Depositional Characteristics and Front Facies ReservoirFramework Model in SongLiao Shallow Lacustrine Delta

LU Xiao guang; LI Chang shan; CAI Xi Yuan; LI Bo hu; ZHAO Han qing

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Article Navigation > Acta Sedimentologica Sinica > 1999 > 17(4): 572-577

LU Xiao guang, LI Chang shan, CAI Xi Yuan, LI Bo hu, ZHAO Han qing. Depositional Characteristics and Front Facies ReservoirFramework Model in SongLiao Shallow Lacustrine Delta[J]. Acta Sedimentologica Sinica, 1999, 17(4): 572-577.

Citation:

Depositional Characteristics and Front Facies ReservoirFramework Model in SongLiao Shallow Lacustrine Delta

1 China University of Geoscience, Beijing 100083;
2 Institute of Exploration and Development, Daqing, Heilangjiang 163712

Received Date: 1998-04-10
Rev Recd Date: 1999-05-18
Publish Date: 1999-12-10

Abstract

Characterized by large area, shallow water, gentle slope, wide wave influencing belt, and weak energy, the SongLiao basin deposited a distinct large river delta in its northern depositional system. The delta is different from other marine delta in vertical sequence, types of framework sandbody and scale etc.. Instead, it presents more characteristics of shallow water delta. The delta is highly constructive fluvial dominated, characterized by directional ribbon like sandbody in front facies, and fluvial deposition can influences more than 20～30 kilometers under shoreline. Vertically, its sequence is discontinuous without three structure of typical delta. The thickness of sandbody is thin, with that of subaqueous channel 2～5m, and that of sheet sand less than 2m. In general, facies belts are well developed in which front facies usually covers more than 30～40 kilometers, and the inner front including the microfacies of subaqueous and sheet sand,and the outer front facies including only the sheet sand can be subdivided. Various kinds of sandbody association are formed because of frequently transgression and regression. The above characteristics have resulted in corresponding sandbody types in various stratigraphy section and subfacies area. Distinct framework models are formed while each kind of sandbody associate with mud in 3D space, these provides a sound genetic basis for establishing framework model. Based on the quantitative parameters such as density of sandbody, density of barrier, and coefficient of net sand,combining with the genetic features of sandbody associations and facies location, 5 types of framework models such as isolated channel pattern, stacked channel pattern, stable inter bedded pattern, unstable inter bedded pattern and isolated thin layer pattern are put forward. The sandbody in isolated channel pattern is very narrow, and shows puzzled shape in 3D space, so it is easy to form small ribbon like or lump like oil bearing area resulting from incompletely water driver under the condition of large well distance. Characterized by well developped subaqueous channel and main sheet sand, large sandbody density, good reservoir quality and connectivity between sandbodies, most of recovery oil in stacked channel pattern has been produced. The main features of unstable inter bedded pattern are its narrow subaqueous channel width and incised sheet sand, which result in good communication in later and poor connectivity in vertical. Remaining oil only exists in small area caused by local poor reservoir quality. For the stable inter bedded pattern, sandbody covers large horizontal area, sand layer and mud layer alternate in vertical. The sandbody possesses good connectivity in later and poor connectivity in vertical, some relative large area remaining oil exists resulting from poor reservoir quality. The sandbody of isolated thin layer pattern distribute on outer front facies of various types of delta, because of its very small sandbody density, the connectivity between sandbodies is very poor in 3D space, remaining oil can be produced only by density well pattern.
- Songliao basin,
- shallow water delta,
- depositional characteristic,
- subaqueous channel,
- front facies

References

[1]

1 裘亦楠. 中国陆相储层沉积学进展[J]. 沉积学报. 1992, 10(3):16～24

2 Reading H G 主编, 周明鉴等译. 沉积环境和相[M]. 北京: 科学出版社, 1986, 131～159

3 Donaldon A C. Pennsylvanian sedimentation of central Appalalachi-ans, Spec. PaP. Geol. Soc. Am No. 148, 1974. 47～78

4 姚光庆, 马正, 赵彦超等. 浅水三角洲分流河道砂体储层特征[J].石油学报. 1995, 16(1):24～31

5 李思田. 含能源盆地沉积体系 -中国陆相和近海主要沉积体系类型的分析[M]. 武汉:中国地质大学出版社, 1996. 62～67

6 梅志超, 林晋炎. 湖泊三角洲的地层模式和骨架砂体的特征[J].沉积学报, 1991, 9(4):1～11

7 李文厚, 林晋炎, 袁明生等. 吐鲁番 -哈密盆地的两种粗碎屑三角洲[J]. 沉积学报, 1996:14(3):113～121

8 辛仁臣, 王文广, 孙英杰. 松辽盆地中生代三角洲类型, 主要控制因素及特征[A]. 见:王英华等编:沉积学及岩相古地理新进展[C]. 北京:石油工业出版社. 1995. 154～156

9 刘丁增. 多油层砂岩油田开发[M]. 北京:石油工业出版社. 1986.12

10 朱海虹. 鄱阳湖现代三角洲沉积研究[J]. 石油与天然气地质.1981, 2(2):89～102

11 王德发, 郑浚茂, 于兴河. 内蒙古岱海湖现代三角洲沉积及储层研究[A]. 见:裘亦楠等编, 中国油气储层研究论文集(续一)[C]. 北京:石油工业出版社, 1993. 293～311

12 张一伟, 熊琦华, 王志章等. 陆相油藏描述[M]. 北京:石油工业出版社, 1997

13 W eber W J, Van Geuns L C. Framew ork for constructing clasticreservoir simulation models[M]. 1989. SPE19582

14 于兴河, 王德发. 陆相断陷盆地三角洲相构型要素及储层地质模型[J]. 地质论评. 1997, 43(3):225～231

15 王寿庆. 扇三角洲模式[M]. 北京:石油工业出版社, 199316 Vande Graff W G E, Ealey P J. Geological modeling for simulationstudies[J]. AAPG, 1989, 73(11):1436～1444

17 裘亦楠. 储层沉积学工作流程[J]. 石油勘探与开发. 1990, 17(1):85～90

18 Allen J R L. S tudies in fluviate sedimentation, an exploratory quan-titative model for the archi tecture of avulsion ? controlled alluvialsuites[J]. S ed. Geo. 1978, 21: 129～147

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Depositional Characteristics and Front Facies ReservoirFramework Model in SongLiao Shallow Lacustrine Delta

1 China University of Geoscience, Beijing 100083;

2 Institute of Exploration and Development, Daqing, Heilangjiang 163712

Received Date: 1998-04-10

Rev Recd Date: 1999-05-18

Publish Date: 1999-12-10

Key words:

Abstract: Characterized by large area, shallow water, gentle slope, wide wave influencing belt, and weak energy, the SongLiao basin deposited a distinct large river delta in its northern depositional system. The delta is different from other marine delta in vertical sequence, types of framework sandbody and scale etc.. Instead, it presents more characteristics of shallow water delta. The delta is highly constructive fluvial dominated, characterized by directional ribbon like sandbody in front facies, and fluvial deposition can influences more than 20～30 kilometers under shoreline. Vertically, its sequence is discontinuous without three structure of typical delta. The thickness of sandbody is thin, with that of subaqueous channel 2～5m, and that of sheet sand less than 2m. In general, facies belts are well developed in which front facies usually covers more than 30～40 kilometers, and the inner front including the microfacies of subaqueous and sheet sand,and the outer front facies including only the sheet sand can be subdivided. Various kinds of sandbody association are formed because of frequently transgression and regression. The above characteristics have resulted in corresponding sandbody types in various stratigraphy section and subfacies area. Distinct framework models are formed while each kind of sandbody associate with mud in 3D space, these provides a sound genetic basis for establishing framework model. Based on the quantitative parameters such as density of sandbody, density of barrier, and coefficient of net sand,combining with the genetic features of sandbody associations and facies location, 5 types of framework models such as isolated channel pattern, stacked channel pattern, stable inter bedded pattern, unstable inter bedded pattern and isolated thin layer pattern are put forward. The sandbody in isolated channel pattern is very narrow, and shows puzzled shape in 3D space, so it is easy to form small ribbon like or lump like oil bearing area resulting from incompletely water driver under the condition of large well distance. Characterized by well developped subaqueous channel and main sheet sand, large sandbody density, good reservoir quality and connectivity between sandbodies, most of recovery oil in stacked channel pattern has been produced. The main features of unstable inter bedded pattern are its narrow subaqueous channel width and incised sheet sand, which result in good communication in later and poor connectivity in vertical. Remaining oil only exists in small area caused by local poor reservoir quality. For the stable inter bedded pattern, sandbody covers large horizontal area, sand layer and mud layer alternate in vertical. The sandbody possesses good connectivity in later and poor connectivity in vertical, some relative large area remaining oil exists resulting from poor reservoir quality. The sandbody of isolated thin layer pattern distribute on outer front facies of various types of delta, because of its very small sandbody density, the connectivity between sandbodies is very poor in 3D space, remaining oil can be produced only by density well pattern.

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Depositional Characteristics and Front Facies ReservoirFramework Model in SongLiao Shallow Lacustrine Delta

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