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1.
Focusing on the two natural gas exploration geological problems with abundant source of oil cracking gas in the late stage and the sealing condition of the oil cracking gas reservoir, the kinetics of oil cracking gas and the evaluation parameters of gas cap rock are adopted to the study on the natural gas accumulation conditions in the Tadong area. Both the study on the kinetics of oil cracking gas and the statistical results of reservoir bitumen reveal that the geological formation of oil cracking gas in the Tadong area is located in the top of Cambrian. Two kinds of oil cracking gas geological models at least, namely well Mandong-1’s early rapid generation model (Middle Ordovician-end Silurian) and peak cracking model (with the natural gas conversion rate >90%), namely well Yingnan-2’s two-stage generation model of oil cracking gas, have been set up. The oil cracking gas of Yingnan-2 in the late stage is very significant in the evaluation of natural gas exploration in the Tadong area. The evaluation results of the cap rock show that the microscopic parameters of cap rock from the lower assemblage of Cambrian-Ordovician are better than those from the upper assemblage. The former has strong capillary sealing ability and higher cap rock breakthrough pressure than the upper assemblage, with strong sealing ability, so that natural gas dissipates mainly by diffusion. According to the above investigations, the lower assemblage Cambrian-Ordovician natural gas of Kongquehe slope, Tadong low uplift and Yingjisu depression in the Tadong area prospects well. 相似文献
2.
Well Yingnan 2, an important exploratory well in the east of Tarim Basin, yields high commercial oil and gas flow in Jurassic. Natural gas components and carbon isotopic composition indicate that it belongs to sapropel type gas. Because this region presents many suits of hydrocarbon source rocks, there are some controversies that natural gases were generated from kerogen gas or crude oil cracking gas at present. By using the kinetics of hydrocarbon generation and carbon isotope, natural gas of Well Yingnan 2 is composed mainly of crude oil cracking gas, about 72%, it is generated from secondary kerogen gas of Cambrian-Lower Ordovician source rock and crude oil cracking gas of Mid-Upper Ordovician oil reservoir. The main oil and gas filling time is 65 Ma later in the Jurassic gas reservoir of Well Yingnan 2, so the gas reservoir belongs to late accumulation and continuous filling type. 相似文献
3.
Well Yingnan 2, an important exploratory well in the east of Tarim Basin, yields high commercial oil and gas flow in Jurassic. Natural gas components and carbon isotopic composition indicate that it belongs to sapropel type gas. Because this region presents many suits of hydrocarbon source rocks, there are some controversies that natural gases were generated from kerogen gas or crude oil cracking gas at present. By using the kinetics of hydrocarbon generation and carbon isotope, natural gas of Well Yingnan 2 is composed mainly of crude oil cracking gas, about 72%, it is generated from secondary kerogen gas of Cambrian-Lower Ordovician source rock and crude oil cracking gas of Mid-Upper Ordovician oil reservoir. The main oil and gas filling time is 65 Ma later in the Jurassic gas reservoir of Well Yingnan 2, so the gas reservoir belongs to late accumulation and continuous filling type. 相似文献
4.
Well Yingnan 2,an important exploratory well in the east of Tarim Basin,yields high commercial oil and gas flow in Jurassic.Natural gas components and carbon isotopic composition indicate that it belongs to sapropel type gas.Because this region presents many suits of hydrocarbon source rocks,there are some controversies that natural gases were generated from kerogen gas or crude oil cracking gas at present.By using the kinetics of hydrocarbon generation and carbon isotope,natural gas of Well Yingnan 2 is composed mainly of crude oil cracking gas,about 72%,it is generated from secondary kerogen gas of Cambrian-Lower Ordovician source rock and crude oil cracking gas of Mid-Upper Ordovician oil reservoir.The main oil and gas filling time is 65 Ma later in the Jurassic gas reservoir of Well Yingnan 2,so the gas reservoir belongs to late accumulation and continuous filling type. 相似文献
5.
随着准噶尔盆地腹部及准东地区勘探程度不断提高,勘探对象也变得复杂,已往古凸起上的断块和低幅度背斜为主的勘探目标变得越来越少,勘探目标转向斜坡区和深凹陷的岩性油气藏成为必然趋势,此类油气藏的主要特点是:圈闭幅度较低,砂层厚度较小,横向变化快,地震识别、落实评价困难.本文针对地质难点,以准噶尔盆地准东阜11井区岩性油气藏为研究对象,逐步形成准噶尔盆地岩性油气藏勘探方法、应用效果体系;在具体工作中利用地质、地震、测井相结合的综合研究方法,分析了准东阜11井区岩性油气藏特征,建立了岩性油气藏勘探理论和方法,开发和自研出了一套适合准噶尔盆地碎屑岩岩性圈闭识别与评价的技术系列,主要包括精细的井震标定技术、精细的全三维自动追踪技术、断裂识别技术、动态构造演化分析技术、沉积微相分析技术、储层预测技术、流体预测技术及有利目标区块选择评价技术;利用此技术系列对准东地区阜11井区侏罗系三工河组(J1s)发育的岩性圈闭进行了综合预测,识别了三个可供钻探的断层-岩性圈闭,其沉积微相为扇三角洲前缘的席状砂,圈闭面积在1.75 km2~6.1 km2之间,砂岩厚度在10 m~25 m之间,油气检测处于有利位置,累计圈闭面积达12.39km2,从而扩大了该区岩性圈闭识别的数量和精度,为岩性油气藏的勘探、开发提供了有力的技术支撑. 相似文献
6.
膏盐层作为油气田的主要盖层,对油气藏封存具有重要意义。文章在无为盆地开展二维地震勘探工作的基础上,运用井震联合对比分析方法,总结区域内膏盐层的地震响应特征,较细致地刻画无为盆地周冲村组膏盐层的厚度和空间分布规律。研究结果表明:膏盐层厚度与地震振幅属性具有一定的正相关性,地震振幅越强,膏盐层厚度越大;无为盆地膏盐层在纵向上厚度变化范围为45~540 m,横向上在盆地核心区和凹陷区膏盐层发育较厚,主体介于300~500 m之间,在盆地构造高点位置膏盐层发育较薄,主体介于50~150 m之间,膏盐层分布特征与无为盆地构造总体呈现“低厚高薄”规律。文章为无为盆地天然气和页岩气勘探突破提供了技术保障。 相似文献
7.
北黄海盆地是中国东部勘探及研究程度较低的含油气盆地之一,从原始地震资料分析入手,利用研究区波阻抗、道积分、瞬时振幅、瞬时频率等多种地震资料特殊处理方法及AVO油气检测技术,并结合沉积相和区域地质资料,对北黄海中部坳陷A构造的储盖层分布、含油气性等油气地质条件进行分析预测,认为研究区A构造中新生带地层纵向上主要有两套有利的储盖组合,且构造中部和翼部含油气性较好。 相似文献
8.
Based on the examination of the global researches on oil and gas provinces and large gas fields and the analysis of the features, attributes and distribution of large gas provinces and gas fields, this paper puts forward three indicators of determining large oil and gas provinces: spatial indicator, reservoir-forming indicator and resource indicator. It classifies the gas accumulated areas and large gas provinces in China and analyzes the controlling factors on the distribution of large gas provinces and large gas fields: the lateral distribution is mainly controlled by high-energy sedimentary facies and constructive diagenetic facies, palaeo-highs and their periclinal zones, deep faults, etc, and the vertical distribution is mainly controlled by unconformities, series of evaporates and deep low-velocity highly-conductive beds, etc. It also reveals the main geological characteristics of large gas provinces and large gas fields in China. Large gas fields in four-type basins have their own characteristics and onland large gas fields are dominantly developed in foreland basins and craton basins; there are three types of gas sources, of which, coal is the main source with high gas generating intensity and varying origins; reservoir rocks of the large gas fields (provinces) are of various types and dominated generally by low-middle permeability and porosity pore-type reservoirs; structural traps and litho-stratigraphic traps coexist in Chinese large gas fields and form dense high abundance and large-area low and middle-abundance large gas fields; most of the large gas fields have late hydrocarbon-generation peaks and reservoir formation, and experienced the process of multiple-stage charging and late finalization; large gas provinces (fields) have good sealing and preservation conditions, and evaporates seals are largely developed in large and extra-large gas fields. This paper intends to shed light on the exploration and development of large gas fields (provinces) through analyzing their geological characteristics. 相似文献
9.
The effectiveness of gas accumulation processes is controlled by several main geological factors in-cluding charging force,features of gas conduit,sealing properties of caprock,etc. Based on the analysis and statistics of the large-medium size gas accumulations in China,the main parameters,in-cluding the excess pressure difference between the source rock and reservoir bed,the area coefficient of the gas conduit,and the thickness or displacement pressure of caprock,and the criteria for the as-sessment of gas accumulation processes have been established. Using the parameters and the criteria above,the effectiveness of gas accumulation processes in the Kuqa depression was quantitatively evaluated. By integrating the parameters of the excess pressure difference between the source rock and reservoir bed,the area coefficient of fault conduit system,and the caprock thickness in gas charging period,a comprehensive assessment of the effectiveness of gas accumulation in the Kuqa depression has been made. The result reveals that the Tubei-Dawan area,the Central Kelasu area and the Dongqiu-Dina area are three highly-effective areas for gas accumulation in the Kuqa depression. 相似文献
10.
岩石的各向异性与油气的运移和储集有着密切关系.在油气勘探和油气田开发中,横波对各向异性的敏感性具有重要价值,它可提供一些其他方法无法获取的新信息.纵波在地下传播时,当通过路径的岩石存在各向异性时,会在波阻抗界面产生纵波和横波.这相当于纵波震源同时激发出纵波和横波,利用这些信息就可以对地下岩石的物性进行研究.本文以有限差分为基础,以地下油气田的储藏地质特性为对象,利用弹性波波动方程的传播特性, 研究P_SV转换波,分析其传播特征,用来指导其在储层预测中的应用.通过研究分析可以看出,P_SV转换波通过含油气介质时受影响比较少,能够得到比纵波好的多的成像资料. 相似文献
11.
Due to the complexity of geological background and the adverseness of natural geographical environment in the Qinghai-Tibet Plateau, it is very difficult to carry out petroleum geological study in this region. The Qinghai-Tibet Plateau is the only blank space of petroleum exploration on a large scale. The authors carried out the surface geochemical exploration of oil and gas in the Gangbatong-Ya’anxiang and Dongqiao-Nam Co of the Qinghai-Tibet region. Based on the data of actual detection and experiments in the studied area, the characteristics of concentration and profile distribution of the main geochemical exploration indicators (total adsorbed hydrocarbon, altered carbonate, thermal released mercury, etc.) were discussed. The origin of hydrocarbon was also discussed. Moreover, the oil and gas potential of different sections in the Qiangtang Basin and the Biru Basin were evaluated, which could provide references for the exploration and prediction of oil and gas in this region. The concentrations of total adsorbed hydrocarbons in the Ya’anxiang of Suoxian County-Zadong of Baqing County and the Jiecha-Dangxiong of Anduo County in the Qinghai-Tibet region are high, averaging 312.64 μL·kg ?1 and 164.36 μL·kg ?1. Their altered carbonate concentrations are relatively low, averaging 0.11% and 0.56%. Their concentrations of thermal released mercury are relatively high, averaging 13.09×10 ?9 and 1.94×10 ?9. Geochemical exploration results in fact reflect hydrocarbon information in the underground, which are mainly petroleum associated gas and over-matured cracking gas. The Jiecha-Charenluma and the Xiamaya’ertong-Suoba sections in the Qiangtang Basin are the most favorable ones for oil and gas and the Ekou-Zadong section is relatively favorable one, while the Nam Co and the Zigetangcuo-Dongqiao sections in the Biru Basin are the favorable ones for oil and gas, and the Jiang Co-Nading Co and the Ya’anxiang-Ya’ertong sections are relatively favorable ones. 相似文献
12.
断层封闭性与油气的运移聚集密切相关.是油田含油气性评价中一个非常重要的方面。本文从断层封闭性理论、主要影响因素,以及断层封堵模式的分析论述出发,运用声波时差和断层面剖面图等方法,分析了胡状集油田复杂断块区断层封堵性,为该区的滚动勘探提供了一定的指导意义。 相似文献
13.
Due to the complexity of geological background and the adverseness of natural geographical environment in the Qinghai-Tibet Plateau, it is very difficult to carry out petroleum geological study in this region. The Qinghai-Tibet Plateau is the only blank space of petroleum exploration on a large scale. The authors carried out the surface geochemical exploration of oil and gas in the Gangbatong-Ya’anxiang and Dongqiao-Nam Co of the Qinghai-Tibet region. Based on the data of actual detection and experiments in the studied area, the characteristics of concentration and profile distribution of the main geochemical exploration indicators (total adsorbed hydrocarbon, altered carbonate, thermal released mercury, etc.) were discussed. The origin of hydrocarbon was also discussed. Moreover, the oil and gas potential of different sections in the Qiangtang Basin and the Biru Basin were evaluated, which could provide references for the exploration and prediction of oil and gas in this region. The concentrations of total adsorbed hydrocarbons in the Ya’anxiang of Suoxian County-Zadong of Baqing County and the Jiecha-Dangxiong of Anduo County in the Qinghai-Tibet region are high, averaging 312.64 μL·kg−1 and 164.36 μL·kg−1. Their altered carbonate concentrations are relatively low, averaging 0.11% and 0.56%. Their concentrations of thermal released mercury are relatively high, averaging 13.09×10−9 and 1.94×10−9. Geochemical exploration results in fact reflect hydrocarbon information in the underground, which are mainly petroleum associated gas and over-matured cracking gas. The Jiecha-Charenluma and the Xiamaya’ertong-Suoba sections in the Qiangtang Basin are the most favorable ones for oil and gas and the Ekou-Zadong section is relatively favorable one, while the Nam Co and the Zigetangcuo-Dongqiao sections in the Biru Basin are the favorable ones for oil and gas, and the Jiang Co-Nading Co and the Ya’anxiang-Ya’ertong sections are relatively favorable ones. 相似文献
14.
裂缝型油气藏,即致密砂岩裂缝、碳酸盐岩裂缝、泥岩裂缝、火山岩或变质岩裂缝等储层形成的复杂油气藏,已经成为国内外油气勘探开发的焦点,常规勘探理论和方法在裂缝型油气藏评价中面临许多挑战,常常显得无能为力.本文从裂缝型油气藏储层评价出发,分析各种常规预测裂缝有利发育带方法的优势和局限性,提出裂缝性油气藏勘探评价新理论新方法的基本出发点和思路,并给出了具体的应用实例. 相似文献
16.
The Cretaceous in southern China is mainly a set of red and mauve clastic rock, with evaporation layers. For lack of source rock, it has been paid little attention to in the exploration process. With the development of research on hydrocarbon exploration, the masses of Cretaceous reservoirs and shows have been found in recent years. This means that the Cretaceous has great exploration potential. According to the research, authors find that the high-quality reservoir and efficient cap rocks develop in the Cretaceous. At the same time, the Cretaceous and underlying Paleozoic-Early Mesozoic marine strata and overlying Cenozoic nonmarine strata constitute a superimposed basin. Moreover, high-quality source rocks developed in the above-mentioned two sets of strata. In the south, especially in the middle and lower Yangtze region since the Himalayan strong rift was associated with a large number of faults, These faults connect the Cretaceous reservoir and its overlying and underlying source rocks, forming the fault-based and unconformity-based discontinuous source-reservoir-cap accumulation assemblages. Because the Cretaceous has the abundant oil and gas from Paleogene source rocks or Mesozoic-Paleozoic source rocks with secondary hydrocarbon generation ability, three types of reservoirs develop in the Cretaceous: “new-generating and old-reservoiring” reservoirs, “old-generating andnew-reservoiring” reservoirs, and few “self-generating andself-reservoiring” reservoirs. The hydrocarbon enrichment depends on two key factors. Firstly, Cretaceous reservoirs are near to the source kitchens, so its oil and gas source is ample. Secondly, the fault system is well developed, which provides the necessary conducting systems for hydrocarbon accumulation. 相似文献
17.
油页岩是当今世界热门的非常规油气资源。受石油危机的影响,全球寻找替代能源的脚步不断加快。继美国凭借页岩气革命逆转其天然气长期依赖进口的局面之后,多个国家包括中国越来越重视油页岩这一清洁型的接替能源。本文对油页岩勘探开发现状及进展进行了详细阐述:1油页岩是一种高灰分、有机质含量丰富的未成熟烃源岩,沉积环境有陆相、湖相以及海相三种,其矿床类型可分为近海型和内陆湖泊型;2油页岩在世界范围内储量丰富,美国是油页岩储量最多的国家,中国的油页岩资源也十分丰富,但可采储量明显低于探明储量;3在测井响应方面,油页岩具有低密度、高电阻率、高声波时差及高自然伽玛的特点,主要识别方法有log R重叠法、电阻率法、密度测井法等;4油页岩地震识别方法主要包括甜点属性预测法以及基于岩石物理模型的正反演有机质含量预测法;5油页岩主要对含油率进行评价,可使用的方法包括干馏法、测井评价法和岩石热解法;6页岩油开采是油页岩勘探开发的难点,主要技术包括干馏、原位开采和热转换加工技术等。研究结果对了解油页岩的特征、发展动态、关键技术以及进一步推动油页岩勘探开发具有一定的借鉴作用。 相似文献
18.
Oils, condensates and natural gases in the Kekeya Field, southeast depression of the Tarim Basin were studied for their geochemical characteristics. According to the distribution analysis of the C 2/C 3 values with C 1/C 2 values, C 2/C 3 values with C 1/C 3 values, as well as C 2/C 3 values with dryness index, there are two different types of natural gases in the studied field, which are spatially regularly distributed. One is the oil cracking gas, located on shallow reservoirs over X 5 2 reservoir, namely Upper oil legs; the other is kerogen cracking gas, located on X 7 2 reservoirs, X 8 reservoirs and E 2 k reservoirs, namely Lower oil legs. In addition, the distribution patterns of molar concentration of oils and condensates with different carbon numbers of the n-alkanes in the Kekeya Field indicate that the crude oils have experienced several kinds of secondary alterations, which were closely related to the charging of gaseous hydrocarbons after petroleum accumulation. These results indicate that, based on the research of δ 13C values of individual hydrocarbons, heptane values and isoheptane values of light hydrocarbons and aromatic maturity parameters for oils, condensates and natural gases, oils and gases were charged at different geological time in the Kekeya Field. 相似文献
19.
Taal Volcano, located in the southwestern part of Luzon Island, Philippines, has frequently experienced catastrophic eruptions from both the Main Crater on Volcano Island and flank eruptions. These eruptions have been magmatic, phreatomagmatic, and hydrothermal, with the latter implying the existence of a large-scale hydrothermal system beneath the volcano. We conducted an electrical resistivity survey using the magnetotelluric method in order to identify the location and geometry of the hydrothermal reservoir and sealing cap rock. Two-dimensional inversion using the observed data indicates four similar resistivity sections. The structure at shallow depths corresponds to volcanic deposits and an aquifer. Below 1 km, the structure features a relatively resistive zone beneath the main crater surrounded by a conductive shell. We interpreted these to be a large hydrothermal reservoir with an impermeable cap rock sealing it. Recent ground deformation detected by GPS measurements suggests that the hydrothermal reservoir is active. The interpreted cap rock thins just beneath the main crater and could easily be destroyed by an imbalance in the hydrothermal system. We conclude that this hydrothermal reservoir plays a significant role in driving catastrophic eruptions that begin with a hydrothermal explosion at the main crater. 相似文献
20.
Based on the examination of the global researches on oil and gas provinces and large gas fields and the analysis of the features,attributes and distribution of large gas provinces and gas fields,this paper puts forward three indicators of determining large oil and gas provinces:spatial indicator,reservoir-forming indicator and resource indicator.It classifies the gas accumulated areas and large gas provinces in China and analyzes the controlling factors on the distribution of large gas provinces and large gas fields:the lateral distribution is mainly controlled by high-energy sedimentary facies and constructive diagenetic facies,palaeo-highs and their periclinal zones,deep faults,etc,and the vertical distribution is mainly controlled by unconformities,series of evaporates and deep low-velocity highly-conductive beds,etc.It also reveals the main geological characteristics of large gas provinces and large gas fields in China.Large gas fields in four-type basins have their own characteristics and onland large gas fields are dominantly developed in foreland basins and craton basins;there are three types of gas sources,of which,coal is the main source with high gas generating intensity and varying origins;reservoir rocks of the large gas fields(provinces)are of various types and dominated generally by low-middle permeability and porosity pore-type reservoirs;structural traps and litho-stratigraphic traps coexist in Chinese large gas fields and form dense high abundance and large-area low and middle-abundance large gas fields;most of the large gas fields have late hydrocarbon-generation peaks and reservoir formation,and experienced the process of multiple-stage charging and late finalization; large gas provinces(fields)have good sealing and preservation conditions,and evaporates seals are largely developed in large and extra-large gas fields.This paper intends to shed light on the exploration and development of large gas fields(provinces)through analyzing their geological characteristics. 相似文献
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