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1.
祁连山冻土区含天然气水合物层段的油气显示现象   总被引:3,自引:1,他引:2  
以祁连山冻土区天然气水合物钻孔DK-2孔为例,对含油气显示岩心样品进行了储集岩热解分析,结合野外观察到的含油气显示现象,讨论了油气显示性质及其对水合物的可能指示意义。野外观察到的油迹、油斑、油浸、油染等不同级别油气显示现象大多产出在细砂岩、中砂岩中,部分产出在粉砂质泥岩夹薄层碳酸盐岩接触面及裂隙中,它们均得到室内储集岩热解分析结果的证实。油气显示所指示原油性质以中质油、重质油为主,少部分为超重油,甚至为沥青。钻孔中油气显示现象与水合物密切伴生,特别是水合物产出深度段或下部常见具中质油特征的油气显示,或可作为水合物一种指示。  相似文献   

2.
国内外许多砂岩型铀矿产于含油气盆地,油气参与砂岩型铀成矿作用越来越受到人们的重视;沉积盆地控制着油气田和砂岩型铀矿床的分布,多数盆地总体形成内部油气-边部铀矿、下部油气-上部铀矿的分布规律。文章认为油气藏与砂岩铀矿床相互联系的储集层系统及盆地有机/无机成因流体是两者同盆共存的物质基础,吸附作用和还原作用是油气参与砂岩型铀矿成矿的两种主要作用方式,重力流驱动的含铀流体与油气成藏过程中油气扩散形成的烃类流体相互混合是铀成矿作用的主要动力学机制,构造则是两种流体联系的纽带;油气与铀矿相互共生、相互作用,为"以铀找油"和"以油找铀"提供了基础。根据油气与铀的成因联系,结合石油勘探开发资料,提出利用油气田资料"二次开发"寻找砂岩型铀矿的思路和方法。利用油气田资料来寻找砂岩型铀矿,可节约大量勘探资金,提高油气田经济效益,经济价值高。  相似文献   

3.
前陆盆地是世界上油气资源最丰富、大油气田最多的一类盆地。笔者通过分析发现中国中西部的前陆盆地有丰富的烃源岩,配套的生储盖组合,油气在纵横向上的发育都有其有序性:前陆盆地的沉积演化控制着盆地油气纵向上的有序性,构造单元控制着油气横向上的有序性。前陆冲断带构造活动强烈,主要形成背斜油气藏,中浅层都含气,适宜采用立体勘探思路。前渊凹陷带主要发育有岩性油气藏,前缘隆起由于地层向克拉通方向尖灭,常形成岩性油气藏。  相似文献   

4.
亚太地区是全球重要的油气产区和最大的油气消费市场。亚太地区155个主要沉积盆地中,已有90多个盆地内发现了油气田或有油气发现,共发现油气田约6 900个。根据地理位置及构造特征等,亚太地区可进一步分为东亚分区、东南亚分区、澳新分区和南亚分区,约有131个主要的含油气系统。本文对亚太地区不同分区的油气成藏条件(包括烃源岩、储集层、盖层、含油气系统等)进行了总体分析与高度概括。在此基础上,以成藏组合为基本评价单元,不同勘探程度盆地采用与之相适应的评价方法,对本地区各盆地的油气资源潜力进行了评价。评价结果表明:亚太地区常规总油气可采资源量为673.7×108 t油当量,占全球的6.1%,非常规油气资源类型以重油、页岩油、油页岩、页岩气、煤层气为主,非常规油气技术总可采资源量390.4×108 t当量,占全球非常规油气技术总可采资源量的6.1%。根据待发现资源结果及盆地勘探程度,近海和深海勘探是将来的勘探热点:主要勘探领域为深海和成熟盆地新层系及岩性-地层圈闭等;海相三角洲体系是寻找天然气田的重要领域;东南亚弧后盆地群新生界湖相是页岩油的有利勘探领域;澳大利亚中部克拉通盆地群泥盆系-石炭系为页岩气的有利勘探领域。  相似文献   

5.
周兴熙 《地质论评》2003,49(5):507-512
塔里木盆地牙哈油气田是我国迄今发现的最大的凝析油气田,由12个油气藏组成,油气分布具有“西油东气”、“上气下油”、“上轻下重”的特征,这种特征的形成,是油气自西北分两个高峰期注入和在重力作用下分异的结果,呈现了“中部注入的正向差异聚集”的模式。这种模式与Gussow和Schowalter所建立的模式在形成机制或油气分布方面有所不同。  相似文献   

6.
大港油田埕北断坡区油气富集主控因素分析   总被引:2,自引:0,他引:2       下载免费PDF全文
埕北断坡区具有优越的成藏地质背景,具有含油目的层多,油气藏类型多样,纵向叠置、平面连片的特点,油气勘探潜力巨大。通过对已发现油气藏的成藏要素剖析,认为充足的油气源、良好储集条件和储盖组合、基岩潜山背景下的断阶构造、长期继承性发育的断层、晚期成藏等是控制该区油气富集的主要因素。  相似文献   

7.
北极地区丰富的油气资源近年来引发全世界的广泛关注。评估结果显示,北极油气资源分布不均,主要集中在俄罗斯、美国阿拉斯加、挪威、加拿大和丹麦格陵兰。不同国家和地区北极油气资源勘探开发特点不同,在新形势下可能还会发生变化。中国是油气消费大国和进口大国,俄罗斯北极地区已日渐成为中国重要油气供应地之一。综合分析几个主要北极国家北极油气开发利用现状和未来发展前景,与中国目前参与北极油气开发利用的情况,对未来中国如何参与北极油气资源开发利用提出建议,将俄罗斯作为中国北极油气开发的长期合作伙伴,与其开展项目投资、技术入股、航道建设等多个方面的合作。   相似文献   

8.
近年来,银根—额济纳旗盆地哈日凹陷发现了多种类型油气藏,证实其有较好的油气勘探前景,但该凹陷油气地质条件极为复杂,特别是对多类型油气藏的共生特征及其成藏机理认识不足,限制了对油气分布规律的科学预测,制约了油气勘探的进程.基于对各类型油气藏的剖析,探讨多类型油气藏共生特征及其成藏机理,预测油气分布,分析勘探方向,以期为该...  相似文献   

9.
洼陷中浊积岩沉积特征及油气富集规律研究   总被引:13,自引:1,他引:13       下载免费PDF全文
随着油气勘探的不断深入,我国东部地区主要含油气盆地勘探的主要目标逐渐转为一些较复杂的隐蔽油气藏,尤其是盆内的次级洼陷,已成为勘探的重要地区。多年的勘探实践表明,对于我国东部的陆相箕状盆地,洼陷中含油气是必然规律。在洼陷内最重要的油藏类型是砂体岩性与构造—岩性油藏,并且绝大多数为浊流成因。本文以山东济阳坳陷与昌潍坳陷的德南、牛庄、利津、博兴等几个洼陷为例,介绍洼陷生油条件的地震研究方法与三角洲—浊积扇体系中浊积岩发育区的沉积特征、油气富集规律及地震综合研究方法。  相似文献   

10.
中国东北地区油气地质特征与勘探潜力展望   总被引:5,自引:3,他引:2       下载免费PDF全文
中国东北地区发育50多个盆地,规模大小不一,较大的盆地包括松辽、二连、海拉尔盆地和5个跨境盆地。东北地区油气资源潜力巨大,油气储量增幅显著,同时面临油气上产、稳产难度仍然持续加大的现实。本文在深入分析东北地区构造与沉积古地理演化过程的基础上,总结了东北地区构造与沉积协同作用下的成藏组合差异发育特征。进一步结合勘探实践,针对油气勘探中存在的问题,围绕着新领域新层系的工作思路,提出了东北地区油气勘探的方向,包括:松辽盆地中央坳陷带中浅层油气精细勘探,松辽盆地南部深层火山岩油气勘探,松辽盆地西斜坡和北部倾末端油气勘探,东北地区古生界油气勘探,大三江盆地群油气勘探,东北地区页岩油和油页岩资源勘探。为未来东北地区油气资源的勘探部署提供了科学依据。  相似文献   

11.
四川盆地蜀南地区就是一个典型油气田老区,在麻柳场气田以北地区开展油气化探工作,通过对各地层中烃类和非烃指标的研究并取得了很好的效果,对该地区下一步油气勘探部署提供了有力的地球化学依据。  相似文献   

12.
全国油气资源战略选区调查工程进展与成果   总被引:5,自引:5,他引:0  
2016—2018年期间,由中国地质调查局油气资源调查中心牵头组织实施的“全国油气资源战略选区调查工程”,以实现“新区、新层系、新类型、新认识”四新领域油气调查战略发现和突破,推动创建油气勘查开发新格局为目标,按照总体部署、分步实施原则,组织开展了长江经济带页岩气调查、北方新区新层系和松辽盆地页岩油调查油气调查三大科技攻坚战。在基础地质调查基础上,评价优选了一批页岩油气有利目标区,部署实施了二维地震、参数井和压裂试气工程,实现了长江中游下古生界页岩气、松辽盆地白垩系青山口组页岩油、塔里木盆地温宿凸起新近系油气、准噶尔盆地南缘二叠系芦草沟组油气和侏罗系西山窑组煤层气以及银额盆地居延海坳陷石炭系—二叠系油气调查等一系列重大突破和发现,初步摸清了新区新层系资源潜力。这些成果大大提振了南方复杂构造区页岩气、陆相页岩油和北方新区新层系油气资源勘查的信心,推动了油气地质调查与科技创新的深度融合,形成了油气成藏理论机理新认识,发挥了公益性油气资源调查的引领和带动作用。  相似文献   

13.
The Silk Road Economic Belt and the 21st-Century Maritime Silk Road Initiative, abbreviated as the Belt and Road Initiative, is a primary development strategy of China’s future international cooperation. Especially, the energy resource cooperation, including oil and gas resources cooperation, is an important part of this initiative. The Belt and Road has undergone complicated geological evolution, and contains abundant mineral resources such as oil, gas, coal, uranium, iron, copper, gold and manganese ore resources. Among these, Africa holds 7.8% of the world’s total proven oil reserves. The oil and gas resources in Africa are relatively concentrated, with an overall low exploration degree and small consumption demand. Nigeria and Libya contain the most abundant oil resources in Africa, accounting for 2.2% and 2.9% of the world’s total reserves, respectively. Nigeria and Algeria hold the richest natural gas resources in Africa, occupying 2.8% and 2.4% of the world’s total reserves, respectively. Africa’s oil and gas resources are mainly concentrated in Egypt, Sultan and Western Sahara regions in the northern Africa, and the Gulf of Guinea, Niger River and Congo River area in the western Africa. The Russia–Central Asia area holds rich petroleum resources in Russia, Kazakhstan, Turkmenistan and Uzbekistan. The potential oil and gas areas include the West Siberia Basin, East Siberia Basin and sea continental shelf in Russia, the northern and central Caspian Basin in Kazakhstan, the right bank of the Amu-Darya Basin, the East Karakum uplift and the South Caspian Basin in Turkmenistan, and the Amu–Daria Basin, Fergana Basin, Afghan–Tajik Basin and North Ustyurt Basin in Uzbekistan. The Middle East oil and gas resources are mainly distributed in the Zagros foreland basin and Arabian continental margin basin, and the main oil-producing countries include Saudi Arabia, Iran and Iraq. The Asia Pacific region is a new oil and gas consumption center, with rapid growth of oil and gas demand. In 2012, this region consumed about 33.6% of the world’s total oil consumption and 18.9% of the world’s total natural gas consumption, which has been ranked the world’s largest oil and gas consumption center. The oil and gas resources are concentrated in China, Indosinian, Malaysia, Australia and India. The abundant European proven crude oil reserves are in Norway, Britain and Denmark and also rich natural gas resources in Norway, Holland and Britain. Norway and Britain contain about 77.5% of European proven oil reserves, which accounts for only 0.9% of the world’s proven reserves. The Europe includes main petroliferous basins of the Voring Basin, Anglo–Dutch Basin, Northwest German Basin, Northeast German–Polish Basin and Carpathian Basin. According to the analysis of source rocks, reservoir rocks, cap rocks and traps for the main petroliferous basins, the potential oil and gas prospecting targets in the Belt and Road are mainly the Zagros Basin and Arabic Platform in the Middle East, the East Barents Sea Basin and the East Siberia Basin in Russia–Central Asia, the Niger Delta Basin, East African rift system and the Australia Northwest Shelf. With the development of oil and gas theory and exploration technology, unconventional petroleum resources will play an increasingly important role in oil and gas industry.  相似文献   

14.
泌阳凹陷安棚油田深层系油气分布规律及控制因素   总被引:2,自引:0,他引:2  
随着人类对油气资源需求不断增长,中浅层油气藏已基本探明和投入开发,深层系成为油气增储上产的一个新领域。国内外深层油气勘探实践证明,在深层系取得突破的关键是加强油气分布规律及控制因素认识。安棚油田位于泌阳凹陷东南部,其深层古近系核桃园组三段下亚段(Ⅴ~Ⅷ砂组)目前是河南石油勘探局的重点勘探层位。在安棚油田深层系近年的勘探成果及取得的地质认识的基础上,剖析该区油气成藏过程,并研究油气分布规律及主要控制因素。研究发现,安棚深层系油气藏主要为砂岩上倾尖灭油气藏,油气分布极不均匀,纵向上,核三Ⅴ砂组油气最为富集,Ⅵ砂组次之,Ⅶ、Ⅷ砂组最少;油气在平面上主要集中分布于鼻状构造轴部的泌185-泌252井一带。油气分布主要受沉积相、成岩作用及构造控制。平面上处于鼻状构造高部位,又处于晚成岩B期的远源水下分流河道、河口坝是最有利于油气富集的部位;纵向上,晚成岩B期的砂体有利于油气聚集,而晚成岩A3亚期的砂体不利于油气聚集。  相似文献   

15.
博格达山前带位于准噶尔盆地南缘冲断带东段,构造变形复杂、沉积演化认识不清、成藏主控因素不明等关键地质问题制约了该区油气勘探进程。中国地质调查局油气资源调查中心新疆项目组在博格达山前带开展了一系列野外地质调查、地震资料处理解释、烃源岩地球化学分析等综合研究,厘清了该区构造变形样式和演化过程,明确了二叠系芦草沟组烃源岩沉积中心,评价了油气资源潜力,提出了该区复式油气成藏模式。钻探实践进一步证实了该区良好的油气资源潜力,推动了该区油气勘探进程,对类似地区开展油气勘探具有一定的借鉴意义。  相似文献   

16.
随着油气资源对外依赖度加大,中国的油气勘探已经拓展到深层和超深层领域,并相继在中西部盆地发现了塔河、普光、安岳、靖边、顺北等一批大型油气田,展示出广阔的勘探前景。中国已探明的深层和超深层碳酸盐岩油气藏特征与全球的有很大差异,经典的油气地质理论指导这类油气田勘探遇到了前所未有的重大挑战,需要完善和发展。通过调研和比较全球已探明的碳酸盐岩和砂岩油气藏地质特征,发现它们的油气来源条件、油气藏形成条件、成藏动力、演化过程特征等类同;同时,发现碳酸盐岩和砂岩油气藏的矿物组成、孔隙度和渗透率随埋深变化特征、孔渗结构特征、储层物性下限、油气藏类型等有着很大不同。中国深层和超深层碳酸盐岩油气藏与全球的相比较具有五方面差异:地层年代更老、埋藏深度更大、白云岩储层比率更大、天然气资源比率更高、储层孔渗关系更乱。中国已经发现的深层碳酸盐岩油气藏成因类型可以归为五种:沉积型高孔高渗油气藏、压实成岩型低孔低渗油气藏、结晶成岩型低孔低渗油气藏、流体改造型高孔低渗油气藏、应力改造型低孔高渗油气藏;它们形成的动力学机制分别与地层沉积和浮力主导的油气运移作用、地层压实和非浮力主导的油气运移作用、成岩结晶和非浮力主导的油气运移作用、流体改造介质和浮力主导的油气运移作用、应力改造和浮力主导的油气运移作用等密切相关。中国深层和超深层碳酸盐岩油气藏勘探发展的有利领域和油气藏类型主要有三个:一是低热流盆地浮力成藏下限之上自由动力场形成的高孔高渗常规油气藏;二是构造变动频繁的叠合盆地内外应力和内部流体活动改造而形成的缝洞复合型油气藏;三是构造稳定盆地内局限动力场形成的广泛致密连续型非常规油气藏。改造类非常规致密碳酸盐岩油气藏是中国含油气盆地深层和超深层油气资源的主要类型:它们叠加了早期形成的常规油气藏特征,又具有自身广泛连续分布的非常规特征,还经受了后期构造变动的改造;复杂的分布特征,致密的介质条件和高温高压环境使得这类油气资源勘探开发难度大、成本高。   相似文献   

17.
南海油气资源储量巨大,近年来周边国家对该海域油气资源的争夺日益白热化,南海领土及油气资源归属的矛盾日益突出,及时监测海上油气钻井平台的分布及其变化状况,对维护国家海洋权益和海洋资源环境保护具有重要意义.针对南海油气钻井平台的监测问题,从遥感影像的数据源选择和识别方法2个方面对近年来南海油气钻井平台的遥感监测情况进行了分...  相似文献   

18.
稠油区浅层天然气成因探讨   总被引:1,自引:0,他引:1       下载免费PDF全文
谭吕  王力群 《地质科学》2013,48(3):908-921
中国含油气盆地稠油分布广泛,在这些稠油分布区与稠油伴生一些浅层天然气,这些天然气大多数甲烷碳同位素较常规天然气碳同位素轻,干燥系数大,非烃中氮气含量高,研究认为这些与稠油伴生的浅层天然气为原油在厌氧细菌(主要是产甲烷菌)作用下形成的原油降解气,同时混有少量热成因天然气。通过对稠油分布区的地质环境、地层水组成和储层特征等方面研究,提出微生物降解原油具备形成天然气所需的地质条件,认为原油降解气具有较大勘探潜力。  相似文献   

19.
The frontal uplift of the Kuqa depression is an important oil and gas producing area. In this study, the distribution and origin of natural gas were discussed based on natural gas components and isotope data. The main components of natural gas were hydrocarbons with relatively high contents of C2+ component. Most gases were de-rived from terrestrial source rocks, and some came from marine rocks. The contents of non-hydrocarbon gases were high in the central part of the frontal uplift area and low in the two terminals. The distribution of oil composition was similar to that of natural gas, which was mainly controlled by the types of source rocks. Dry coefficient and maturity of natural gas in the frontal uplift were lower than those of gas in the Kelasu tectonic belt of the Kuqa depression, which was mainly affected by the difference of tectonic movements in both areas. In the frontal uplift, the traps were formed in the early stage and could capture the early formed oil and gas, and structural adjustment was slight in later stages, so the oil and gas could be effectively preserved. Multiperiodic oil and gas filling led to the complex distribu-tion of natural gas.  相似文献   

20.
The Lunnan Lower Uplift in the Tarim Basin, NW China contains a composite petroleum system with mainly biodegraded heavy oil in the west, normal oil in the center and gas condensate in the east. Twenty-three gas samples and 37 oil samples taken from three major hydrocarbon bearing intervals in the Lunnan lower bulge were analyzed for their stable carbon isotopes and molecular biomarkers. On the basis of their isotopic compositions, biomarkers, especially diamondoids, and integrating the physical properties of the hydrocarbons including densities, GOR and PVT relationships, it has been concluded that the recently discovered deep (6500 m) eastern Lungu giant Ordovician gas condensate pool with an estimated reserve of 723 million bbl oil equivalent is a secondary hydrocarbon accumulation derived from the mixing of an early formed oil and a late formed gas. The extremely dry gases with a gas dryness of >0.98 were derived from thermal cracking of crude oils and charged to an existing oil reservoir causing extensive gas washing and secondary alteration. Compared with most of the hydrocarbons in the Lunnan area, the gas from the eastern Lungu gas condensate pool has a heavier carbon isotopic composition, higher dryness and a higher maturity level. The unique physical, chemical and isotopic compositions of the gas condensate are believed to be a direct result of gas flushing of an early formed eastern Lungu oil pool by a late formed dry gas from oil cracking. The eastern Lungu gas condensate pool is presently characterized by containing “dry gas, heavy oil, abundant aromatics and high wax”.  相似文献   

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