pine Point and the subsurface of the Northwest Territories and north-eastern British Columbia. REE patterns of the fine crystalline dolomite are similar to those of Middle Devonian limestones from the Presqu'ile barrier. Fine crystalline dolomite occurs in the back-barrier facies and may represent penecontemporaneous dolomitization at, or just below, the sea floor. Medium crystalline dolomite is widespread in the lower southern and lower central barrier. Medium crystalline dolomite is slightly depleted in heavy REE compared with Devonian marine limestones and fine crystalline dolomite, and has negative Ce and Eu anomalies. Medium crystalline dolomites replaced pre-existing limestones or were recrystallized from earlier fine crystalline dolomites. During these processes, the REE patterns of their precursors were modified. Late stage, coarse crystalline replacement dolomite and saddle dolomite cements occur together in the upper barrier and have similar geochemical signatures. Coarse crystalline dolomites have negative Eu anomalies, and those from the Pine Point area also have positive La anomalies. Saddle dolomites are enriched in light REE and have positive La anomalies. The REE patterns of coarse crystalline dolomite and saddle dolomite differ from those of marine limestones and fine and medium crystalline dolomites, suggesting that different diagenetic fluids were responsible for these later dolomites. Although massive dolomitization requires relatively large volumes of fluids in order to provide the necessary amounts of Mg2-. dolomitization and subsequent recrystallization may not necessarily modify the REE signatures of the precursor limestones because of the low concentrations of REE in most natural fluids. Thus, relative fluid-rock ratios during diagenesis may be estimated from REE patterns in the diagenetic and precursor minerals. Fine crystalline dolomites retain the REE patterns of their limestone precursors. In the medium and coarse crystalline dolomites the precursor REE patterns were apparently altered by large volumes of fluids involved during dolomitization. This study suggests that REE compositions of dolomites and their limestone precursors may provide important information about the relative amounts of fluids involved during diagenetic processes, such as dolomitization. 相似文献
6.
The Tepearasi Formation of the autochthonous Geyikdagi Group in the Central Tauride Belt, SE of Beysehir, is Dogger in age and consists dominantly of massive limestones and greyish dolomites occurring within the middle to upper sections. The total thickness of the dolomitic levels ranges from 100-300 m and laterally extends 500-700 m. Three types of dolomite were distinguished through petrographic analyses: homogeneous, mottled (saddle-crystalline) and joint-filling dolomite, which were interpreted to have formed in two different stages, early diagenetic and late diagenetic. The homogeneous dolomite of the early diagenetic stage is light-coloured and monotonous-textured and shows the form of a dolosparite mosaic. The mottled dolomite formed in the late diagenetic stage is light- to dark-coloured and coarsely granular idiomorphic. The other type of late diagenetic dolomite, described as the joint-filling type, presents a crystal growth pattern from the joint walls towards the centre of the joint space. I 相似文献
7.
G. S. Pundeer 《Contributions to Mineralogy and Petrology》1969,23(1):65-85
20 core samples from the dolomite-anhydrite sequence overlying the Werra-anhydrites (Zechstein 1) were examined. The formation consists of brecciated shaly clay in a groundmass of dolomite and anhydrite with small amounts of rocksalt. The drillhole is located near the village Bruennighausen (N. Germany) on the south west flank of a saltdome.Chlorites and illite are the only clay minerals present. Chlorites: three different varieties could be distinguished, predominate in the upper portion whereas the content of illite increases in the lower part. A regeneration of illite in the upper part of the profile has been found by comparison of the K2O-content of the illite (9–10%=upper part, 8%=lower part). Diagenetic formation of quartz and feldspars was also observed throughout the profile. The ratio of authigenic quartz/detrital quartz deoreasss in lower part. At least two generations of dolomite have been found and also pseudomorphs of dolomite after gypsum.The investigations have shown, that the shaly clay was deposited in a saline environment. Diagenetic changes after deposition were due to increasing salinity of the pore solution of the sediment. Brecciation took place long after compaction of the clay. It was accompanied and followed by further diagenetic changes. 相似文献
8.
Baioumy H. M. Attia A. M. Boulis S. N. Hassan M. S. Helmy M. E. 《中国地球化学学报》2005,24(4):316-326
Upper Cretaceous phosphorite beds of the Duwi Formation, Upper Egypt, are intercalated with limestone, sandy limestone, marl, calcareous shales, and calcareous sandstone. Calcareous intercalations were subjected to field and detailed petrographic, mineralogical and geochemical investigations in order to constrain their rock composition and origin. Mineralogically, dolomite, calcite, quartz, francolite and feldspars are the non-clay minerals. Smectite, kaolinite and illite represent the clay minerals. Major and trace elements can be classified as the detrital and carbonate fractions based on their sources. The detrital fraction includes the elements that are derived from detrital sources, mainly clay minerals and quartz, such as Si, Al, Fe, Ti, K, Ba, V, Ni, Co, Cr, Zn, Cu, Zr, and Mo. The carbonate fraction includes the elements that are derived from carbonates, maily calcite and dolomite, such as Ca, Mg and Sr. Dolomite occurs as being dense, uniform, mosaic, very fine-to-fine, non-ferroan, and non-stoichiometrical, suggesting its early diagenetic formation in a near-shore oxidizing shallow marine environment. The close association and positive correlation between dolomite and smectite indicates the role of clay minerals in the formation of dolomite as a source of Mg^2+ -rich solutions. Calcareous rocks were deposited in marine, oxidizing and weakly alkaline conditions, marking a semi-arid climatic period. The calcareous/argillaceous alternations are due to oscillations in clay/carbonate ratio. 相似文献
9.
In the Tuoshi oilfield,located in the Cenozoic Jianghan Basin of southeastern China ,there have been found hydrocarbon reservoirs hosted in lacustrine sandstones of the Eogene Xingouzui Formation.The main diagenetic features identified in these sandstones include the dissolution of detrital K-feldspar and albite grains,the precipitation of quartz as overgrowths and /or cements ,and the precipitation and /or transformation of clay minerals.These diagenetic features were interpreted to have occurred in early,intermediate and late stages,based on the burial depth.The kinetics of fluid-mineral reactions and the concentrations of aqueous species au each stage of diagenesis were simulated numerically for these lacustrine sandstones,using a quasi-sta-tionary state approximation that incorporates simultaneous chemical reactions in a time-space continuum.During the early diagenetic stage,pore fluid was weakly acidic,which resulted in dissolution of K-feldspar and albite and,therefore,led to the release of K^ ,Na^ ,Al^3 and SiO2(aq) into the diagenetic fluid.The increased K^ ,Na^ ,Al^3 and SiO2(aq) concentrations in the diagenetic fluid caused the precipitation of quartz,kaolinite and illite.At the beginning of the intermediate diagenetic stage the concentration of H^ was built up due to the decomposition of organic matter,which was responsible for further dissolution of K-feldspar and albite and pre-cipitation of quartz,kaolinite,and illite.During the late diagenetic stage,the pore fluid was weakly alkaline,K-feldspar became stable and was precipitated with quartz and clay minerals.When the burial depth was greater than 3000 m,the pore fluids became supersaturated with respect to allbite,but undersaturated with respect to quartz,resulting in the precipitation of albite and the dissolution of quartz.The diagenetic reactions forecasted in the numerical modeling closely matched the diagenet-ic features identified by petrographic examination, and therefore,can help us to gain a better understanding of the diagenetic processes and associated porosity evolution in sandstone reservoirs. 相似文献
10.
安塞油田长2油层成岩作用及其对储层物性的影响 总被引:7,自引:7,他引:7
安塞地区长2油层储层以中细粒长石砂岩为主,主要成岩矿物为绿泥石环边、方解石胶结物、石英和长石加大生长、伊利石、伊一蒙混层、钠长石和高岭石等。绿泥石环边的发育对原生粒间孔的保存起到有利的作用。石英加大级别达Ⅲ级,加大边含有丰富的有机包体,均一温度范围48.1~76.5℃,烃类进入储层的时间为早白垩世中期至晚白垩世。储层发育多种孔隙类型,面孔率平均为11.60%.主要类型有粒间孔、骨架颗粒溶孔和微裂缝等。残余粒间孔和骨架颗粒溶孔是本区长2储层的主要孔隙类型。根据成岩作用的矿物岩石学标志、有机质成熟度及古温度,将长2油层砂岩的成岩作用划分为3个成岩阶段:早成岩阶段、晚成岩阶段和表生成岩阶段。储层性质明显地受到沉积微相和成岩作用的影响,沉积物粒度较粗、厚度较大的分流河道储集物性明显优于各种粒度较细、厚度较薄的分流间席状砂体。 相似文献
11.
Richard H. April 《Sedimentary Geology》1981,29(4):283-307
The clay mineralogy of the Newark Supergroup (Upper Triassic/Lower Jurassic) in the Connecticut Valley was studied by X-ray diffraction analysis. Clay minerals identified in 126 samples are illite, chlorite, smectite, kaolinite, vermiculite, expandable chlorite, mixed-layer illite/smectite, mixed-layer chlorite/smectite, and mixed-layer chlorite/vermiculite. In general, the rocks are illitic with subordinate amounts of chlorite. However, the various lithofacies in the Newark Supergroup are characterized by distinct clay-mineral assemblages. Red beds of floodplain origin contain clays mainly of detrital nature with 2M illite most abundant. Subordinate amounts of chlorite, smectite, vermiculite, kaolinite and mixed-layer illite/smectite are also present. An interstratified chlorite/vermiculite occurs in red mudstone underlying basalt flows. Lacustrine gray beds are generally characterized by the clay-mineral assemblage 1Md illite + chlorite with minor amounts of smectite ane expandable chlorite. An interstratified chlorite/smectite predominates in gray mudstone associated with perennial lake cycles in the East Berlin Formation. Black shales of deeper lacustrine origin contain the assemblage 1Md ifillite + trioctahedral smectite and traces of chlorite. Illite and smectite also occur as mixed-layer phases.In many respects, the distribution of clay minerals in the Connecticut Valley can be likened to the general scheme proposed for the Permo-Triassic basins of Europe and Africa. These display both vertical and horizontal variations in clay-mineral assemblages that reflect the chemical and spatiotemporal evolution of intrabasin depositional and diagenetic environments. Chemical data indicate that magnesium, especially, was concentrated in the black muds of large perennial lakes that intermittently occupied the Connecticut rift valley. Pore waters derived from these sediments played an important role in the development of Mg-rich 2 : 1 and interstratified clay minerals during early diagenesis. 相似文献
12.
Grain size and mineral composition of core sediments were used to investigate influences of various terrestrial and marine conditions, which have prevailed on the southwestern Black Sea shelf during the Holocene. Siliciclastic mud with small amounts of sand and gravel from nearby coastal hinterland is the principal sediment type, whereas sediments deposited near the shelf edge and the Istanbul Strait and off the Duru Lake (a paleo-river mouth) constitued large quantities of sand and gravel of both biogenic and terrigenic origin. Variable amounts of aragonite, 1 nmmicas, quartz, feldspars, calcite and dolomite constitute the dominant non-clay minerals in bulk sediments. The clay mineral assemblage in the 〈 2 μm fraction is made up of smectite, illite, kaolinite and chlorite. Aragonite and calcite are mainly derived from benthic accumulations, whereas feldspars (mainly plagioclase) and smectite reflect magmaticvolcanic provenance and the distribution of 1 nm-micas and chlorite correlate with nearby metamorphic sources onland. Nevertheless, grain size and mineral distribution generally indicate a combination of effects of wind and wave climate, longshore and offshore cyclonic currents, changing sea-level stands and nearby source rock and morphological conditions. It is also suggested that at least part of clay minerals could be derived from the northwesterly Danube River input. 相似文献
13.
晚前寒武纪扬子克拉通及其周缘保存了一套比较完整的白云岩地层(灯影组)。扬子北缘(南秦岭) 地区的灯影组白
云岩与典型灯影组白云岩在成岩组合和沉积序列有较大差别,有待进一步研究。该研究在野外剖面实测、镜下鉴定基础
上,运用阴极发光和X射线衍射有序度分析对扬子北缘(南秦岭) 淅川地区灯影组白云岩进行了岩石学分类及成因机制研
究。研究区灯影组白云岩类型主要为泥—粉晶他形白云岩、细晶自形—半自形白云岩、以中—粗晶白云石为主的细—粗晶
半自形—他形白云岩、鞍形白云岩和岩溶角砾白云岩。其中泥—粉晶他形白云石为准同生阶段蒸发海水白云石化作用产
物;细晶自形—半自形白云石形成于早成岩浅埋藏阶段,成岩过程与蒸发海水回流渗透白云石化作用有关;细—粗晶半自
形—他形白云石和鞍形白云石属晚成岩期中—深埋藏环境下由碳酸盐岩矿物经过热液白云石化或重结晶作用所形成;岩溶
角砾白云岩是通过白云岩层的溶蚀—垮塌和砾间胶结作用形成。因此,由于相对海平面升降、上覆地层沉积厚度增加引起
的成岩环境变化以及后期流体的改造作用促使了研究区不同类型白云岩的发育。 相似文献
14.
RUDY SWENNEN JULIE DEWIT ELS FIERENS PHILIPPE MUCHEZ MUMTAZ SHAH FADI NADER DAVID HUNT 《Sedimentology》2012,59(4):1345-1374
The Pozalagua Quarry in the Basque–Cantabrian Basin of northern Spain exposes a unique set of fault‐associated dolomites that can be studied on a decametre scale. The dolomites developed along the Pozalagua Fault system in slope‐deposited limestones of Albian age. Following marine phreatic diagenesis, the limestones were subject to meteoric karst formation. The resulting cavities were filled either by angular limestone fragments in a black clay‐rich matrix, or by cave floor/pond (now dolomitized) sediments. The subsequent diagenetic history reflects repeated periods of fracturing, fluid expulsion, dissolution and cementation. Contrasting fluid pulses resulted in the formation of a network of hydrothermal karst and the subsequent development of coarse‐crystalline calcite cement, zebra dolomite, recrystallized coarse‐crystalline dolomite, elongated blue–grey coarse‐crystalline dolomite cement in the open fault and, finally, coarse‐crystalline saddle dolomite. Decimetre‐size reworked host‐rock fragments present in the latter two dolomite phases probably reflect roof collapse fragments of a cave system that developed along the Pozalagua Fault system. However, there are also metre‐scale host‐rock fragments that apparently ‘float’ in the coarse‐crystalline saddle dolomites, implying that either fragment assimilation was a widespread process or violent expulsion of fluids occurred along the Pozalagua Fault system. The presence of pre‐dolomite and post‐dolomite stylolites, parallel to bedding, supports a linkage between the diagenetic events and the Late Albian tectonism that affected the region. 相似文献
15.
晚前寒武纪扬子克拉通及其周缘保存了一套比较完整的白云岩地层(灯影组)。扬子北缘(南秦岭) 地区的灯影组白
云岩与典型灯影组白云岩在成岩组合和沉积序列有较大差别,有待进一步研究。该研究在野外剖面实测、镜下鉴定基础
上,运用阴极发光和X射线衍射有序度分析对扬子北缘(南秦岭) 淅川地区灯影组白云岩进行了岩石学分类及成因机制研
究。研究区灯影组白云岩类型主要为泥—粉晶他形白云岩、细晶自形—半自形白云岩、以中—粗晶白云石为主的细—粗晶
半自形—他形白云岩、鞍形白云岩和岩溶角砾白云岩。其中泥—粉晶他形白云石为准同生阶段蒸发海水白云石化作用产
物;细晶自形—半自形白云石形成于早成岩浅埋藏阶段,成岩过程与蒸发海水回流渗透白云石化作用有关;细—粗晶半自
形—他形白云石和鞍形白云石属晚成岩期中—深埋藏环境下由碳酸盐岩矿物经过热液白云石化或重结晶作用所形成;岩溶
角砾白云岩是通过白云岩层的溶蚀—垮塌和砾间胶结作用形成。因此,由于相对海平面升降、上覆地层沉积厚度增加引起
的成岩环境变化以及后期流体的改造作用促使了研究区不同类型白云岩的发育。 相似文献
16.
Inorganic minerals in mudstone are composed of clay minerals,carbonate and detrital minerals.Detrital minerals(such as quartz and feldspar)are mainly original deposit.However,clay minerals(kaolinite,illite,and chlorite)and carbonate(calcite and dolomite)are mostly diagenetic minerals.Furthermore,conversion of the four kinds of clay minerals are common.The formation of clay minerals and carbonate is controlled by temperature,pressure,p H,Eh and type of cations during diagenesis.Therefore mineral assemblage can indicate the characteristics and change of diagenetic environment.In addition to inorganic minerals,there are also organic matter of different sources and chemical properties in mudstone.Traditionally,it is considered that evolution of organic matter is controlled by thermal effect.Now studies show that inorganic and organic matter can interact with each other and form clay-organic complexes.This suggest that attention should be paid to the influence of diagenetic mineral assemblage and diagenetic environment on the evolution of organic matter* Samples of mudstone from 1500-4500m of the Palaeogene in the Dongying Depression,China,were collected to investigate the changes of mudstone diagenetic environment.XRD,thin section and SEM were used to detect diagenetic minerals and assemblage characteristics.Results showed that content of detrital minerals,which are floating in mud matrix or preserved as silt laminae,is basically unchanged from shallow to deep strata.Clay minerals which are gathered as argillaceous matrix or preserved as argillaceous laminae have growth and decline relation to carbonate which mainly appear as micropoikilitic ferriferous calcite and ferriferous dolomite.All these characteristics indicate that detrital minerals are exogenetic,whereas carbonate is diagenetic minerals.Based on the SEM analysis of the clay minerals,it was found that smectite present honeycomb and reticulate structure,while illite present filiform and schistose structure and there are growth and decline relationship between them.Nevertheless,hexagonal tabular and stratified kaolinite has the highest content from 2400m to3300m.Rosette and stratified chlorite shows increase trend when the burial depth is deeper than 3300m.These characteristics indicated that clay minerals are diagenetic minerals and there are conversions among the four types.Therefore form shallow to deep,three diagenetic mineral assemblage zones can be divided based on the characteristics of carbonate and clay minerals in mudstone.Namely,smectite+illite/smectite zone in the depth of 2000-2500m;kaolinite+illite/smectite zone in the depth of 2500-3300m and illite+chlorite+carbonate zone below 3300m.Previous studies showed that kaolinite is stable under acidic conditions,while other clay minerals and carbonate are stable under alkaline conditions.Hence according to mineral assemblages feature,it was inferred that diagenetic environment of mudstonehasundergonethechangeof alkaline-acid-alkaline.For the organic matter with different chemical properties in mudstone,the hydrocarbon generation will be different in the acidic and alkaline diagenetic environment even if the conditions of temperature and pressure are the same.Therefore,for hydrocarbon generation we should not only focus on thermal effect,but also pay more attention to the differences of diagenetic environment which have great significance for the understanding of hydrocarbon generation,hydrocarbon expulsion and reservoir formation in mudstone. 相似文献
17.
成岩过程中泥岩的成岩矿物会随成岩体系的改变而发生变化,因此有效地识别成岩矿物组合与划分成岩体系,对深刻
理解有机质生烃的差异性具有重要的意义。文章选取东营凹陷古近系不同层段埋深在1200~4500 m的泥岩,通过岩石薄片、
扫描电镜和X射线衍射等检测,有效地区分了外源输入的矿物(如石英)与成岩矿物(亮晶方解石和白云石)等显微特征的差
异,据此建立了定量估算泥岩中成岩转化的黏土矿物含量的方法:C陆源=(C/Q)沙一×Q样品和C成岩=CXRD-C陆源,其中C为黏土矿物含
量,Q为石英含量,更好地反映了泥岩成岩过程中黏土矿物的演化特征。在埋藏演化过程中泥岩中的成岩矿物和组合呈现出
两段性,3000 m以上黏土矿物和白云石的成岩转化较慢,形成了以伊蒙间层+高岭石的成岩矿物组合,推断其经历了酸性成岩
环境和开放成岩体系;3000 m以下黏土矿物和白云石的成岩转化过程加快,形成了以伊利石+绿泥石+白云石的成岩矿物组
合,推断其经历了碱性成岩环境和封闭成岩体系,充分展现了泥岩在深浅层成岩环境和体系的差异性。与前人研究东营凹陷
泥岩中由有机质生烃产生异常压力造成的开放/封闭体系界限基本吻合,表明泥岩中矿物埋藏演化经历的成岩体系与有机质
生烃形成的压力体系具有较好的响应关系,这对认识不同成岩体系下有机质的生烃过程和生烃机理的差异性具有重要的
意义。 相似文献
18.
成岩过程中泥岩的成岩矿物会随成岩体系的改变而发生变化,因此有效地识别成岩矿物组合与划分成岩体系,对深刻
理解有机质生烃的差异性具有重要的意义。文章选取东营凹陷古近系不同层段埋深在1200~4500 m的泥岩,通过岩石薄片、
扫描电镜和X射线衍射等检测,有效地区分了外源输入的矿物(如石英)与成岩矿物(亮晶方解石和白云石)等显微特征的差
异,据此建立了定量估算泥岩中成岩转化的黏土矿物含量的方法:C陆源=(C/Q)沙一×Q样品和C成岩=CXRD-C陆源,其中C为黏土矿物含
量,Q为石英含量,更好地反映了泥岩成岩过程中黏土矿物的演化特征。在埋藏演化过程中泥岩中的成岩矿物和组合呈现出
两段性,3000 m以上黏土矿物和白云石的成岩转化较慢,形成了以伊蒙间层+高岭石的成岩矿物组合,推断其经历了酸性成岩
环境和开放成岩体系;3000 m以下黏土矿物和白云石的成岩转化过程加快,形成了以伊利石+绿泥石+白云石的成岩矿物组
合,推断其经历了碱性成岩环境和封闭成岩体系,充分展现了泥岩在深浅层成岩环境和体系的差异性。与前人研究东营凹陷
泥岩中由有机质生烃产生异常压力造成的开放/封闭体系界限基本吻合,表明泥岩中矿物埋藏演化经历的成岩体系与有机质
生烃形成的压力体系具有较好的响应关系,这对认识不同成岩体系下有机质的生烃过程和生烃机理的差异性具有重要的
意义。 相似文献
19.
The study area covers volcanic-volcanosedimentary units of Eocene age in the Sivas-Ula? area from Turkey. The pyroclastic (tuffaceous claystone/siltsone/sandstone, crystal ash tuff) and volcanic (basalt, basaltic andesite, andesite) rocks of the Karacalar member from the Kaleköy Formation include volcanogenic (plagioclase, augite, hornblende, biotite), diagenetic (K-feldspar, mixed-layered chlorite-smectite/C-S, chlorite, analcime) and post-volcanic (calcite, dolomite, quartz) minerals. The volcanogenic (plagioclase), diagenetic (K-feldspar, C-S, chlorite), postvolcanic (quartz, calcite, dolomite) and detrital (illite) minerals were observed in the epiclastic (shale, siltstone, calcareous siltstone, sandstone, calcareous sandstone) and chemical (limestone, gypsum) rocks of the Yapali member from this formation. C-S + K-feldspar zoning is widely developed by due to the interaction between sea-water and volcanic glass in basic-intermediate composition, on the basis of optic and electron microscopes and also X-rays data. This zone corresponds to the deeper parts of the Sivas basin in the Eocene period and show vertically a transition into zeolite zone in approximately northern parts of the basin (Yavu area). 相似文献
20.
东濮凹陷桥口地区沙三段碎屑岩成岩作用与储层特征 总被引:5,自引:1,他引:5
东濮凹陷桥口地区沙三段碎屑岩经历了复杂的成岩历史。砂岩的主要成岩事件有:机械压实、碳酸盐胶结、石英加大、黄铁矿生成、高岭石的形成和转化、绿泥石生成、伊利石沉淀、斜长石的钠长石化、石膏和重晶石的形成,以及沸石矿物的生成和次生孔隙的产生。混层蒙皂石-伊利石化随埋深增加而增强,相邻页岩的成岩演化是砂岩胶结物成分的最重要来源。砂岩的成岩作用主要受沉积相的控制,处于中成岩晚期阶段的沙三段砂岩可划分为四种成岩相:(1)碳酸盐胶结成岩相;(2)石英加大自生成岩相;(3)粘土蚀度成岩相;(4)不稳定碎屑溶蚀成岩相。四种成岩相组成了四种不同的储层类型,储层性质的对比分析对识别致密气层中的油气产层具有重要意义。 相似文献