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DOI: 10.16562/ki.0256-1492.2021012501幕式裂陷控洼背景下的烃源岩分布及岩浆改造——以珠一坳陷番禺4洼为例高阳东,林鹤鸣,汪旭东,刘培,李振升,张琴,熊万林中海石油(中国)有限公司深圳分公司,深圳 518000摘要:经历裂陷I 幕a 期强烈裂陷,a 期末北部的抬升和岩浆活动,至裂陷I 幕b 期北洼萎缩、南洼扩大、新形成北西洼,洼陷整体走向从NE-SW 转变为NEE-SSW ,珠琼运动II 幕整体接受抬升剥蚀。
在裂陷I 幕演化过程中,半深湖-深湖亚相自下而上呈现自 NE 向 SW 迁移特征。
上文昌组烃源岩面积较大,但仅南部厚度较大,本身湖相有机质含量较高;下文昌组半深湖-深湖亚相烃源岩面积相对较小,北部在I 幕a 期末被剥蚀后厚度仍较大,南部厚度较小,岩浆活动从某种程度上起到了促进下文昌组有机质成熟、加速成烃的作用。
上、下文昌组半深湖-深湖亚相烃源岩具有差异分布的特征,下文昌组的生烃强度优于上文昌组。
关键词:幕式裂陷;岩浆活动;惠州运动;烃源岩;珠江口盆地;珠一坳陷;番禺4洼中图分类号:P736 文献标识码:ASource rock distribution pattern in an episodic rifting sag and later stage magmatiic reformation: A case from Panyu 4 sag, Zhu I DepressionGAO Yangdong, LIN Heming, WANG Xudong, LIU Pei, LI Zhensheng, ZHANG Qin, XIONG WanlinChina National Offshore Oil Corporation Limited-Shenzhen, Shenzhen 518000, ChinaAbstract: The Panyu 4, a sag in the Zhu Ⅰ Depression with relatively high degree of exploration, is formed by episodic rifting and reformed by later stage magmatism. The distribution pattern of source rocks in the sag is the key issue to current oil and gas exploration. The latest seismic interpretation, together with the comprehensive research of core data, logging data, geochemical data, suggests that the Wenchang Formation in the Panyu 4 sag has a typical two-layer structure. After intensive rifting in the Stage a of the Rifting Episode I, the uplifting and magmatism in the north of the sag caused the shrinkage of the sag N, the expansion of the sag S and the formation of sag NW. The general strike of the Panyu 4sag changed form NE-SW to NEE- SSW. In the second Rifting Episode, the Zhu-Qiong movement gave rise to the regional uplifting followed by denudation. In the Rifting Episode I, semi-deep lake deposits gradually turned to deep lacustrine facies from bottom to top following the NE-SW direction. The Lower Wenchang Formation has relatively smaller distribution area for semi-deep and deep lacustrine deposits which is the major source rocks currently in exploration. The Upper Wenchang Formation has larger area in terms of source rock distribution. However,thick source rocks only distributed in the south, where is rich in organic matter and lack of magmatism. Although the lower Wenchang Formation was denuded in the north by the end of the Stage a of the Rifting Episode I, the source rock in the north is thicker than that in the south. The magmatism may enhance the maturity of organic matter and promote the hydrocarbon generation in the Lower Wenchang Formation.The semi-deep and deep lacustrine facies source rocks in the Upper and Lower Wenchang Formations are rather different and the hydrocarbon-generating intensity in the Lower Wenchang Formation is higher than that in the Upper.Key words: episodic rifting; magmatism; Huizhou movement; source rocks; Pearl River Mouth Basin; Zhu I Depression; Panyu 4 sag中国东部新生代裂陷盆地一般经历从早期裂陷到晚期裂后拗陷的演化过程,裂陷阶段表现为幕式演化,其特征为断裂活动的多期性,断裂活动强度、展布方向和构造格架发生明显的变化[1-2]。
珠江口盆地珠一坳陷韩江组-万山组旋回地层学
珠江口盆地珠一坳陷是中国南方的沉积盆地,近年来发现了大量旋回地层,其中以韩江组-万山组为代表。
这些地层的研究
对于研究珠江口盆地地质历史和生物进化等方面具有重要意义。
韩江组-万山组旋回地层学是研究该地层的学科,主要包括地
层划分、沉积环境、沉积旋回和油气勘探等方面。
地层划分方面,韩江组-万山组共分为5个段,从下到上分别
为万山1段、万山2段、韩江1段、韩江2段和南昆仑段。
其中,韩江组的时间跨度为晚志留世早期到早泥盆世晚期,万山组的时间跨度为晚志留世末期到早泥盆世晚期。
沉积环境方面,韩江组-万山组主要发育在海侵-海退期间,其
沉积环境大致可以分为陆源三角洲、海湾、浅海台地等。
整个环境以靠近陆源地区的部分为主,远离陆源的部分多为浅海和近岸环境。
沉积旋回方面,韩江组-万山组中发育了一系列的旋回,其时
间上大致为3-8万年不等。
旋回之间的差异主要体现在沉积环
境和沉积物的组成、厚度等方面。
其中较明显的是第三次和第七次旋回,这两次旋回相对于其他旋回来说沉积量更大,沉积层次也更为清晰。
油气勘探方面,韩江组-万山组中含有大量的油气资源。
其中
最主要的是白云凹陷的裂缝岩气藏,这些气藏主要分布在韩江组-万山组中下部。
总体来说,韩江组-万山组的旋回地层学研究促进了对珠江口盆地地质历史和生物进化的了解,同时也为该地区的油气勘探和开发提供了重要依据。
石油地质与工程2022年1月PETROLEUM GEOLOGY AND ENGINEERING 第36卷第1期文章编号:1673–8217(2022)01–0014–06珠江口盆地恩平凹陷海相高泥质砂岩储层特征及主控因素陈一鸣,谢明英,闫正和,魏启任,卫喜辉,孙晓娜(中海石油(中国)有限公司深圳分公司,广东深圳518000)摘要:随着珠江口盆地恩平凹陷油田群的发现并投入开发,发现大量高含泥质的海相砂坝储层,储层特征及开发特征与常规海相砂岩差异较大。
为研究其储层特征及主控因素,以恩平凹陷A油田高泥质储层为例,对比其储层特征、开发特征和B油田常规海相砂岩储层的差异,研究表明:与常规海相砂岩储层相比,高泥质储层黏土矿物含量更高、孔喉更小、粒度更细、物性更差,开发过程中具有低阻产水、易出泥砂、能量不足的特点,明确了高泥质储层宏观上受控于弱水动力的沉积环境,细粒沉积物及黏土矿物的胶结作用是储层渗透率降低的主要因素,并对油田开发造成不利的影响。
关键词:珠江口盆地;恩平凹陷;沉积环境;海相砂岩;高泥质储层中图分类号:TE112.23 文献标识码:AReservoir characteristics and main controlling factors of marine high argillaceoussandstone in Enping sag of Pearl River Mouth basinCHEN Yiming, XIE Mingying, YAN Zhenghe, WEI Qiren, WEI Xihui, SUN Xiaona(Shenzhen Company of CNOOC (China) Co., Ltd. , Shenzhen, Guangdong 518000, China) Abstract: With the discovery and development of oilfields in Enping sag of Pearl River Mouth basin, many marine sand bar reservoirs with high argillaceous content have been found. The reservoir characteristics and development characteristics are quite different from that of conventional marine sandstone. In order to study its reservoir characteristics and main controlling factors, by taking the high argillaceous reservoir of A oilfield in Enping sag as an example, the differences of reservoir characteristics and development characteristics between it and the conventional marine sandstone reservoir of B oilfield are compared. The research shows that compared with conventional marine sandstone reservoir, high argillaceous reservoir has higher clay mineral content, smaller pore throat, finer particle size and worse physical properties. During the development process, it has the characteristics of low resistance, easy mud and sand production and insufficient energy. It makes clear that the high argillaceous reservoir is macroscopically controlled by the sedimentary environment of weak hydrodynamic force. The cementation of fine-grained sediments and clay minerals is the main factor for the reduction of reservoir permeability and has an adverse impact on oilfield development.Key words:Pearl River Mouth basin; Enping sag; sedimentary environment; marine sandstone; high argillaceous reservoir南海珠江口盆地经过30年的开发实践,形成了独特的海相砂岩高速高效开发对策和技术,这类储层在珠江口盆地可称为常规海相砂岩储层,具有物性好、分布稳定、展布范围广、连通性好、边底水天收稿日期:2021–03–30;修订日期:2021–05–17。
珠江口盆地西江凹陷南部文昌组层序地层及沉积体系研究吴宇翔,柳保军,丁 琳,谢世文,李小平,舒 誉,刘冬青,王宇辰,郭 伟Study on sequence stratigraphy and sedimentary systems of the Wenchang Formation in the southern Xijiang depression of the Pearl River Mouth BasinWU Yuxiang, LIU Baojun, DING Lin, XIE Shiwen, LI Xiaoping, SHU Yu, LIU Dongqing, WANG Yuchen, and GUO Wei在线阅读 View online: https:///10.16562/ki.0256-1492.2021022001您可能感兴趣的其他文章Articles you may be interested in北康盆地基底卷入断层特征及其对南海南部构造演化的启示Features of the basement-involved faults in the Beikang Basin and their implications for the tectonic evolution of the southern South China Sea海洋地质与第四纪地质. 2021, 41(4): 116关注微信公众号,获得更多资讯信息吴宇翔,柳保军,丁琳,等. 珠江口盆地西江凹陷南部文昌组层序地层及沉积体系研究[J]. 海洋地质与第四纪地质,2022,42(1): 146-158.WU Yuxiang ,LIU Baojun ,DING Lin ,et al. Study on sequence stratigraphy and sedimentary systems of the Wenchang Formation in the southern Xijiang depression of the Pearl River Mouth Basin[J]. Marine Geology & Quaternary Geology ,2022,42(1):146-158.珠江口盆地西江凹陷南部文昌组层序地层及沉积体系研究吴宇翔1,2,柳保军1,2,丁琳1,2,谢世文1,2,李小平1,2,舒誉1,2,刘冬青1,2,王宇辰1,2,郭伟1,21. 中海石油(中国)有限公司深圳分公司,深圳 5180002. 中海石油深海开发有限公司,深圳 518000摘要:珠江口盆地西江凹陷南部包括两个相邻洼陷:西江36洼和番禺4洼,钻探结果却揭示了截然不同的油气勘探前景,其中,番禺4洼探明储量已过亿吨,而西江36洼却未有商业发现,导致勘探上对西江36洼烃源潜力有所顾虑。
珠江口盆地惠州凹陷深部古近系储层特征及发育控制因素龙更生;施和生;郑荣才;杜家元;陈淑慧;葛彦昭【摘要】惠州凹陷古近系自下而上依次发育文昌组、恩平组及珠海组,深部储层主要发育在恩平组和珠海组.储层的孔隙类型包括粒间溶孔、粒内溶孔、黏土矿物微孔等次生孔隙,同时还含有剩余原生粒间孔和裂缝.其中,原生孔隙度平均为2.4%,占总孔隙度的22.2%;次生孔隙度为5.6%,占总孔隙度的65.2%;裂缝孔隙度为1.0%,占总孔隙度的12.5%.深层岩样的平均面孔率在9.1%.次生孔隙的发育大大提高了深层砂岩的储集性能,其成因主要是有机酸对砂岩骨架颗粒和基质组分的溶解作用.有机酸参与的溶蚀作用是储层的主要建设性成岩作用,长石含量的多少直接影响着次生孔隙的发育程度.次生孔隙发育带深度范围主要为3500~4200m,物性相对较好;4200~4500m仍以发育次生孔隙为主,但由于晚期的再胶结和压实作用,孔隙度总体明显下降.恩平组储层主要发育在水下分流河道上,珠海组储层主要发育在三角洲平原的分流河道、三角洲前缘的水下分流河道--河口坝及滨岸砂体.【期刊名称】《海相油气地质》【年(卷),期】2011(016)003【总页数】8页(P71-78)【关键词】惠州凹陷;古近系;储层特征;次生孔隙;成岩作用;控制因素【作者】龙更生;施和生;郑荣才;杜家元;陈淑慧;葛彦昭【作者单位】中海油深圳分公司;中海油深圳分公司;成都理工大学;中海油深圳分公司;中海油深圳分公司;华北油田公司【正文语种】中文【中图分类】TE112.23惠州凹陷是珠江口盆地北部坳陷带内的一个次级构造单元[1],是南海东部海域主要的原油生产基地。
先前的勘探主要针对中浅层的新近系,而对深层的古近系只是兼探,虽偶有发现,但尚未专门进行研究,其原因主要是受制于古近系的埋深较大和担心储层的风险。
随着勘探工作的深入、勘探难度的加大以及社会对油气资源需求的不断增加,向深层进军正成为全球油气勘探的必然和热点[2-3],南海也是这样。
珠江口盆地陆丰凹陷大中型油田地质特征及形成条件张向涛;汪旭东;舒誉;张素芳;阙晓铭;佘清华;王艳飞【摘要】以珠江口盆地陆丰凹陷古近系文昌组A-1大中型油田为例,通过剖析其成藏要素和作用,探讨文昌组大中型油田的地质特征与形成条件.研究结果表明:文昌组油气主要分布在文昌组下段,为构造—地层型油气藏;储层主要为辫状河三角洲前缘水下分流河道砂岩,物性总体较差,为低孔低渗储层;原油为轻质油、油品好,成熟度Ro适中(Ro=0.73%);深层文昌组油水关系复杂,总体处于正常温压系统;断陷盆地斜坡区的构造背景控制了大面积储盖组合的形成,长期继承性的隆起是油气运移的优势指向区;良好的生烃条件与晚期强充注为大中型油田的形成提供了充足的油源;广泛分布的"甜点"优质储层与断裂结合形成大面积构造-地层圈闭,为油气聚集提供了场所;稳定的区域盖层保证油气在圈闭范围内大规模成藏,并在后期构造活动中不被破坏,有利于大面积原生轻质油藏保存.%A-1 large and medium oilfield of Paleogene Wenchang formation in Lufeng Sag of northeast Pearl River Mouth Basin was studied to discuss the geological characteristics and forming conditions of Wenchang formation large and medium oilfield through analyzing the elements and the process. The results indicate that oil and gas of Wenchang formation mainly distributes in lower Wenchang formation, and it belongs to tectonic-stratigraphic oil and gas reservoirs. The reservoirs are dominated by braided river delta front edge underwater distributary channel sand, and belong to low porosity and low permeability reservoirs. The crude oil is light oil with moderate maturity (0.73%). There are complex oil-water relationships and normal temperature-pressure system in deep Wenchang Formation. Wenchang Formation in Lufeng Saghas favorable condition to form large and medium oilfields. The tectonic background of the slope area in Rifting basin controls the wide formation of reservoir cap combination, and long-term inherited uplift is the ascendant area for oil and gas migrating. Sufficient hydrocarbon source and late strong charging are favorable for the formation of large and medium oilfields. Good quality reservoirs combine with fractures to form the large-area tectonic-stratigraphic traps, which provides perfect places for petroleum accumulation. Stable regional caps provide ideal environment for hydrocarbon accumulation, and also ensure oil and gas traps not to be damaged in the late tectonic activity. These are favorable for large-area preservation of the light oil reservoirs.【期刊名称】《中南大学学报(自然科学版)》【年(卷),期】2017(048)011【总页数】11页(P2979-2989)【关键词】大中型油田;辫状河三角洲;油源;文昌组;珠江口盆地【作者】张向涛;汪旭东;舒誉;张素芳;阙晓铭;佘清华;王艳飞【作者单位】中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000;中海石油(中国)有限公司深圳分公司,广东深圳,518000【正文语种】中文【中图分类】TE122人们对陆丰凹陷的油气勘探工作始于20世纪80年代,根据勘探目的层系的不同可分为2个阶段。
珠一坳陷陆丰地区文昌组成岩作用特征及孔隙发育成因吕正祥;文艺;赵福;曹勤明;张琴【摘要】珠江口盆地珠一坳陷古近系石油资源丰富,其中的陆丰地区属于富烃凹陷.古近系石油主要蕴藏在文昌组砂岩的多种类型孔隙中,成岩作用特征决定了砂岩中发育的主要孔隙类型.以储层薄片显微定量分析为基础,结合扫描电镜、阴极发光、电子探针等分析,明确了古近系文昌组砂岩的成岩作用特征,获得了储层的各类孔隙组成及其含量分布,并进一步探索了储层主要孔隙的发育成因.文昌组砂岩主要发育颗粒溶蚀孔,其次是残余原生孔和胶结物溶孔.颗粒溶孔主要是由泥岩演化释放出的有机酸对长石溶蚀而成,其次是大气淡水造成的溶蚀;胶结物溶孔主要是由早期断裂、裂缝沟通大气淡水引起的碳酸盐胶结物的溶蚀而形成;残余原生孔的发育除与砂岩成分、结构成熟度相关度较高之外,还与地层抬升、早期压实破坏和早期油气充注形成的异常压力密切相关.研究结果表明,邻近生烃凹陷的古斜坡、古隆起及其早期断裂发育的高能相沉积砂岩是陆丰地区文昌组砂岩孔隙发育的关键.研究结果对文昌组深埋藏砂岩的储层预测具有重要意义.【期刊名称】《特种油气藏》【年(卷),期】2019(026)003【总页数】6页(P18-23)【关键词】孔隙发育成因;成岩作用;孔隙类型;文昌组;陆丰地区;珠一坳陷【作者】吕正祥;文艺;赵福;曹勤明;张琴【作者单位】成都理工大学,四川成都 610059;油气藏地质及开发工程国家重点实验室,四川成都 610059;成都理工大学,四川成都 610059;成都理工大学,四川成都610059;成都理工大学,四川成都 610059;中海石油(中国)有限公司深圳分公司,广东深圳 518067【正文语种】中文【中图分类】TE122.10 引言珠江口盆地陆丰凹陷属于富烃凹陷,远景石油储量丰富[1]。
近50 a以来,随着对古近系油气勘探的重视,先后发现LF14、LF13、LF8等油田和含油构造,显示了陆丰凹陷古近系文昌组巨大的油气勘探潜力[2-3]。
珠江口盆地珠一坳陷古近系油气富集规律及下一步勘探策略MI Lijun;ZHANG Xiangtao;CHEN Weitao;LIU Pei;DU Jiayuan;YAO Jiali【摘要】随着新近系勘探程度的提高,古近系逐步成为珠江口盆地珠一坳陷的重点勘探领域.从珠一坳陷油气成藏的关键地质条件出发,系统梳理古近系油气分布规律,探索其勘探潜力.珠一坳陷不同洼陷油气富集程度差距大,其中裂陷期构造活动强的洼陷易形成欠补偿湖盆,发育富生烃层系、形成富生烃洼陷;两幕裂陷形成了文昌组和恩平组2套烃源岩,其地化特征不同,形成两期油气充注;沉积演化的旋回性决定了三级层序及沉积体系的差异展布,导致不同洼陷储盖条件的差异.盆地格局和洼陷结构影响油气在平面上的展布,其中正常半地堑油气主要富集于缓坡带,低角度及复式半地堑油气在陡坡带、缓坡带均有分布;“源、断、砂”立体输导控制油气在纵向上分段聚集,“源-砂”、“断-砂”组合模式分别导致层内、层间富集的分段性;区域盖层控制规模性油气分布,其分布越稳定,油层数量和规模往往越大.珠一坳陷油气资源丰富,古近系勘探潜力大,下一步应围绕“富洼找优、差异勘探”思路,形成“一洼一突破、一带一油田”格局,并将二级构造带整体纳入勘探视野,连片评价并叠合勘探,重视构造转换带、缓坡带和隆起带等区带,有层次地推动该地区古近系勘探进程.【期刊名称】《中国海上油气》【年(卷),期】2018(030)006【总页数】13页(P1-13)【关键词】珠江口盆地;珠一坳陷;古近系;盆地结构;富烃洼陷;优质相带;勘探策略【作者】MI Lijun;ZHANG Xiangtao;CHEN Weitao;LIU Pei;DU Jiayuan;YAO Jiali【作者单位】【正文语种】中文【中图分类】TE121.1珠江口盆地珠一坳陷古近系受埋深大、储集物性差、经济门槛高、海上深层钻探费用高等因素的影响,一直作为烃源岩层系进行研究,缺少把其作为勘探目的层的系统分析。
