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1.
Conduit system and formation mechanism of heat fluids in diapiric belt of Yinggehai basin, China 总被引:3,自引:0,他引:3
The conduit system of heat fluids in diapiric belt of Yinggehai basin is dominantly vertical faults and fractures. Detailed
research on the formation mechanism and their occurrence features shows that the faults and fractures can be classified into
three types: intrastratal dispersive hydrofracture, puncturing fault and upwarping-extensional fault. The development of the
fault and fracture system not only resulted in the changes of the temperature and pressure fields in the basin, but also affected
the hydrocarbon migration in the overpressured system. These faults and fractures constituted the main pathways for vertical
hydrocarbon migration, and opening and closing intermittently led to episodic expulsion of overpressured fluid compartment.
Thus there formed the pool-forming model of multi-source mixing and ploy-stage migration and accumulation for hydrocarbons
in the Yinggehai basin.
Project jointly supported by the Ministry of Science and Technology of China (Grant No.95-Pre-39) and the National Natural
Science Foundation of China (Grant No. 49732005), and A Hundred Excellent Researchers Foundation from the Ministry of Land
and Resources. 相似文献
2.
XiYuan Cai 《中国科学D辑(英文版)》2009,52(11):1791-1802
The Junggar Basin is one of the largest and most petroliferous superimposed petroleum basins in China. The central depression
area has become the frontier field for petroleum exploration. The characteristics of potential source rocks and reservoir
sandstones, and the pressure regime in the central Junggar Basin were studied. Permian shales are dominated by hydrogen-rich,
oil-prone algal organic matter, and Jurassic mudstones are dominated by hydrogen-poor, higher-plant derived organic matter.
These source rocks are widespread and have been mature for hydrocarbon generation, suggesting good to excellent exploration
potential, both for crude oils and for natural gases. The deeply buried Jurassic sandstones usually have low porosity and
permeability. However, sandstones beneath the Jurassic/Cretaceous unconformity display relatively high porosity and permeability,
suggesting that meteoric water leaching had improved the quality of the sandstones. Overpressure developed over much of the
central Junggar Basin. The overpressured rocks are characterized by slightly increased interval transit time, low sandstone
permeability, increased organic matter maturity, and high relative hydrocarbon-gas contents. Mudstones in the overpressured
system have quite the same clay mineral compositions as mudstones in the lower part of the normally pressured system. Overpressure
generation in the central Junggar Basin is best to be explained as the result of hydrocarbon generation and fluid retention
in low-permeability rocks. Petroleum generated from Permian and Jurassic source rocks could migrate laterally through preferential
petroleum migration pathways and accumulated in structural traps or lithological traps in the overpressured system, or migrate
vertically through faults/hydraulic fractures into the overlying, normally pressured system and accumulate in structural or
lithological traps. Therefore, commercial petroleum reservoirs could be potentially found in both the overpressured system,
and in the normally pressured system. 相似文献
3.
Natural gas generation model and its response in accumulated fluids in the Yinggehai basin 总被引:2,自引:0,他引:2
The generation of natural gases is much more complicated in comparison with liquid petro-leum in that natural gases could be generated from both humic and sapropelic organic matter at different stages and that natural gases could be organic and inorganic … 相似文献
4.
The modeling of formation pressure in Yinggehai shows that DF1-1 diapir has oscilla-torily released thermal fluids twice since
5.0 Ma, which may be controlled by the multi-structural subsidences and their accompanying thermal events. Using thermal indicators
of formation temperature by DST, I/S mixed clay minerals, homogeneous temperature of inorganic fluid inclusion and δ13C of methane to trace the thermal fluid migrating order and path, we found that there are two orders of natural gas migration-accumulation
in the upper site over the top of the overpressured compartment. Based on the oscillatory development of formation pressure,
we postulate there would exist earlier (before 5.0 Ma) gas accumulation in their deeper site. 相似文献
5.
十屋断陷位于松辽盆地东南隆起区南端,是一个断坳叠置型复合盆地,下部为西断东超单断箕状盆地,地层由西向东部斜坡区逐层超覆.本文通过对700多平方公里三维地震资料的解释成果研究认为,十屋断陷的构造特征呈 “三隆两凹”特征,三隆分别为:中央构造带、秦家屯-艾家构造带和皮家构造带;而其间由两个凹带(十屋深凹区、小宽深凹区)所分割.十屋断陷深层油气主要聚集在这三个构造带上.三个构造带的产生原因与基底断层密切相关.营城组末期和登娄库组末期的构造运动对油气的早期生成和聚集都起到至关重要的作用,在这两期形成的局部构造都是油气聚集的重要场所. 相似文献
6.
The Dongfang 13-1 is located in the diapiric structure belt of the Yinggehai Basin. The formation pressure of its main gas reservoir in the Miocene Huangliu Formation is up to 54.6 MPa(pressure coefficient=1.91) and the temperature is as high as 143°C(geothermal gradient 4.36°C/100 m), indicating that it is a typical high-temperature and overpressured gas reservoir. The natural gas is interpreted to be coal-type gas derived from the Miocene mature source rocks containing type II2-III kerogens as evidenced by high dryness index of up to 0.98 and heavy carbon isotopes, i.e., the δ13C1 ranging from -30.76‰ to -37.52‰ and δ13C2 ranging from -25.02‰ to -25.62‰. The high temperature and overpressured Miocene petroleum system is related mainly to diapir in the Yinggehai Basin and contains more pore water in the overpressured reservoirs due to undercompaction process. The experimental and calculated results show that the solubility of natural gas in formation water is as high as 10.5 m3/m3 under the temperature and pressure conditions of the Sanya Formation, indicating that at least part of the gas may migrate in the form of water-soluble phase. Meanwhile, the abundant gas source in the Basin makes it possible for the rapid saturation of natural gas in formation water and exsolution of soluble gas. Therefore, the main elements controlling formation of the Dongfang 13-1 gas pool include that(1) the diapir activities and accompanying changes in temperature and pressure accelerate the water-soluble gas exsolution and release a lot of free gas;(2) submarine fan fine sandstone in the Huangliu Formation provides good gas-water segregation and accumulation space; and(3) the overlying overpressured mud rocks act as effective caps. The accumulation mechanism reveals that the high temperatural and high pressure structure belt near the diapir structures has a good potential for large and medium-sized gas field exploration. 相似文献
7.
ABSTRACTIntegrated two-dimensional electrical resistivity imaging (ERI) and hydrochemical surveys were used to investigate the groundwater alluvial aquifer in Kuala Langat, Malaysia. The study in the Langat basin considered the thickness of the aquifer, the depth of the bedrock, the regions influenced by seawater intrusion, and the monitoring of water levels. The resistivity imaging results show that the upper layer consists of clay, while the second layer is an aquifer whose thickness varies mostly in the range of 10–30 m, and in some cases extends to 40 m. The bedrock depth varies from 30 to 65 m. The chemical analyses were carried out on groundwater samples from nine boreholes collected between 2008 and 2012. The analyses indicate that the total dissolved solids (TDS) exceed 1000 mg L-1 near the coastal area and are often less than 500 mg L-1 further inland. The ERI and hydrochemical analyses reveal that groundwater in the study area, especially towards the coast, is a mixture of brackish and fresh waters.
EDITOR D. Koutsoyiannis; ASSOCIATE EDITOR M.D. Fidelibus 相似文献
8.
Uranium deposits in sedimentary basins can be formed at various depths,from near surface to the basement.While many factors may have played a role in controlling the location of mineralization,examination of various examples in the world,coupled with numerical modeling of fluid flow,indicates that the hydrodynamic regime of a basin may have exerted a major control on the localization of uranium deposits.If a basin is strongly overpressured,due to rapid sedimentation,abundance of low-permeability sediments or generation of hydrocarbons,fluid flow is dominantly upward and uranium mineralization is likely limited at shallow depths.If a basin is moderately overpressured,upward moving fluids carrying reducing agents may meet downward moving,oxidizing,uranium-bearing fluids in the middle of the basin,forming uranium deposits at moderate depths.If a basin is weakly or not overpressured,either due to slow sedimentation or dominance of high-permeability lithologies,minor topographic disturbance or density variation may drive oxidizing fluids to the bottom of the basin,leaching uranium either from the basin or the basement,forming unconformity-type uranium deposits.It is therefore important to analyze the hydrodynamic regime of a basin in order to predict the most likely type and location of uranium deposits in the basin. 相似文献
9.
This paper reveals the physicochemical properties such as component, formulation, genesis, tem- perature, pH, Eh, salinity and pressure of all main alteration fluid of interlayer oxidation zone sand- stone-type uranium deposits after studying the geologic process and geochemistry of internal typical sandstone-type uranium deposits such as Shihongtan deposit in the Turpan-Hami basin, 512 deposit in the Yili basin, Dongsheng deposit in the Ordos basin. The composition of fluid can be divided into two parts based on the analysis of inclusion one can be affirmed as atmospheric water with ordinary temperature epigenesist according to the character of hydrogen and oxygen isotope of inclusion, the other is natural gas containing gaseous hydrocarbon like CH4, and CO2 as well as a little H2S, CO, H2, N2 and so on, it always contains a small quantity of hydrocarbon liquid in petroliferous basins. The fluid property of oxidation alteration zone is always oxidation alkaline, and neutrality or weak acid-weak alkaline and reducibility during the metallizing process, but at secondary reduction or deoxidization zone it becomes strong reduction alkaline. Oxygenic groundwater in the fluid is the activate and mig- ratory medium of uranium element, but the gaseous hydrocarbon like CH4 as well as H2, H2S, CO from natural gas is the important sedimentary reducer of uranium mineral; the transformation of pH,Eh in fluid environment is the main reason for the formation of uranium metallization. 相似文献
10.
The Red Fault system is one of the main growth faults found in the South Eugene Island Basin, a salt withdrawal minibasin located offshore Louisiana, in the Gulf of Mexico. This fault system corresponds to a lateral boundary between fluid overpressured compartments. In addition, there is a set of observations indicating that the Red Fault system exhibits rapid episodic migration of fluids. This fault represents an example of preferential pathway for the upward episodic migration of overpressured hydrocarbons from deep, heavily pressured, compartments on time scales of years. The migrations of fluids into active growing faults could take the form of propagating surges (solitary waves) that propagate upward along the fault planes in a wave-like manner at km/yr. Solitary waves represent a very efficient mechanism for the upward transport of fluids along growth faults in sedimentary basins generating its own permeability. In addition, this mechanism is compatible with the fact that the fault plane is observed to sustain a static pore fluid pressure difference between its two sides. The propagation of solitary waves in active growth faults appears as a fundamental mechanism to understand the nature of upward fast migration of fluids along active growth faults in compartimentalized sedimentary basins. 相似文献
11.
M. Erdlyi 《Journal of Geodynamics》1985,4(1-4)
The Hungarian Basin is a large depression. The deep multilayer flow-system of this basin represents a thermal circulation in equilibrium under natural conditions.The terrestrial heat-flow of the basin can be considered balanced, therefore, any geothermal anomaly is of convective origin. Negative geothermal anomaly and low salinity of the water characterize the recharge area and positive anomaly and high salinity the discharge belt. All is proved by geothermal, hydrochemical and hydrodynamic maps of the thermal water aquifer. Deep flow through thick and highly permeable deposits of the main recharge area cause strong negative anomaly and very low salinity. Extreme anomalies are of tectonic origin. 相似文献
12.
根据六盘山地区泉水的化学组成和氢、 氧同位素数据, 讨论了该区地下水的化学类型、 成因及其动态变化特征。 2012年11月和2014年7月在六盘山地区采集10处泉水样品, 氢氧同位素由液态水同位素分析仪测定, 离子组分浓度由离子色谱和化学滴定法测定。 水样的TDS范围为218~27508 mg/L, δ18O和δD值分别为-12.0‰~ -8.5‰, -88.5‰ ~-61.3‰。 δ18O和δD指示该区泉水来源于大气降水, 并受水循环条件及水岩反应程度的影响。 根据舒卡列夫分类法, 所采水样可划分为10种水化学类型, 受含水层岩性控制, 宁南地区的水化类型主要为SO4-Na型, 渭北西部地区的水化类型主要为HCO3-Ca·Mg型。 两次所采水样的离子浓度显示多数水样点的HCO-3具有夏高冬低的季节性变化特征, 千川村(QC)、 双井村(SJ)等因含水层赋存环境较封闭, 受降水干扰小; 硝口村(XKH)泉水的离子毫克当量比值变幅最大, 说明该泉点水岩反应程度变化较大, 易受断层带活动的影响。 研究结果确定了六盘山地区水文地球化学背景和水的来源, 为该区流体地球化学地震监测、 预测提供了背景资料。 相似文献
13.
Hydrochemical characteristics of the Chita River basin 总被引:1,自引:0,他引:1
V. I. Konnov 《Water Resources》2008,35(4):446-450
Human-induced factors responsible for the formation of the Chita River hydrochemical regime in the Amur River basin are discussed. An environmental map of the Chita River basin is compiled. The available results of hydrochemical observations over surface water and groundwater discharged from reclaimed lands of Chita region are generalized. The main factors affecting the hydrochemical regime of the Chita River are specified. 相似文献
14.
This paper reveals the physicochemical properties such as component, formulation, genesis, tem-perature, pH, Eh, salinity and pressure of all main alteration fluid of interlayer oxidation zone sand-stone-type uranium deposits after studying the geologic process and geochemistry of internal typical sandstone-type uranium deposits such as Shihongtan deposit in the Turpan-Hami basin, 512 deposit in the Yili basin, Dongsheng deposit in the Ordos basin. The composition of fluid can be divided into two parts based on the analysis of inclusion: one can be affirmed as atmospheric water with ordinary temperature epigenesist according to the character of hydrogen and oxygen isotope of inclusion, the other is natural gas containing gaseous hydrocarbon like CH4, and CO2 as well as a little H2S, CO, H2, N2 and so on, it always contains a small quantity of hydrocarbon liquid in petroliferous basins. The fluid property of oxidation alteration zone is always oxidation alkaline, and neutrality or weak acid-weak alkaline and reducibility during the metallizing process, but at secondary reduction or deoxidization zone it becomes strong reduction alkaline. Oxygenic groundwater in the fluid is the activate and mig-ratory medium of uranium element, but the gaseous hydrocarbon like CH4 as well as H2, H2S, CO from natural gas is the important sedimentary reducer of uranium mineral; the transformation of pH,Eh in fluid environment is the main reason for the formation of uranium metallization. 相似文献
15.
Late Cretaceous palynology and paleoclimate change:Evidence from the SK1(South) core,Songliao Basin,NE China 总被引:1,自引:0,他引:1
ZHAO Jing WAN XiaoQiao XI DangPeng JING Xia LI Wei HUANG QingHua ZHANG JinYan 《中国科学:地球科学(英文版)》2014,(12)
Cretaceous climate was warmer than today.The Songliao Basin contains one of the most important Late Cretaceous non-marine deposits in China for the research of the paleoenvironment and paleoclimate.This research is based on core samples from the SK1(S)borehole.The strata sampled are the upper part of the Quantou Formation to member 2 of the Nenjiang Formation,where spores,pollen,dinoflagellates,and other microfossils are abundantly preserved.Based on analysis of the spores and pollen fossils from the core samples,the following six fossil assemblage zones have been recognized in ascending order:The Cicatricosisporites-Cyathidites-Pinuspollenites,Schizaeoisporites-Cyathidites-Classopollis,Cyathidites-Schizaeoisporites,Schizaeoisporites-Cyathidites-Proteacidites,Proteacidites-Cyathidites-Dictyotriletes,and the Lythraites-Callistipollenites-Schizaeoisporites zones.The six fossil zones range from the late Cenomanian to early Campanian.The Late Cretaceous dinoflagellate cysts in the Songliao Basin are of high abundance and low diversity.Specific phytoplankton types reflect salinity changes of the Songliao Lake.Paleoecology of the dinoflagellates suggests that sediments of members 2 and 3 of the Yaojia Formation(K2y2+3)were deposited in a freshwater environment,whereas members 2 and 3 of the Qingshankou Formation(K2q2+3)and members 1 and 2 of the Nenjiang Formation(K2n1+2)were deposited in freshwater to brackish water environments.Combined with the paleoecology of dinoflagellates and the palynomorph biozones,valuable information of the paleoclimate was provided.The quantitative analyses of spores and pollen fossils,such as vegetation type,climate type,and humidity type,diversity and dominance,indicate a relatively sub-humid,mid-subtropical paleoclimate,with slight climatic fluctuation and/or temporal change. 相似文献
16.
This study demonstrates the application of multivariate statistical methods in definition of groundwater recharge and discharge areas in a sedimentary basin in Ghana. Q‐mode hierarchical cluster analysis (HCA) was applied to 57 hydrochemical data from the Buem formation in the northern part of the Volta Region in Ghana. R‐mode HCA and R‐mode factor analysis were then applied to the same dataset to reveal the processes controlling the hydrochemistry of groundwater from this hydrogeological formation. Results of both the Q‐ and R‐mode analyses were backed by graphical methods. The analyses revealed two major water types, differentiated by salinity levels into four spatial groundwater associations. The characteristics of the four groundwater types are discussed. The recharge areas are characterized by Ca? HCO3 low salinity waters which evolve through rock–water interactions to Na? HCO3 high salinity waters in the discharge areas. This study finds that the hydrochemistry of groundwater from this formation is mainly controlled by the weathering of minerals, principally silicates in the aquifer matrix. The effects of the chemistry of recharging precipitation are higher in the recharge areas, while mineral weathering tends to be severe close to the discharge areas in the groundwater flow regime. All the four spatial groundwater associations have low sodium content, but salinity levels increase towards the discharge areas, such that some of wells in the discharge areas may not be acceptable for irrigation on grounds of high salinities which might affect the osmotic potentials of plants. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
17.
Water resources for agricultural development and landscape enhancement in Kuwait are very scarce; the quality is saline (brackish), and the soil texture is sandy, incapable of holding nutrients and moisture. Most of the rainfall in Kuwait either evaporates due to the high temperatures or percolates through the soil. The rainfall is not sufficient to recharge the underground water supply. A variety of alternative water sources have been studied, including seawater desalination and wastewater treatment. Wastewater treatment proved to be convenient due to the relatively low salinity detected in the treated water. Furthermore, the amount of wastewater is expected to increase as more residential areas are connected to the sewage system as the population increases.
The development of a greenery plan for Kuwait requires intensive water management. This goal can be achieved through manpower training in landscape development, selection of plants tolerant to arid environments, usage of appropriate irrigation and drainage systems, promotion of greenery programs within public and the governmental agencies for their direct participation in urban area beautification, and extension of wastewater treatment techniques. 相似文献
18.
统计分析了青藏高原不同区域水体环境表层沉积物陆相介形类的属种分布特征,探讨了介形类在不同水环境下(盐度、pH值及水深)对生态环境的响应.结果显示,青藏高原现生介形类共计21属67种,其中Candona candida、Ilyocypris bradyi、Eucypris inflata、Limnocythere dubiosa、Limnocythere inopinata、Paracypricerus angulata、Leucocytherella sinensis和Leucocythere mirabilis为青藏高原地区的常见种.湖泊、河流、洼地和湿地4类水体环境中,湖泊中介形类最为丰富,达19属62种;青藏高原东北部(祁连山和柴达木盆地)、北部(昆仑山)、西部和南部不同区域的介形类常见种存在较大差异,可能是区域海拔、pH值和盐度综合作用的结果.淡水和微咸水环境介形类属种数量较咸水及盐湖中丰富,分别有17属41种和13属42种,Limnocythere dubiosa (0.52~90.6 g/L)和Leucocythere mirabilis(0.51~174.63 g/L)在淡水、咸水及盐湖中均有出现,适应盐度范围较广;pH值在8.0~10.0范围内介形类属种多样性最丰富,表明大部分介形类具有嗜碱性的特征;青藏高原陆相介形类属种多样性随水深的增加而降低,浅湖(0~15 m)中介形类属种最为丰富,达到17属52种,其中Candona candida(0.2~80 m)和Leucocythere dorsotuberosa(0.3~110 m)从滨湖至深湖区均有分布,二者均具有较大的水深适应范围. 相似文献
19.
大兴安岭重力梯度带两侧控盆断裂域的地球物理场基本特征与构造属性存在巨大差异,本文通过研究大兴安岭西坡德尔布干断裂以及松辽盆地中央孙吴—双辽断裂附近的重力、大地电磁测深资料,并结合满洲里—绥芬河地学断面(GGT)资料,对德尔布干断裂和孙吴—双辽断裂的控盆作用以及地质意义进行论述.研究结果表明:德尔布干断裂控制了海拉尔—根河盆地的演化,并在区域动力作用下被改造;使断裂深部倾向北西,浅部倾向南东.孙吴—双辽断裂控制着松辽盆地的形成演化,断裂深部倾向近垂直,浅部主要受太平洋西向俯冲和蒙古—鄂霍茨克洋闭合的影响,在浅部产生双向逆冲推覆构造.德尔布干断裂位于盆地的附近,由于岩浆沿断裂的侵入与喷发,因此有利于生烃也有利于形成重要的金属成矿带;孙吴—双辽断裂位于盆地中央,含油气层附近的双向逆冲推覆构造可能更有利于油气的聚集,使松辽盆地成为最重要的产油盆地之一. 相似文献