南襄盆泌阳凹陷层序地层与隐蔽油气藏研究
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摘要
本文以陆相层序地层学、沉积学、石油地质学为理论基础,以测井、地震和各种分析测试为技术手段,对泌阳凹陷下第三系核桃园组地层进行了层序地层划分、沉积体系、层序地层模式、隐蔽油气藏成藏模式和预测等研究,在以下几方面取得了进展:
1、首次识别出泌阳凹陷深洼区盐湖背景下的2种高频单元构成,即①较深湖背景下的高频单元(核三段为代表),每个高频单元自下而上由浊积岩相、暗色泥岩相、白云质泥岩相、含盐白云岩相和天然碱相组成:②滨浅湖背景下的高频单元(核二段为代表),其自下而上由砂岩相、粉砂质泥岩相、白云岩相、含盐白云岩相和天然碱相组成。进一步将泌阳凹陷盐湖的成因模式概括为两种:浅水分层盐湖成因模式和较深水分层盐湖成因模式。提出核桃园组的盐类沉积应当属于碳酸盐盐湖沉积,在层序演化中盐湖的主成盐期为每个层序发育的低位和高位晚期。
2、对泌阳凹陷东北部缓坡带中发育的下切谷-低位扇沉积体系进行了细致研究,探讨了下切谷的形成机制,认为本区下切谷的发育主要受控于南部边界断层活动引起的构造沉降。提出其中的砂砾岩体充填沉积为“顺源堆积”,而不是“溯源堆积”。
3、将本研究区内的层序地层模式归纳为四种:充足物源构造坡折模式、少物源构造坡折模式、缓坡模式和盐湖模式,进一步又可细分为10种类型。其中首次在研究区识别出缓坡洼陷边缘型断坡带层序地层模式和发育下切谷的缓坡层序地层模式对低位扇体的预测只有重要意义。
4、以双河油田为例,研究认为:油气输导体系尤其是砂岩疏导体与层序的演化有密切的关系,层序演化对储层通道渗流能力及油气充注具控制作用。油气的富集度差异与层序不同体系域演化阶段储层渗透率级差优势通道有较大的关系,双河油田H31、H32、H34层序的湖侵体系域及低位体系域上部扇三角洲的较高渗分流河道砂体、滩坝砂体具有明显的渗透串级差优势,即为双河油田油气运移的优势通道。
5、在找寻低位域砂岩储集体方面取得了突破:首次提出了泌阳凹陷找寻低位域扇体的重要方向以及构造坡折带的控油模式,确定了泌阳凹陷陡坡边界生长断裂型、缓坡沉积坡折型和缓坡洼陷边缘断裂坡折型层序的分布区域,综合出工区与层序地层相关的隐蔽油气藏成藏模式有3大类10种,其中特别强调提出了与边界断层坡折带有关的砂岩上倾尖灭型成藏模式和与缓坡坡折带有关的下切谷-低位扇型油气藏成藏模式(“断层切香肠”成藏模式等)。
6、将层序地层学应用于泌阳凹陷隐蔽油气藏勘探的思路概括为“四定、一综合”。在高频层序研究的基础上,通过岩性油气藏成藏模式分析提出低位体系域沉积期下切河道砂体和低位期形成的深水浊积体可形成岩性油气藏:并预测有利低位扇岩性圈闭体3个及与下切谷相关的“断层切香肠”型隐蔽圈闭群。
On the basis of the theory of Lacustrine Sequence stratigraphy, sedimentary , and petroleum geology , this paper having maked reserchment of identifying sequence stratigraphy , sedimentary system , sequence model and subtle reservoir by applicating log, seismic and various of analytical data in BiYang Lacustrine basin. The results from the research indicated that:
1. Identifying 2 kinds high-resolution unit under the brine lake background in BiYang fault-depression:(1)the high-resolution unit under abyssal environment background(H3) consists of turbidite facies> mudstone facies , dolomite mudstone facies, salt-bearing dolomite facies, and trona facies .(2) the high-resolution unit under etang environment background(H2) consists of sandstone facies , aleurolitic mudstone facies, dolomite facies, salt-bearing dolomite facies and trona facies .the contributing factor model of salt-lake in BiYang fault-depression can be divided into 2 kinds: shallow water salt-lake model and deeper water salt-lake model. The main salt-lake forming period access on the period of lowstand and late highstand in the evolution of per sequence.
2. A corrasion valley-topogenetic low fan sedimentary system was recognized in the low system tracts of sequence H33 and H32. The deposits in the corrasion valley have specific seismic reflection structure, sedimentary structure and depositional sequence. This paper presents the sedimentary mode of corrasion valley-topogenetic low fan sedimentary system. The corrasion valley developed on the boundary of the continental fault lake basin has specific genetic features and its formation was controlled by structural subsidence.
3. Four types of sequences model were identified in the Hetaoyuan Formation, BiYang depression: adequate supply source tectonic slope-brea, poor supply source tectonic slope-break , hinge margin and salt-lake model.
The research on corrasion valley ?topogenetic low fan and the fault slope break developed on deep depressed margin has outstanding significance on exploration of subtle reservoirs, and they are the favorable area of oil accumulation and new target of oil exploration in terrigenous fault-depression.
4. Throuth the case studying of Shuanghe oil field ,this paper point out that the reservoir transport system especially the sandstone transport system has relevant to the evolution of sequence,the evolution of sequence controlling the permeate ability and oil filling ability of reservoir route.the diffirence of oil-rich degree has great relevant to the reservoir superiority permeatility anisotrophy. the braiding and lake flat sandstone in fan-delta are the superiority road in Shuanghe oil field and oil migrated along it.
5. This paper has maked some progresses in predicting lowstand fan: firstly point out the important direction of explorating lawstand fan and the reservoir controlled model of tectonic slope-break. Synthesizing the relevant data of sequence stritigraphy ,this paper point out that the subtle reservoir forming model may be divided into 3 kinds and 10 sub-kinds. Along which .sandstone slope upper fray out reservoir in the basin margin fault slope break and corrassion lowstand fan reservoir forming model are the important kind subtle reservoir in Biyang depression.
6. The thinking of applying sequence stratigraphy to subtle reservoir may be summarized as "four definating and one synthesizing",this paper point out the distribution law of lowstand subtle reservoir and predicted successly 3 lowstandfan.
1、首次识别出泌阳凹陷深洼区盐湖背景下的2种高频单元构成,即①较深湖背景下的高频单元(核三段为代表),每个高频单元自下而上由浊积岩相、暗色泥岩相、白云质泥岩相、含盐白云岩相和天然碱相组成:②滨浅湖背景下的高频单元(核二段为代表),其自下而上由砂岩相、粉砂质泥岩相、白云岩相、含盐白云岩相和天然碱相组成。进一步将泌阳凹陷盐湖的成因模式概括为两种:浅水分层盐湖成因模式和较深水分层盐湖成因模式。提出核桃园组的盐类沉积应当属于碳酸盐盐湖沉积,在层序演化中盐湖的主成盐期为每个层序发育的低位和高位晚期。
2、对泌阳凹陷东北部缓坡带中发育的下切谷-低位扇沉积体系进行了细致研究,探讨了下切谷的形成机制,认为本区下切谷的发育主要受控于南部边界断层活动引起的构造沉降。提出其中的砂砾岩体充填沉积为“顺源堆积”,而不是“溯源堆积”。
3、将本研究区内的层序地层模式归纳为四种:充足物源构造坡折模式、少物源构造坡折模式、缓坡模式和盐湖模式,进一步又可细分为10种类型。其中首次在研究区识别出缓坡洼陷边缘型断坡带层序地层模式和发育下切谷的缓坡层序地层模式对低位扇体的预测只有重要意义。
4、以双河油田为例,研究认为:油气输导体系尤其是砂岩疏导体与层序的演化有密切的关系,层序演化对储层通道渗流能力及油气充注具控制作用。油气的富集度差异与层序不同体系域演化阶段储层渗透率级差优势通道有较大的关系,双河油田H31、H32、H34层序的湖侵体系域及低位体系域上部扇三角洲的较高渗分流河道砂体、滩坝砂体具有明显的渗透串级差优势,即为双河油田油气运移的优势通道。
5、在找寻低位域砂岩储集体方面取得了突破:首次提出了泌阳凹陷找寻低位域扇体的重要方向以及构造坡折带的控油模式,确定了泌阳凹陷陡坡边界生长断裂型、缓坡沉积坡折型和缓坡洼陷边缘断裂坡折型层序的分布区域,综合出工区与层序地层相关的隐蔽油气藏成藏模式有3大类10种,其中特别强调提出了与边界断层坡折带有关的砂岩上倾尖灭型成藏模式和与缓坡坡折带有关的下切谷-低位扇型油气藏成藏模式(“断层切香肠”成藏模式等)。
6、将层序地层学应用于泌阳凹陷隐蔽油气藏勘探的思路概括为“四定、一综合”。在高频层序研究的基础上,通过岩性油气藏成藏模式分析提出低位体系域沉积期下切河道砂体和低位期形成的深水浊积体可形成岩性油气藏:并预测有利低位扇岩性圈闭体3个及与下切谷相关的“断层切香肠”型隐蔽圈闭群。
On the basis of the theory of Lacustrine Sequence stratigraphy, sedimentary , and petroleum geology , this paper having maked reserchment of identifying sequence stratigraphy , sedimentary system , sequence model and subtle reservoir by applicating log, seismic and various of analytical data in BiYang Lacustrine basin. The results from the research indicated that:
1. Identifying 2 kinds high-resolution unit under the brine lake background in BiYang fault-depression:(1)the high-resolution unit under abyssal environment background(H3) consists of turbidite facies> mudstone facies , dolomite mudstone facies, salt-bearing dolomite facies, and trona facies .(2) the high-resolution unit under etang environment background(H2) consists of sandstone facies , aleurolitic mudstone facies, dolomite facies, salt-bearing dolomite facies and trona facies .the contributing factor model of salt-lake in BiYang fault-depression can be divided into 2 kinds: shallow water salt-lake model and deeper water salt-lake model. The main salt-lake forming period access on the period of lowstand and late highstand in the evolution of per sequence.
2. A corrasion valley-topogenetic low fan sedimentary system was recognized in the low system tracts of sequence H33 and H32. The deposits in the corrasion valley have specific seismic reflection structure, sedimentary structure and depositional sequence. This paper presents the sedimentary mode of corrasion valley-topogenetic low fan sedimentary system. The corrasion valley developed on the boundary of the continental fault lake basin has specific genetic features and its formation was controlled by structural subsidence.
3. Four types of sequences model were identified in the Hetaoyuan Formation, BiYang depression: adequate supply source tectonic slope-brea, poor supply source tectonic slope-break , hinge margin and salt-lake model.
The research on corrasion valley ?topogenetic low fan and the fault slope break developed on deep depressed margin has outstanding significance on exploration of subtle reservoirs, and they are the favorable area of oil accumulation and new target of oil exploration in terrigenous fault-depression.
4. Throuth the case studying of Shuanghe oil field ,this paper point out that the reservoir transport system especially the sandstone transport system has relevant to the evolution of sequence,the evolution of sequence controlling the permeate ability and oil filling ability of reservoir route.the diffirence of oil-rich degree has great relevant to the reservoir superiority permeatility anisotrophy. the braiding and lake flat sandstone in fan-delta are the superiority road in Shuanghe oil field and oil migrated along it.
5. This paper has maked some progresses in predicting lowstand fan: firstly point out the important direction of explorating lawstand fan and the reservoir controlled model of tectonic slope-break. Synthesizing the relevant data of sequence stritigraphy ,this paper point out that the subtle reservoir forming model may be divided into 3 kinds and 10 sub-kinds. Along which .sandstone slope upper fray out reservoir in the basin margin fault slope break and corrassion lowstand fan reservoir forming model are the important kind subtle reservoir in Biyang depression.
6. The thinking of applying sequence stratigraphy to subtle reservoir may be summarized as "four definating and one synthesizing",this paper point out the distribution law of lowstand subtle reservoir and predicted successly 3 lowstandfan.
引文
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60.张桂甲.钱塘江下切河谷充填及其层序地层学特征,《海洋地质与第四纪》,1995,15(4)
61.许仕策.预测勘探目标中的层序地层学理论与实践,《中国海上油气》,1999,13(3)
62.黄丽芬.层序地层学在陆相沉积凹陷分析中的应用,《中国海上油气》,1999,13(3)
63.李希宗.开平凹陷的低位体系域及其勘探意义,《中国海上油气》,1994,8(6)
64.蒋鸿亮等,岩性圈闭识别方法,大庆石油地质与开发,1997,16(1)
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68. Vail P R,sequence stratigraphy workbook ,fundamentals of sequence stratigraphy.In:MPG,Annual Convention Short Course,Texas,1998
69. Galloway W.E.,Genetic stratigraphic sequences in basin analysis:architecture and genesis of flooding-surface bounded depositional units,MPG,1989,73(2) , 125-142
70. Van Waggoner J.C.et.al.,Siliciclastic sequence stratigraphy in well logs,cores and outcroups:concepts for high-resolutions correlation of time and facies,MPG,Methods in exploration series 7,1990,55,1-240
71. Fitchen W.M.,and New M.E..High-resolution sequence stratigraphy of Lower-Middle Guadalupian,MPG,1990,74 (5) ,654-656
72. Posamenter H.W.,Allen G.P.and James D.P..High resolution sequence stritigraphy-the East Coulee Delta,Alberta,Journal of Sedimentary Petrology,1992,62(2) ,310-317
73. Posamenter H.W.,Forced regressions in sequence stratigraphic framework,concepts,examples and exploration significance,AAPG,1992,78(11) ,1687-1709
74. Posamenter H.W.et.al.,Variblity of the sequence stratigraphic:model:effect local,basin,factors.Sedimentary.Geology,1993,86,91-109
75. Aitken,John F.and Flint S.S..Reservoir Anatomy within a sequence stratigraphic framework;The Pennsylvanian Breathitt Group of Eastern Kentusky.MPG,1993,77(9) ,1604-1605
76. Bowen D.W.et.al.,The relative success of siliciclastic sequence stratigraphic concepts in exploration:examples from incised valley fill and turbidite systems reservoirs,in:Weimer p,and Posamenter H.W.siliciclastic sequence stratigraphic:recent developments and application,MPG,Menoir 58,1994,15-52
77. Reymend B.A.and Stampfli,sequence stratigraphy of a Hettangian-Sinemurian paralic succession,Bornholm,Denmark,Sedimentology,1995,42,323-354
78. Bruhn H.L and Walker R.G.,High-resolution stratigraphy and sedimentary evolution of coarse-grained canyon-filling turbidites from the Upper Cretaceous transgressive megasequense,Campos Basin,offshore Brazil,Journal of Sedimentary,1995
79. Aitken J.F.and Flint S.S.,The application of high-resolution stratigraphy to fluvial:a case study from the upper Carboniferous Breathitt Group,eastern Kentucky,USA,sidimentlogy,1995,42,3-30
80. Katherine M.B.and Walker R.G.,high-resolution sequence stratigraphic analysis the Shannon sandstone in Wyoming,using a template for regional correlation .Journal of Sedimentary Research,1995,65(2) ,255-264
81 .Reymond B.A.and Stampfli ,Three-dimentional sequence stratigraphy and sutle stratigraphic traps association with systems tracts :West Cameron region,offshoreLouisiana ,Gulf of Mexico .Marine and petroleum Geology,1996,13(1) ,41-46
82. Shanley,K W,McCobe,P J.,Perspectives on the sequence stratigraphy of Continental Strata.AAPG Bull.,78:544-568
83. Mackenzie,D B.primary stratigraphic Traps in Sandstones,stratigraphic oil and Gas Fields.AAPG Memoir 1972,16:47-81
84. Posamenter,H W,Vail,P R.Eustatic Controls on Depositional Strata patterns.Sea level changes-An integrated Approach.SEPM Res.Conf.1985,6:20-23
85. Van Waggoner J.C.Reservoir Facies Distribution as Controlled by sea-level changes.SEPM Annual Midear Meeting,Colorado,1985
86. Van Waggoner,J G,Bertran ,G T.sequence stratigraphy of Forland Basin deposits.AAPG Memoir ,1995,64
87. Hag,B U ,et.al.,Mesozoic and Cenozoic Chronostratigraphy and cycles of sea-Level changes.In:Sea-level changes-An Integrated Approach.SEPM Special publication,1988,42
88. Hag,B U .Hardenbol ,J,et.al.,Chronology of fluctuating Sea Levels since the Triassic.Science,1987,235:1156-1167
89. Weimer,R.J..Development in sequence stratigraphy:foreland and cratonic bas ins[J],AAPG Bulletin,1992:76(3) :965-981.
90. Vail P R,Mitchum R M.Thompson S.Global cycles of ralative changes of sea level[J],Am Ass Petrol Geol,1977,26:99-116.
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67. Vail P R,Audemard F,Bowman S A,et al.The stratigraphic signatures to tectonics,eustasy and sedimentation:an overview[A].In:Einsele,ed.Cycles and events in stratigraphy[C].Berlin Heidelberg:Springer-Verlag,1991,615-659.
68. Vail P R,sequence stratigraphy workbook ,fundamentals of sequence stratigraphy.In:MPG,Annual Convention Short Course,Texas,1998
69. Galloway W.E.,Genetic stratigraphic sequences in basin analysis:architecture and genesis of flooding-surface bounded depositional units,MPG,1989,73(2) , 125-142
70. Van Waggoner J.C.et.al.,Siliciclastic sequence stratigraphy in well logs,cores and outcroups:concepts for high-resolutions correlation of time and facies,MPG,Methods in exploration series 7,1990,55,1-240
71. Fitchen W.M.,and New M.E..High-resolution sequence stratigraphy of Lower-Middle Guadalupian,MPG,1990,74 (5) ,654-656
72. Posamenter H.W.,Allen G.P.and James D.P..High resolution sequence stritigraphy-the East Coulee Delta,Alberta,Journal of Sedimentary Petrology,1992,62(2) ,310-317
73. Posamenter H.W.,Forced regressions in sequence stratigraphic framework,concepts,examples and exploration significance,AAPG,1992,78(11) ,1687-1709
74. Posamenter H.W.et.al.,Variblity of the sequence stratigraphic:model:effect local,basin,factors.Sedimentary.Geology,1993,86,91-109
75. Aitken,John F.and Flint S.S..Reservoir Anatomy within a sequence stratigraphic framework;The Pennsylvanian Breathitt Group of Eastern Kentusky.MPG,1993,77(9) ,1604-1605
76. Bowen D.W.et.al.,The relative success of siliciclastic sequence stratigraphic concepts in exploration:examples from incised valley fill and turbidite systems reservoirs,in:Weimer p,and Posamenter H.W.siliciclastic sequence stratigraphic:recent developments and application,MPG,Menoir 58,1994,15-52
77. Reymend B.A.and Stampfli,sequence stratigraphy of a Hettangian-Sinemurian paralic succession,Bornholm,Denmark,Sedimentology,1995,42,323-354
78. Bruhn H.L and Walker R.G.,High-resolution stratigraphy and sedimentary evolution of coarse-grained canyon-filling turbidites from the Upper Cretaceous transgressive megasequense,Campos Basin,offshore Brazil,Journal of Sedimentary,1995
79. Aitken J.F.and Flint S.S.,The application of high-resolution stratigraphy to fluvial:a case study from the upper Carboniferous Breathitt Group,eastern Kentucky,USA,sidimentlogy,1995,42,3-30
80. Katherine M.B.and Walker R.G.,high-resolution sequence stratigraphic analysis the Shannon sandstone in Wyoming,using a template for regional correlation .Journal of Sedimentary Research,1995,65(2) ,255-264
81 .Reymond B.A.and Stampfli ,Three-dimentional sequence stratigraphy and sutle stratigraphic traps association with systems tracts :West Cameron region,offshoreLouisiana ,Gulf of Mexico .Marine and petroleum Geology,1996,13(1) ,41-46
82. Shanley,K W,McCobe,P J.,Perspectives on the sequence stratigraphy of Continental Strata.AAPG Bull.,78:544-568
83. Mackenzie,D B.primary stratigraphic Traps in Sandstones,stratigraphic oil and Gas Fields.AAPG Memoir 1972,16:47-81
84. Posamenter,H W,Vail,P R.Eustatic Controls on Depositional Strata patterns.Sea level changes-An integrated Approach.SEPM Res.Conf.1985,6:20-23
85. Van Waggoner J.C.Reservoir Facies Distribution as Controlled by sea-level changes.SEPM Annual Midear Meeting,Colorado,1985
86. Van Waggoner,J G,Bertran ,G T.sequence stratigraphy of Forland Basin deposits.AAPG Memoir ,1995,64
87. Hag,B U ,et.al.,Mesozoic and Cenozoic Chronostratigraphy and cycles of sea-Level changes.In:Sea-level changes-An Integrated Approach.SEPM Special publication,1988,42
88. Hag,B U .Hardenbol ,J,et.al.,Chronology of fluctuating Sea Levels since the Triassic.Science,1987,235:1156-1167
89. Weimer,R.J..Development in sequence stratigraphy:foreland and cratonic bas ins[J],AAPG Bulletin,1992:76(3) :965-981.
90. Vail P R,Mitchum R M.Thompson S.Global cycles of ralative changes of sea level[J],Am Ass Petrol Geol,1977,26:99-116.
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