CFD油田火山岩展布特征及其对油藏的控制作用

赵鹏飞; 刘朋; 明君; 田晓平; 刘文超; 吕世聪

doi:10.3799/dqkx.2020.238

CFD油田火山岩展布特征及其对油藏的控制作用

doi: 10.3799/dqkx.2020.238

1.
中海油研究总院有限责任公司, 北京 100028
2.
中海石油(中国)有限公司天津分公司, 天津 300459

基金项目:

“十三五”国家油气专项子课题 2016ZX05024-003-007

详细信息

作者简介:
赵鹏飞(1963-), 男, 高级工程师, 主要从事油气田开发与储量评价研究工作.E-mail: zhaopf@cnooc.com.cn

中图分类号: P618.130
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出版历程
- 收稿日期: 2020-08-14
- 刊出日期: 2021-07-15

Distribution Characteristics of Volcanic Rock in CFD Oilfield and Its Controlling Effect on Reservoir

1.
CNOOC Research Institute Co. Ltd., Beijing 100028, China
2.
Tianjin Branch, China National Offshore Oil Corporation China Limited, Tianjin 300459, China

摘要

摘要: 火山岩复合油气藏特征独特，为揭示该类油气藏的特征和拓展勘探思路，论述了火山岩的特征及其对油藏的控制作用.综合薄片、钻井、测井和地震资料研究火山岩的岩相特征和发育模式，采用岩电分析和测井响应特征研究手段定量识别玄武岩和凝灰岩.在此基础上，依据地球物理手段确定火山岩和砂泥岩的波阻抗界限值，并基于测井约束下的波阻抗反演和东营组局部井区杂乱反射的地震特征，实现复杂岩性背景下火山岩的刻画和分布预测.论证结果：馆陶组为火山大规模活动期，发育大套火山岩，火山岩主要分布于油田南部和西南部.东营组和沙河街组火山小规模活动，发育少量火山岩，零星分布于油田的局部井区；主断裂区火山岩较厚，远离断裂区火山岩相对较薄，主断裂控制火山岩的发育程度和分布；火山岩岩性致密，可作为油藏的盖层和侧向遮挡层，并占据外来碎屑岩的沉积空间；火山岩是研究区油气成藏的必要条件，但其分割圈闭，控制和限制碎屑岩储层的分布，也限定了油藏的类型和规模，并对原油物性具有一定的影响.研究成果揭示了渤海湾盆地中新生界新的勘探领域，也可为该类油田的油藏评价和开发部署提供范例.
- 火山岩 /
- 火山发育模式 /
- 岩相特征 /
- 盖层 /
- 侧向封堵 /
- 空间分布 /
- 石油地质
Abstract: The characteristics of volcanic complex reservoirs are unique. In order to reveal the characteristics of these reservoirs and expand the exploration ideas, this paper discusses the characteristics of volcanic rocks and their control on the reservoirs. The lithofacies characteristics and development patterns of volcanic rocks were studied by combining thin section, drilling, logging and seismic data. In addition, basalt and tuff were identified quantitatively by means of rock electrical analysis and logging response characteristics. Based on this, the boundary limits of wave impedance of volcanic rock and sand-mudstone are determined by geophysical method, and the seismic characteristics of wave impedance inversion under logging constraints and disorderly reflection in local well area of Dong Ying Formation are used to describe and predict volcanic rock distribution under complex lithological background. Guan Tao Formation is a large-scale volcanic activity period which contributes to development of a large set of volcanic rock, mainly distributing in the south and southwest of the oil field. The slightly activity of the Volcanoes of Dong Ying and Sha He Jie Groups results in a small amount of volcanic rock developed, which is scattered in the local well area of oil field. The closer to main faulted area, the thicker volcanic rocks are, so it can be inferred that development and distribution of volcanic rocks controlled by main faults. Volcanic rock is tight, which can serve as reservoir cap rock and lateral sealing layer, occupying the sedimentary space of exotic clastic rocks. Volcanic rock is a necessary condition for oil and gas accumulation in the study area, but it will segment trap, control and restrict the distribution of clastic rock, limit the type and scale of reservoir, as well as have certain effect on the crude oil property. The research results reveal a new exploration area of Cenozoic in Bohai Bay Basin, which can also provide an example for reservoir evaluation and development deployment.
- volcanic rock /
- volcanic development model /
- lithofacies characteristics /
- cap rock /
- lateral sealing /
- distribution pattern /
- petroleum geology

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图 1 CFD油田区域构造位置

Fig. 1. Regional structural location map of CFD oil field

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图 2 CFD油田油藏剖面

Fig. 2. CFD oilfield cross section

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图 3 CFD油田火山岩照片

左图. CFD1井，馆陶组Ⅱ油组，1 823 m，井壁取心；右图. CFD1井，馆陶组Ⅲ油组，2 339 m，井壁取心

Fig. 3. Photos of volcanic rocks in CFD oilfield

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图 4 CFD油田火山岩微观结构

玄武岩中斑晶为长条状长石、粒状辉石，F. 长石，P. 辉石；凝灰岩中见气孔-杏仁构造或斑状构造，A. 杏仁构造，PT. 斑状构造

Fig. 4. Microstructure of volcanic rock in CFD oilfield

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图 5 CFD油田火山岩岩性识别图版

Fig. 5. Lithology identification chart of volcanic rock in CFD oilfield

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图 6 CFD油田不同岩性密度声波时差交会图

Fig. 6. Cross plot of density acoustic time difference for different lithology in CFD oilfield

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图 7 CFD油田多井速度密度交会图

Fig. 7. Velocity density cross plot of multiple wells in CFD oilfield

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图 8 反演数据火山岩刻画效果

a. 馆陶组Ⅲ-1油组最大阻抗属性反演地震剖面；b. 馆陶组Ⅲ-1油组最大阻抗属性平面图；a图中：V. 火山岩；SM. 砂泥岩；VV. 火山通道；N₁m^l.明化镇组下段底面；N₁g-Ⅱ. 馆陶组Ⅱ油组顶面；N₁g-Ⅲ. 馆陶组Ⅲ油组1亚油组顶面；N₁g-Ⅲ-2. 馆陶组Ⅲ油组2亚油组顶面；N₁g. 馆陶组底面；E₃d₁. 东营组东一段底面；E₃d²u-Ⅱ. 东营组东二段Ⅱ油组顶面；E₃d₂u-Ⅲ.东营组东二段Ⅲ油组顶面；E₃d²u. 东营组东二段Ⅲ油组底面，E₃d²l. 东营组东二下段底面；E₃d³. 东营组东三段底面；b图中：V. 火山岩（黄色和红色区域）；SM. 砂泥岩（蓝色区域）

Fig. 8. Effect map for volcanic rock description basing on inversion data

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图 9 H3井区和1井区东营组地震剖面和沿层相干切片

a. 东营组二段上段Ⅰ油组地震剖面；b. 东营组二段上段Ⅱ油组地震剖面；c. 东营组二段上段Ⅰ油组沿层相干切片；d. 东营组二段上段Ⅱ油组沿层相干切片；a图中地震剖面位置见c和d，b图中地震剖面位置见d和d，c图中蓝色段划线区域代表杂乱反射区，d图中蓝色段划线区域代表杂乱反射区；N₁m^l. 明化镇组下段底面；N₁g-Ⅱ. 馆陶组Ⅱ油组顶面；N₁g-Ⅲ. 馆陶组Ⅲ油组1亚油组顶面；N₁g-Ⅲ-2. 馆陶组Ⅲ油组2亚油组顶面；N₁g. 馆陶组底面；E₃d¹. 东营组东一段底面；E₃d²u-Ⅱ. 东营组东二段Ⅱ油组顶面；E₃d²u-Ⅲ. 东营组东二段Ⅲ油组顶面；E₃d²u. 东营组东二段Ⅲ油组底面；E₃d²l. 东营组东二下段底面；E₃d³. 东营组东三段底面

Fig. 9. Seismic profile and coherent slice along the layer of Dongying Formation in well H3 and well block 1

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图 10 CFD油田馆陶组火山岩平面分布

a.馆陶组Ⅲ-1油组火成岩最大振幅平面展布特征；b.馆陶组Ⅲ-2油组火成岩最大振幅平面展布特征；V. 火山岩（黄色和红色区域）；SM. 砂泥岩（蓝色区域）

Fig. 10. Distribution map of volcanic rocks in Guantao Formation of CFD oilfield

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图 11 CFD油田东二上段Ⅰ油组油层有效厚度等值线图

Fig. 11. Net pay thickness isochore map of Ⅰ oil group for upper section 2 of Dongying Formation in CFD oilfield

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图 12 CFD油田及周边区域火山岩厚度发育特征

Fig. 12. Thickness development characteristics of volcanic rocks in CFD oilfield and its surrounding areas

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图 13 CFD油田火山岩发育模式

Fig. 13. Development model of volcanic rocks in CFD oilfield

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图 14 CFD油田馆陶组和东营组火山岩薄片

a. CFD 2d井，馆陶组砂岩，2 286.8 m，25+，铸体薄片；b. CFD 1井，东一段砂岩，2 483.7 m，50+，铸体薄片；Q. 石英；F. 长石；VF. 火山岩岩屑

Fig. 14. Thin section photos of volcanic rocks of Guantao and Dongying Formation in CFD oilfield

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图 15 火山岩宏观和微观特征

GP. 气孔；RP. 残余孔；F. 裂缝

Fig. 15. Macroscopic and microscopic characteristics of volcanic rocks

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表 1 CFD油田油层段储层物性统计

Table 1. Statistics of reservoir physical properties in oil bearing section in CFD oilfield

项目地层	孔隙度（%）		渗透率（mD）
项目地层	范围	平均	范围	平均
馆陶组	18.0~28.0	20.6	12.1~1 232.4	411.3
东二上段	13.0~25.2	19.3	7.0~1 059.2	442.9

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表 2 CFD油田火山岩岩性和测井响应特征

Table 2. Characteristics of lithology and logging response in CFD oilfield

岩石名称	岩相	测井响应	测井定量识别
玄武岩	溢流相	低伽马、高电阻率、高密度、低中子、低声波时差	GR < 80, ZDEN>2.45 CNCF < 0.24, DT < 68, RD>10
凝灰岩	爆发相	低伽马、低电阻率、低-中密度、中-高中子、高声波时差	GR < 60, ZDEN < 2.66 CNCF>0.25, DT>80, RD>10

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表 3 CFD油田火山岩波阻抗截止值

Table 3. Cut off value of wave impedance of volcanic rock in CFD oilfield

	火山岩主体区	火山岩边部区	沙泥岩发育区	玄武岩发育带	玄武岩夹凝灰岩带	火山岩截止值
馆陶组	>9 000	9 000~5 000	< 5 000			5 000
东二上段油藏			< 5 000	>9 000	9 000~5 000	5 000
注：单位为（g/cm³）·m/s.

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表 4 CFD油田不同岩性火山岩厚度统计(单位：m)

Table 4. Thickness(m) statistics of volcanic rocks with different lithology in CFD oilfield

层位	岩性	H3	CFD1-1	CFD1-2	CFD1	CFD2d	CFD3
馆陶组	玄武岩	541.5	32.3	187.0	38.0	80.0	138.0
馆陶组	凝灰岩	50.0	128.0	0	262.0	106.8	54.0
东营组+沙河街组	玄武岩	116.3	0	28.0	0	62.0	76.0
东营组+沙河街组	凝灰岩	154.3	28.8	12.5	0	53.0	32.0

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表 5 CFD油田各层段储层和火山岩分布面积统计

Table 5. Statistical of reservoir and volcanic rock distribution area for each interval in CFD oilfield

层位	测量面积（km²）
层位	储层面积	火山岩面积
馆陶组上部	46.19	0
馆陶组中部	24.14	22.05
馆陶组下部	32.55	13.64
东一段	38.99	7.20
东二上段	42.80	3.39
东二下段	43.39	2.80
东三段	43.99	2.20

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表 6 CFD油田圈闭特征

Table 6. Trap characteristics of CFD oilfield

层位	圈闭	圈闭类型	圈闭面积(km²)	闭合幅度(m)	合计圈闭面积(km²)
N₁gⅠ油组	1井区	断块	3.0	30	3.5
N₁gⅠ油组	H3井区	断块	0.5	40	3.5
N₁gⅢ-1油组	2d井区	断块	0.7	90	3.6
	3井区东	断块	1.0	60
	3井区	岩性	1.6	70
	2d井区南	断块	0.3	50
N₁gⅢ-2油组	2d井区	断块	1.1	90	5.6
	3井区东	断块	1.0	40
	3井区	岩性	3.1	60
	2d井区南	断块	0.4	80
E₃d²uⅠ油组	2d井区	断块	2.2	100	2.9
E₃d²uⅠ油组	2d井区南	断块	0.7	110	2.9
E₃d²uⅡ油组	2d井区	断块	2.4	100	3.1
E₃d²uⅡ油组	2d井区南	断块	0.7	110	3.1

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表 7 CFD及其周边油田油藏和流体特征对比

Table 7. Comparison of reservoir and fluid characteristics of CFD and its surrounding oilfields

油田名称	含油层位	储层沉积相	油藏埋深(海拔：m)	地面原油密度（t/m³）	地层原油粘度(mPa·s)	地层温度梯度(℃/100 m)	地层压力梯度(MPa/100 m)	气油比(m³/m³)	地层条件下体积系数
南堡35-2油田	明化镇组	曲流河	900~1 350	0.938~0.950	42.30~134.30	3.0	1.000	15~20	1.065
	馆陶组	辫状河	1 350~1 500	0.950~0.957	86.100	3.0	1.000	9	1.040
	东营组	/	/	/	/	/	/	/	/
曹妃甸6-4油田	明化镇组	曲流河	1 115~1 600	0.932~0.951	176.00	3.2	1.009	2	1.026
	馆陶组	辫状河	1 600~1 910	0.888~0.909	9.30	3.2	1.009	17	1.077
	东营组	三角洲	1 910~2 556	0.859~0.863	2.00	3.2	1.009	137	1.460
CFD油田	明化镇组	/	/	/	/	/	/	/	/
	馆陶组	辫状河	1 640~2 334	0.860~0.948	2.05~2.12	3.5	1.060	110~115	1.336~1.347
	东营组	三角洲	2 400~2 568	0.838~0.851	2.39	3.5	1.060	126	1.349

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