内蒙古二连盆地岩性油气富集因素分析   总被引：1，自引：3，他引：1  

刘震  郝琦  赵贤正  张以明  易士威  杨德相 《现代地质》2006,20(4):613-620

根据近年来在内蒙古二连盆地有关岩性油藏方面取得了很多勘探成果,通过对4个主力凹陷的岩性油气富集因素进行分析,认为形成岩性油气富集的3大主要因素是:(1)丰富的油源;(2)优质的砂岩体圈闭;(3)存在汇流通道。丰富的油源是油气富集的物质基础,二连盆地发育的2套有效烃源岩层系厚度大、分布面积广、资源规模大,与储集砂体之间具多种接触关系。优质的砂岩体圈闭具有圈闭规模大、发育有利的储集相类型和良好储集层的特点,这些是油气富集的关键因素。圈闭规模大表现为单一大规模砂岩体圈闭或多个小型圈闭叠合连片,扇三角洲、辫状河三角洲和湖底扇是有利的储集相类型,油气富集往往形成于良好的储集层中。此外,存在汇流通道是油气富集的重要因素,充足的油气通过指状砂体侧向汇流通道和断层垂向汇流通道运移,在优质的砂岩体圈闭中聚集成藏。  相似文献   

构造应力场、流体势场对柴达木盆地西部油气运聚的控制作用     

王小凤武红岭  马寅生操成杰王连庆  陈宣华田晓娟张敏  江波尹成明  张启全张永庶 《地质通报》2006,25(9):1036-1044

运用多孔介质渗流理论和构造应力场驱动油气运移的流固耦合分析方法对柴达木盆地西部的构造应力场及流体运移势进行了数值模拟,揭示盆地西部油气运聚的规律是:①区域主要构造格架或构造体系控制了构造压力低值区的展布,二级构造压力低值区的边界为近南北和北北东向;②由浅层向深层,构造压力低值区的范围有逐渐扩大的趋势;③盆地西南部油区棋盘格式构造的结点为构造压力低值区;④不同构造层油气流矢量聚集区往往都是构造压力的低值区和油气聚集的有利部位.  相似文献   

Distribution and Geochemical Implication of Aromatic Hydrocarbons across the Meishan Permian-Triassic Boundary   总被引：5，自引：0，他引：5  

黄咸雨 焦丹鲁力强  黄俊华谢树成 《中国地质大学学报(英文版)》2006,17(1):49-54

INTRODUCTIONThe Permian-Triassic ( Tr/P) boundary , datedto be (251 .4±0 .3) Ma ago ,is marked by the mostdrastic mass extinction of organisms in the Phanero-zoic .In order to explore the pattern and the cause ofthe mass extinction,extensive research has been fo-cused on biostratigraphy , isotopic chronostratigra-phy , event stratigraphy , ecostratigraphy and se-quence stratigraphy (Payne et al .,2004 ; Reichowetal .,2002 ; Yin et al .,2001 ;Jin et al .,2000 ;Zhanget al .,1996 ,1995 ;…  相似文献   

生烃动力学、同位素动力学方法在烃源岩研究中的应用     

刘大永  彭平安  林会喜  林玉祥  刘华 《地质通报》2006,(Z2)

生烃动力学、同位素动力学常用于烃源岩评价、油气源对比研究中。生烃动力学参数结合盆地热史,可恢复烃源岩在任一时代的生烃史,对构造复杂盆地的二次生烃研究具有独特的优势。利用生烃动力学方法可以实现有机质总量的恢复,在此基础上对高—过成熟样品原始有机质丰度是否有必要恢复进行了讨论;而基于生烃动力学的油气源对比综合考虑热史、成藏期次、成藏过程等各种地质参数对烃源岩生烃的影响,是一种动态的研究方法。  相似文献   

遥感技术预测油气勘探靶区     

黄光玉  沈占锋  王润生 《测绘与空间地理信息》2007,30(2):1-4

应用遥感技术预测油气勘探靶区具有低成本、高效率的特点。目前有直接和间接两种油气遥感方法用于预测油气勘探靶区。本文简单介绍了这两种方法的原理，重点对遥感影像中的线-环影像构造异常和烃渗漏异常所表现的特征进行了全面的总结，最后对遥感技术在预测油气勘探靶区的应用前景进行了展望。  相似文献   

人工合成烃类包裹体的实验研究   总被引：6，自引：3，他引：6  

倪培  王一刚 《岩石学报》2007,23(9):2033-2038

运用 Sterner 和 Bodnar(1984)提出的愈合裂隙的实验技术,在石英中成功地合成了烃类包裹体,并对合成的包裹体进行了岩相学观察、显微温度测定及激光拉曼光谱分析等。实验揭示出除合成压力之外,合成温度、反应时间和油水比例是烃类包裹体合成时几个需要重点考虑的因素。此外,合成时加入的初始溶液盐度和酸碱度也值得进一步考虑。人工合成烃类包裹体为研究天然烃类包裹体的形成机制及测定分析奠定了基础。  相似文献   

Interactions between basalts and oil source rocks in rift basins： CO2 generation     

金强  许丽  万从礼  曾怡 《中国地球化学学报》2007,26(1):58-65

Basalts interbedded with oil source rocks are discovered frequently in rift basins of eastern China, where CO2 is found in reservoirs around or within basalts, for example in the Binnan reservoir of the Dongying Depression. In the reservoirs, CO2 with heavy carbon isotopic composition (δ13C>-10‰ PDB) is in most cases accounts for 40% of the total gas reserve, and is believed to have resulted from degassing of basaltic magma from the mantle. In their investigations of the Binnan reservoir, the authors suggested that the CO2 would result from interactions between the source rocks and basalts. As the source rocks around basalts are rich in carbonate minerals, volcanic minerals, transition metals and organic matter, during their burial history some of the transition metals were catalyzed on the thermal degradation of organic matter into hydrocarbons and on the decomposition of carbonate minerals into CO2, which was reproduced in thermal simulations of the source rocks with the transition metals (Ni and Co). This kind of CO2 accounts for 55%-85% of the total gas reserve generated in the process of thermal simulation, and its δ13C values range from -11‰- -7.2‰ PDB, which are very similar to those of CO2 found in the Binnan reservoir. The co-generation of CO2 and hydrocarbon gases makes it possible their accumulation together in one trap. In other words, if the CO2 resulted directly from degassing of basaltic magma or was derived from the mantle, it could not be accumulated with hydrocarbon gases because it came into the basin much earlier than hydrocarbon generation and much earlier than trap formation. Therefore, the source rocks around basalts generated hydrocarbons and CO2 simultaneously through catalysis of Co and Ni transition metals, which is useful for the explanation of co-accumulation of hydrocarbon gases and CO2 in rift basins in eastern China.  相似文献   

利用储层流体包裹体确定鄂尔多斯盆地塔巴庙区块上古生界油气充注期次和时期   总被引：5，自引：1，他引：5  

郭振华  陈红汉  赵彦超  刘建章  陈雷 《现代地质》2007,21(4):712-718,737

流体包裹体是保存在储层中的微小流体样品,包含有丰富的地质信息。通过对鄂尔多斯盆地塔巴庙区块18口井的62块流体包裹体样品进行荧光观察和显微测温,认为该区上古生界地层共发生过6期流体活动,均与油气成藏有关,并以第二期—第六期的天然气充注为主。结合埋藏史分析可知,油气成藏分别发生在距今190～150Ma的早侏罗世中期—中侏罗世晚期,150～124Ma的中侏罗世晚期—早白垩世早期,124～101Ma的早白垩世早期—早白垩世中期,101～86Ma的早白垩世中期—早白垩世中末期和86～70Ma的早白垩世中末期—早白垩世末期。其中,早侏罗世中期—中侏罗世晚期为油气充注的初始阶段,中侏罗世晚期—早白垩世早期为轻质油的主要成藏时期,中侏罗世晚期至早白垩世末为研究区内目的层天然气的主要成藏时期。  相似文献   

东海丽水-椒江凹陷构造样式与含油气远景   总被引：4，自引：0，他引：4  

夏斌  张敏强  万志峰  孙向阳  吕宝凤 《华南地震》2007,27(3):1-8

丽水-椒江凹陷位于东海陆架盆地台北坳陷西部,其沉降过程经历了裂陷期、坳陷期、抬升期及区域沉降期4个阶段。盆地构造样式复杂,具有半地堑-地堑式结构并存、频繁变化等特征,断裂构造发育,主要有铲式、坡坪式、多米诺式、"Y"型、阶梯状、地垒和地堑等断裂构造组合。构造活动有效控制油气圈闭的形成,灵峰构造带(潜山构造带)、丽水西次凹中央反转背斜构造带、丽水西次凹屋脊断块构造带、椒江凹陷中部断块半背斜构造带为该区未来勘探的有利区带。  相似文献   

Ternary geochemical-tracing system in natural gas accumulation     

Liu WenHui  Chen MengJin  Guan Ping  Zheng JianJing  Jin Qiang  Li Jian  Wang WanChun  Hu GuoYi  Xia YanQing  Zhang DianWei 《中国科学D辑(英文版)》2007,50(10):1494-1503

The establishment of geochemical-tracing system of gas generation and accumulation is helpful to re-elucidating the gas migration and accumulation in time and space. To deduce the complex process of gas accumulation, a ternary geochemical-tracing system is set up, according to stable isotope inheritance of source rocks, kinetic fractionation of stable isotopes, time-accumulating effect of noble gas isotopes, mantle-derived volatile inheritance, and organic molecule inheritance of light hydrocarbons and thermally kinetic fractionation in their generation, in combination with the previous achievements of gas geochemistry and geochemical parameters of gas-source correlation. There are tight interactions for the geochemical parameters with much information about parent inheritance and special biomarkers, in which they are confirmed each other, reciprocally associated and preferentially used for the requirement so that we can use these geochemical parameters to effectively demonstrate the sources of natural gas, sedimentary environments and thermal evolution of source rocks, migration and accumulation of natural gas, and rearrangement of natural gas reservoirs. It is necessary for the ternary geochemical-tracing system to predict the formation of high efficient gas reservoir and their distribution in time and space.  相似文献