Conditions for the Formation of Oil and Gas Pools in Tertiary Volcanics in the Western Part of the Huimin Sag, Shandong and Their Distribution

Conditions for the Formation of oil and gas pools in Tertiary volcanics in the western part of the Huimin sag, Shandong and then (?)stribution have been studied based on the geological, seismic and well-logging information. In this paper, the types and lithofacies of the volcanic rocks in the western part of the Huimin sag are described; the relationship between rocks and electrical properties, the seismic reflection structures, the development and distribution of the volcanic rocks are expounded; and the fourfold role of the volcanic activities in the formation of the oil and gas pools is also dealt with. It is considered by the authors that the volcanic activities were not destructive to the formation of oil and gas pools but a factor favourable to the accumulation of organic matters and their conversion to hydrocarbon. The volcanic rocks might have served as reservoir rocks and cap rocks, or as a synsedimentary anticline. The prerequisites and important factors for the formation of oil and gas pools and their distribution are pointed out in the paper.     

Formation Models and Distribution of Oil and Gas Pools in Tarim Basin,China

This article reports the main formation models and distribution of the oil and gas pools in Tarim basin,China,including (I) occurrence of the found oil and gas pools,(2) main formation models of oil and gas pools,and (3) distribution law of oil/gas pools.Petroleum is distributed widely in the strata of Tarim basin from the Sinian at the bottom to the Neogene at the top.However,the found oil and gas fields are mainly distributed in Shaya (沙雅) uplift,Tazhong (塔中) uplift,and Kuche (库车)depression.This article presents 4 main formation models,namely,early formation and long-term preservation,early formation and late reformation,middle-late multiphase-multisource formation,late single-stage formation.Tarim basin is very rich in petroleum resources.Long-term inherited intrabasinal paleohighs and slope zones are the most favorable areas for accumulation of hydrocarbons,but the types of oil and gas pools are different from area to area.The control of unconformities and faults on hydrocarbon accumulating is prominent in Tarim basin.Preservation conditions are of utmost importance.Formation of some oil and gas pools is the result of reforming and re-accumulating of early accumulated hydrocarbons.     

Geologic Characteristics of Volcanic Hydrocarbon Reservoirs and Exploration Directions in China

Abstract: Volcanic rocks are distributed widely in China, which are important exploration targets. By analyzing many discovered volcanic hydrocarbon reservoirs all over the world, the authors summarized the geologic characteristics of the formation of volcanic hydrocarbon reservoirs in China, and gave further exploration directions and advices. (1) There are mainly Carboniferous-Permian, Jurassic-Cretaceous, Paleogene-Neogene volcanic rocks in oil- and gas-bearing basins in China, which are mainly distributed in the Junggar Basin, Songliao Basin, Bohai Bay Basin, etc. There are mainly intermediate rocks and acidic rocks in east China, and intermediate rocks and basic rocks in west China. They primarily develop in intracontinental rift settings and island arc environments. (2) Pore-fissure reservoirs are distributed widely in basins, which are volcanic rocks mainly in explosive and effusive facies. (3) Volcanic hydrocarbon reservoirs are chiefly near-source lithostratigraphic hydrocarbon reservoirs, and the oil and gas accumulation is predominantly controlled by lithotypes, faults and structural positions. (4) Deep-seated oil and gas reservoirs in the Songliao Basin and Carboniferous volcanic hydrocarbon reservoirs in the Junggar Basin are potential giant volcanic gas provinces, the volcanic hydrocarbon reservoirs in the Bohai Bay Basin and Santanghu Basin are favorable for oil and gas reserves increase, and volcanic rocks in the Turpan Basin, Sichuan Basin, Tarim Basin have exploration potentiality. (5) The technology series of oil and gas exploration in volcanic rocks have been preliminarily formed.     

Types, Evolution and Pool-Controlling Significance of Pool Fluid Sources in Superimposed Basins： A Case Study from Paleozoic and Mesozoic in South China

Having multiple tectonic evolution stages, South China belongs to a superimposed basin in nature. Most marine gas pools became secondary pools. The pool fluid sources serve as the principal pool-controlling factors. On the basis of eight typical petroleum pools, the type, evolution in time-space, and the controlling of petroleum distribution of pool fluid sources are comprehensively analyzed. The main types of pool fluid sources include hydrocarbon, generated primarily and secondly from source rocks, gas cracked from crude oil, gas dissolved in water, inorganic gas, and mixed gases. In terms of evolution, the primary hydrocarbon was predominant prior to Indosinian; during Indosinian to Yen- shanian the secondary gas includes gas cracked from crude oil, gas generated secondarily, gas dissolved in water, and inorganic gas dominated; during Yenshanian to Himalayan the most fluid sources were mixed gases. Controlled by pool fluid sources, the pools with mixed gas sources distributed mainly in Upper Yangtze block, especially Sichuan (四川) basin; the pools with primary hydrocarbon sources distributed in paleo-uplifts such as Jiangnan (江南), but most of these pools became fossil pools; the pools with secondary hydrocarbon source distributed in the areas covered by Cretaceous and Eogene in Middle-Lower Yangtze blocks, and Chuxiong (楚雄), Shiwandashan (十万大山), and Nanpanjiang (南盘江) basins; the pools with inorganic gas source mainly formed and distributed in tensional structure areas.     

Magmatic Network Structure of Volcanic Rocks in the Shengli Oilfield, Eastern China

Types of polymerized molecular network structure and degree of bond breakdown for glass phases of magmatic inclusions and glassy matrix in volcanic rocks from the Shengli oilfield have been defined by the laser Raman spectroscopic investigation. There are significant differences in types of polymerized molecular network structure and degree of bond 'breakdown of the magmatic glass phases between the non-CO2 and COa gas pools: magmatic glass phases of fluid inclusions and matrix in volcanic rocks from the CO2 gas pool contain more sheet network molecules and have a greater degree of bond beakdown than those from the non-CO2 gas pool; and when gas bubbles occur in evolving magma, magma saturated with volatile components has more sheet network molecules. The results suggest the magma-degassing mechanism of the formation of CO2 gas pools in the Shengli oilfield.     

K—Ar Geochronology and Evolution of Cenozoic Volcanic Rocks in Eastrn China

Cenozoic volcanic rocks widespread in eastern China constitute an important part of the circum-Pacific volcanic belt.This paper presents more than 150K-Ar dates and a great deal of petrochemical analysis data from the Cenozoic volcanic rocks distributed in Tengchong,China‘s southeast coast,Shandong,Hebei,Nei Monggol and Northeast China.An integrated study shows that ubiquitous but uneven volcanic activities prevailed from the Eogene to the Holocene,characterized as being multi-eqisodic and multicycled.For example,in the Paleocene(67-58Ma),Eocene(57-37.5Ma),Miocene(22-18,16-19Ma),Pliocene(8-3Ma),and Early Pleistocene-Middle Pleistocene(1.2-0.5Ma) there were upsurges of volcanism,while in the Oligocene there was a repose period.In space,the older Eogene volcanic rocks are distributed within the region or in the central part of the NE-NNE-striking fault depression,while the younger Neogene and Quaternary volcanic rocks are distributed in the eastern and western parts.Petrologically,they belong essentially to tholeiite-series and alkali-series basalts,with alkalinity in the rocks increasing from old to youg.The above regularities are controlled by both global plate movement and regional inherent tectonic pattern.     

Geochemical Characteristics and Metallogenesis of Volcanic Rocks as Exemplified by Volcanic Rocks in Ertix,Xinjiang

Volcanic rocks in Ertix,Xinjiang,occurring in the collision zone between the Siberia Plate and the Junggar Plate,are distributed along the Eritix River Valley in northern Xinjiang.The volcanic rocks were dated at Late Paleozoic and can be divided into the spilite-keratophyre series and the basalt-andesite series.The spilite-keratophyre series volcanic rocks occur in the Altay orogenic belt at the southwest margin of the Siberia Plate.In addition to sodic volcanic rocks.There are also associated potassic-sodic volcanic rocks and potassic volcanic rocks.The potassic-sodic volcanic rocks occur at the bottom of the eruption cycle and control the distribution of Pb and Zn deposits.The potassic volcanic rocks occur at the top of the eruption cycle and are associated with Au and Cu mineralizations.The sodic volcanic rocks occur in the middle stage of eruption cycle and control the occurrence of Cu(Zn) deposits.The basalt-andesite series volcanic rocks distributed in the North Junggar orogenic belt at the north margin of the Junggar-Kazakstan Plate belong to the potassic sodic volcain rocks.The volcanic rocks distributed along the Ulungur fault are relatively rich in sodium and poor in potassium and are predominated by Cu mineralization and associated with Au mineralization.Those volcanic rocks distributed along the Ertix fault are relatively rich in K and poor in Na,with Au mineralization being dominant.     

山东惠民凹陷商741块火成岩油藏储集空间类型 及形成机理探讨

The igneous rocks are situated in the sedimentary stratigraphy of Sha-3 and Sha-1 members of the Lower Tertiary in the Shang 741 block,Huimin depression.They were formed in different time,the former was formed in late Sha-3 member and the latter——in Sha-1 member.There are five major types of the reservoir space in the igneous oil reservoirs primary gas cavity,intergranular pore and solution pore,structural fracture,shrinkage fracture.Through studying on the forming model of the igneous rock of Shang 741 block,we have analyzed the forming mechanism of the fracture in the igneous rock.The area near volcanic vent is the development zone of primary pore and structural fracture and shrinkage fracture,thus being the beneficial area for oil exploration.     

Tectonics and Petroleum Potential of the East China SeaShelf Rift Basin

There are two Cenozoic sedimentary basins in the East China Sea. They are the East China Sea shelf basin and the Okinawa Trough basin. The former can be divided into a western and an eastern rift region. The development of the shelf basin underwent continental-margin fault depression, post-rift and then tectonic inversion stages. Available exploration results show that the distribution of source rocks is controlled by the basin architecture and its tectonic evolution. In the Xihu depression, mudstones and coals are the main source rocks. The eastern rift region has good geological conditions for the formation of large oil and gas fields.     

Characteristics of Triassic Petroleum Systems in the Longmenshan Foreland Basin, Sichuan Province, China

The Triassic in the Longmengshan foreland basin is rich in oil and gas resources. Its reservoirs feature low-porosity, low-permeability, small pore throat, high water saturation, and strong heterogeneity. The existence of abnormally high pressure and various reservoir-cap combinations developed at different times provide favorable conditions for trapping oil and gas. Taking the theory of petroleum systems as a guide, and beginning with research on tectonics, sedimentary history, distribution and evolution of source rocks, reservoir evolution, hydraulic force distribution, and hydrocarbon migration, analysis and study of static factors like source rocks, reservoirs and cap rocks, and dynamic factors such as hydrocarbon generation, migration, and accumulation revealed the characteristics of the Upper Triassic petroleum system in western Sichuan province. The deepbasin gas in the central hydrocarbon kitchen of the Upper Triassic, structural-lithological combination traps on the surrounding slopes, and the structural traps of the Indo-Chinese-Yangshan paleohighs, are potential plays. The relatively well- developed fault zones in the southern segment of the Longmengshan foothill belt are favorable Jurassic gas plays. Pengshan-Xinjin, Qiongxi, and Dayi are recent exploration targets for Jurassic oil/gas reservoirs.     

夏口断层对惠民南部地区油气成藏的控制作用

夏口断层对惠民南部地区的油气成藏起着重要的控制作用。通过岩性对置、泥岩涂抹（R_SG）、紧闭指数等参数对夏口断层封闭性进行定量评价表明,夏口断层不同位置封闭性差异明显。在对夏口断层断面形态分析基础上,结合物理实验模拟,确定夏口断层作为惠民南部地区的运移通道,主要存在东西两个优势方向,目前发现的油气主要集中在这两个方向上。通过分析夏口断层的活动期与油气运移期的配置关系,得出明化镇期伴随主力烃源岩大量排烃,夏口断层成为惠民南部地区主要的油气运移通道。夏口断层东西两端复杂的封闭与开启状态,决定了惠民南部地区油气分布的复杂性。      

唐庄油田油气成藏规律及勘探潜力

唐庄油田位于济阳坳陷惠民凹陷中央隆起带西端，多年来一直是油气勘探的重要阵地。由于构造的复杂性和多物源等条件，该区勘探难度逐渐增大。从20世纪60年代的背斜构造油气藏逐渐过渡为断块油气藏、地层不整合油气藏，从古近系始新统沙河街组三段至新近系中新统馆陶组勘探层位有5个。笔者首先从油气成藏条件入手，分析了该区的油源条件、构造特征，对储集层进行了详细的评价。对该区的油藏类型和油气富集规律进行了总结。研究表明，该区发育背斜油气藏、断块油气藏、构造—岩性油气藏及地层不整合油气藏等多种油气藏，油藏从沙河街组三段至一段都有分布，且由南向北油气藏的层位依次抬高，全区各层位油气藏叠合连片构成复式油气藏。最后指出下一步勘探的三个研究方向。     

中国盆地火山岩特性及其与油气成藏作用的联系

在全面总结火山岩的特性、火山岩油气藏的成藏条件、类型以及成藏控制因素的基础上,详细列举了与火山岩油气藏成藏过程密切相关的火山岩的岩相、岩性、储集空间类型及其形成、演化的主要控制因素。火山岩具有良好的储集条件,其储集空间主要为裂缝和孔隙等,储集空间的发育程度主要受岩相、岩性、粒度、构造应力和充填期等因素的制约;丰富的生油层、优越的储集条件、火山岩裂隙主要发育期和油气聚集期相近、良好的盖层以及适当的圈闭条件相匹配,则有利于油气聚集成藏。火山岩型油气藏的勘探已成为油气储量和产量的新增长点。     

松辽盆地十屋断陷深层油气成藏过程与模式

松辽盆地十屋断陷深层油气藏经历了多期成藏与多期演化,根据烃源岩生排烃史模拟结合储层流体包裹体分析,十屋断陷深层油气藏主要经历了3期油气成藏过程,登娄库期末是早期原生油气藏的主要形成期,以形成油藏为主;泉头期末是十屋断陷深层油气藏大规模形成期,形成的油藏和气藏并重,早期油气藏继续接受本区成熟源岩生成的油气而不断扩大,同时早期原油在此阶段逐渐裂解成气;嫩江期末十屋断陷深层油气藏强烈改造,以形成次生油气藏和大量天然气藏为主。十屋断陷发育2类油气成藏模式:一类是中央隆起带"多期成藏中晚期强调整型"油气成藏模式,这是十屋断陷的主要成藏模式;另一类是位于深凹带和斜坡带"早期成藏晚期弱调整型"油气成藏模式。     

火山岩盖层类型及封气能力——以松辽盆地徐家围子断陷为例

利用钻井、测井和分析测试资料,对徐家围子断陷火山岩盖层类型、识别标志、分布、封闭能力和对天然气成藏与分布的控制作用进行了研究,认为徐家围子断陷火山岩盖层分为火山碎屑岩和火山熔岩盖层2种。火山碎屑岩盖层主要是凝灰岩和火山角砾岩,具有井径扩容、电阻率小和高声波时差特征;火山熔岩盖层主要为流纹岩、凝灰岩和安山岩,具有井径不扩容、电阻率中等和低声波时差特征。利用高声波时差和声波时差值小于56 μs/ft可以分别识别火山碎屑岩盖层和火山熔岩盖层。火山碎屑岩盖层区域分布在断陷南部下白垩统营城组一段火山岩体的顶部,火山熔岩盖层局部分布在营一段和营三段火山岩体内部。火山碎屑岩盖层较火山熔岩盖层具有更强的封气能力,火山碎屑岩盖层控制着徐家围子断陷火山岩中天然气的区域聚集与分布,火山熔岩盖层仅控制着天然气在火山岩体中的局部聚集与分布。     

塔里木盆地二叠系划分对比与火山岩分布

根据全盆地钻井与露头剖面对比和地震剖面追踪解释,探讨了塔里木盆地覆盖区二叠系岩石地层的划分对比。二叠系自下而上由一个自然伽玛曲线加积段、三个自然伽玛曲线退积段组成,加积段为南闸组、退积段分别为库普库兹曼组、开派雷兹克组和沙井子组。南闸组是塔里木盆地最后一次海侵形成的滨浅海灰岩泥岩薄互层为主的沉积。库普库兹曼组和开派雷兹克组是两个基性火山岩-酸性火山岩的旋回或基性火山岩-砂泥岩的旋回。沙井子组是一个与区域构造运动有关的冲积扇、辫状河-曲流河沉积的异旋回。二叠系火山岩在和田河、塔中西部和顺托果勒地区厚度较大,库普库兹曼组火山岩一般0~60m,开派雷兹克组火山岩一般0~200m,局部可超过400m。与库普库兹满组火山岩相比,开派雷兹克组火山岩分布范围由塔西南朝塔东北方向有所迁移。中西部的库普库兹曼组火山岩可能喷发于水下。火山通道多沿着古隆起上的断背斜、断鼻构造分布。火山岩可形成油气藏遮挡,或本身形成储层,但火山活动改造或不同程度地破坏了早期已有油气藏。     

松辽盆地含CO_2火山岩气藏的形成和分布

松辽盆地特有的深部构造背景和裂谷演化特征,造成盆地内含CO_2火山岩气藏的形成和富集。松辽裂谷盆地中新生代火山岩浆活动发育,总体上具有多期喷发、分布广泛和储集条件良好的特点。火山活动以中心式喷发为主,主要发育中基性-酸性火山岩,发育流纹岩、凝灰岩等多种岩石类型,爆发相和溢流相2种火山岩相。中生代火山岩在盆地内分布广泛,营域组构成深层有利储层,新生代火山岩在盆地外围出露较多,而在盆内出露较少。盆地高含量的二氧化碳为无机幔源成因,由青山口期和新生代幔源岩浆脱气形成。含CO_2火山岩气藏的形成主要受深部构造背景、深大断裂和中新生代火山岩控制。已发现含CO_2火山岩气藏主要分布于古中央隆起带及其两侧断陷的营城组火山岩中,具有点状、带状分布,局部富集的特点。根据主控因素分析,预测了5个CO_2富集区带。     

塔里木盆地塔河地区海西晚期火山岩构造特征与油气成藏

通过地震剖面解释,根据断裂的切割层位将研究区火山岩断裂分为3类,即深层断裂、浅层断裂、火山岩内部微断裂。通过编制这3类断裂的平面展布图,对塔河地区火山岩断裂的性质、形成期次、分布特征及形成机理进行了分析。认为深层断裂形成于加里东期-海西期,以逆冲断层为主,走向呈NNE、NE、NNW3组,断裂主要分布于塔河火山岩发育区北部、西北部。浅层断裂形成于燕山期-喜马拉雅期,以正断层为主,断裂走向呈NE、NNE向,主要分布于盐边地带和东南部盐上火山岩分布区。火山岩内部的微断裂在顶部较底部发育,主要分布于塔河地区西部的火山岩中。根据火山岩储层和构造成因类型,将塔河地区火山岩划分为3种圈闭类型,即:构造裂缝和淋滤风化共同控制的圈闭、古凸起不整合遮挡和抬升淋滤风化共同控制的圈闭、埋藏溶蚀和构造裂缝共同控制的圈闭。分析了火山岩圈闭顶部的盖层条件和火山岩的油气成藏条件,认为三叠系底部柯吐尔组泥岩可形成有效的区域性封盖,塔河地区火山岩具有良好的油气成藏条件。     

东濮凹陷白庙地区深层天然气成藏期次研究

白庙地区是东濮凹陷勘探程度较高的含油气区,生气条件十分优越,已发现了Es2下,Es31,Es32,Es33-4 4套主要含油气层系。根据伊利石测年法和包裹体均一温度法综合分析了白庙地区天然气充注历史。研究表明白庙地区天然气主要分两次注入储层,一次为31.4～20.4 Ma,相当于东营组-馆陶组早期,另一次为2 Ma,相当于第四纪以来;第一阶段天然气成藏时期年龄绝大部分落入了剥蚀期年龄（27～17 Ma）段,是天然气藏的最主要形成时期,抬升剥蚀期压力下降,更有利于天然气成藏;第二阶段为2 Ma,相当于第四纪以来,馆陶组沉积以来白庙地区为欠补偿状态,无二次生气过程,一方面前梨园洼陷及葛岗集洼陷继续生气,生成的天然气向白庙构造运移,聚集成藏;另一方面是第一阶段形成气藏的重新调整。白庙地区天然气成藏期总体具有西早、东晚、北早、南晚的特点。