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The water depth in Nansha(南沙) waters,which is located in the southern South China Sea,varies from 200 to 2 500 m,with a deep-water(>500 m) area of 500 000 km2.In this region,there are many depositional basins with various structural features,prone to the accumulation of organic material.The temperature and pressure conditions in the deep-water environment are suitable for the preservation of gas hydrate.At several sites,we have recognized bottom-simulating reflectors(BSRs) from seismic data.Regional geology... 相似文献
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通过对黑龙江省嘉荫县乌拉嘎盆地内各地层单元的岩石组合、生物化石组合与时代和沉积环境的系统研究与厘定,并与孙吴-嘉荫盆地其他断陷以及松辽盆地进行对比.研究表明:乌拉嘎盆地中、新生代划分为3个构造层5个岩石地层单元,并对其空间展布与演化进行了恢复,填制区域地质图.乌拉嘎盆地表现为明显的3期不同性质的盆地叠合演化特点,其间由... 相似文献
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油页岩是未来重要的补充与替代能源。通过开放体系程序升温热模拟实验,对燕山地区下马岭组海相油页岩进行了研究。结果表明:其热裂解反应主要发生在440~480℃,表观生烃活化能集中分布于170~290 kJ/mol,主峰约为240 kJ/mol,明显高于陆相油页岩(抚顺油页岩和茂名油页岩),而与下古生界海相烃源岩(甘肃平凉奥陶系灰岩及爱沙尼亚奥陶系Kukersite油页岩)活化能分布范围及主峰位置相似。以ICP技术规范为例,在相同热历史条件下,通过数值模拟认识到下马岭组海相油页岩主生烃温度为275~325℃,高于湖相油页岩(265~305℃),而与下古生界海相烃源岩相似,表明其可能具有与古生界海相有机质相似的生烃机理。 相似文献
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准噶尔盆地东南缘油页岩干馏的PY-GC模拟 总被引:1,自引:0,他引:1
采用热解气相色谱技术,通过多温度区间加热和单温度区间加热2种方式模拟了准噶尔盆地东南缘大黄山油页岩的干馏过程。多温度区间热模拟的结果表明,油页岩的干馏过程分起始阶段、高峰阶段和末尾阶段3个阶段。起始阶段热解的产物很少,到高峰阶段产物的产量突增,90%的产物在这一阶段生成,末尾阶段的热解产物以气体为主;多温度区间热模拟的结果对页岩的工业干馏工艺设计具有一定的指导意义。单温度区间热模拟的结果表明,干馏产物有以轻质组分为主和以重质组分为主2种类型。目前的研究表明,风化程度和焦油产率是影响干馏产物构成的主要因素。 相似文献
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YANG Keming 《《地质学报》英文版》2008,82(6):1244-1252
The foreland basin in West Sichuan is a tectonic unit that has undergone multi-periods tectonic movements of Indosinian-Yanshanian-Himalayan. Since late Triassic, it has been in a passive subsidence environment controlled by basin margin mountain systems and by the compression with abundant sediment sources. With the complex geologic setting, the main geologic characteristics of natural gas reservoir are listed as following: (1) Source rocks are coal-bearing mud and shale series with high to over maturity, and long and progressive hydrocarbon generation-displacement period. The key accumulation period is middle-late Yanshanian epoch. (2) There are three gas-bearing systems vertically, each of which has different reservoir mechanism, main-controlled factors and distribution law, so the exploration thoughts and techniques are also different. (3) Undergoing multi-period generation-migration-accumulation, oil and gas have encountered multi-period modification or destruction, and gas accumulation overpass multiple tectonic periods. So the trap type is complicated and dominated by combination traps. Because the main accumulation period of natural gas is early and the reservoir encountered the modification of strong Himalayan movement, there is great difference in the fullness degree of gas reservoirs and complicated gas-water relation. (4) Reservoir is tight to very tight, but reservoirs of relatively high quality developed under the super tight setting. (5) The key techniques for oil and gas exploration in west Sichuan foreland basin are the prediction of relatively favorable reservoirs, fractures and gas bearing; and the key techniques for oil and gas development are how to improve the penetration rate, reservoir protection and modification. 相似文献
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应用天文地层学方法对山东昌潍北部新生代不整合时间和剥蚀量的计算及其意义 总被引:1,自引:1,他引:0
为进一步推动山东昌潍北部地区的新生代油气勘探,应用潍北、牛头镇和侯镇等3个凹陷9个层段的天文地层年龄分析,计算出新生代不整合时间和剥蚀量。天文地层学计算方法主要包括:地层分层,测井频谱分析,寻找40万年周期和旋回的对比。得到结果:孔三段-孔二段界线的年龄为61.819Ma,孔二段-孔一段界线的年龄为54.638Ma,孔一段-沙四下亚段界线的年龄为48.448Ma,沙四下-沙四上亚段界线的年龄为43.516Ma,沙四上亚段顶的年龄为40.362Ma,馆陶组-明化镇组界线的年龄大约为35.778—31.896Ma。通过剥蚀的时间和沉积环境的分析提出如下观点:1)大约在48.448Ma以前,昌潍坳陷北部的沉积是全盆地的、稳定的,其中包括:约长达4Myr期间孔三段断断续续出现玄武岩喷发,大约7Myr时间内孔二段出现沼泽和浅湖相的沉积,约6Myr时间内孔一段主要为干旱相的小水塘、水坑"红色"沉积;2)从沙河街组开始(48.448Ma)至东营组末(23.03Ma)期间,也即大约25Myr期间,潍北的昌参1、昌1等井的中心部位,仍然是不断下陷、沉积;3)馆陶组沉积期间(大约23.03—13Ma)盆地全区上升。因此在大约10Myr的剥蚀时间过程中,不仅没有沉积,而把原沉积的沙三亚段至东营组不断‘反剥’到沙四段下部;4)馆陶组末(大约13Ma)到明化镇组顶(2.588Ma)沉积期间,全区开始以河流泛滥平原相为主的泥岩和泥质粉细砂岩的沉积,形成盖层。根据天文地层方法的剥蚀量计算,潍北凹陷中有3个"反剥高点"。这些"反剥高点"在始新世末至渐新世的沉积和构造上升和剥蚀过程中,可能造成砂岩回弹和孔隙扩张,形成好的储集区。根据计算,最大的"反剥高点"是在昌36—央5—昌8井一带,剥蚀厚度约达1800—3000m,与多年油田勘探取得成果是一致的。 相似文献
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据实测实验数据分析了川中及川东南地区典型构造上勘探井震旦系—下古生界泥岩及沥青样品的生物标志化合物的特征,证实源岩的沉积环境主要为具有一定盐度的还原环境,生物多来自于低等水生生物的菌藻类。川中震旦系—下古生界和川东南震旦系储层沥青主要来自寒武系泥岩;川东南下古生界储层沥青则为寒武系和志留系的混合来源。利用Karweil方法分析了川中地区高科1井寒武系烃源岩的成烃史;采用磷灰石裂变径迹技术与Easy%Ro模型联合模拟恢复了川东南地区丁山1井的生烃史;对比分析表明,川东南寒武系烃源岩成熟时间、主生油及主生气期均早于川中寒武系烃源岩。 相似文献