浅水三角洲薄砂层地震沉积表征技术——以准噶尔盆地芳草湖地区清水河组为例

doi:10.12108/yxyqc.20220114

岩性油气藏 ›› 2022, Vol. 34 ›› Issue (1): 139–147.doi: 10.12108/yxyqc.20220114

浅水三角洲薄砂层地震沉积表征技术——以准噶尔盆地芳草湖地区清水河组为例

常少英^1,2, 刘玲利¹, 崔钰瑶², 王锋³, 宋明星³, 穆晓亮²

1. 中国石油杭州地质研究院, 杭州 310023;
2. 中国石油大学(北京), 北京 102249;
3. 中国石油新疆油田分公司勘探开发研究院, 新疆克拉玛依 834000

收稿日期:2021-06-30 修回日期:2021-08-18 出版日期:2022-01-01 发布日期:2022-01-21
第一作者:常少英(1983-),男,在读博士研究生,高级工程师,主要从事地质-地球物理综合研究工作。地址:(310023)浙江省杭州市西溪路920号中国石油杭州地质研究院。Email:changsy_hz@petrochina.com.cn
通信作者: 崔钰瑶（1997—），女，中国石油大学（北京）在读硕士研究生，研究方向为石油天然气地质综合。Email：1064870340@qq.com。
基金资助:
国家科技重大专项“大型油气田及煤层气开发”下属课题“寒武系—中新元古界碳酸盐岩规模储层形成与分布研究”（编号：2016ZX05004-002）和国家科技重大专项“南海中建海域深水油气地质条件及目标评价”（编号：2017ZX05026-006）联合资助

Seismic sedimentary characterization of thin sand layers of shallow water deltas: A case study of Qingshuihe Formation in Fangcaohu area, Junggar Basin

CHANG Shaoying^1,2, LIU Lingli¹, CUI Yuyao², WANG Feng³, SONG Mingxing³, MU Xiaoliang²

1. PetroChina Hangzhou Research Institute of Geology, Hangzhou 310023, China;
2. China University of Petroleum(Beijing), Beijing 102249, China;
3. Research Institute of Exploration and Development, PetroChina Xinjiang Oilfield Company, Karamay 834000, Xinjiang, China

Received:2021-06-30 Revised:2021-08-18 Online:2022-01-01 Published:2022-01-21

摘要/Abstract

摘要： 浅水三角洲薄砂层是重要的岩性油气藏勘探新领域，但砂体薄、横向变化快，沉积结构特征难以识别，制约了该类沉积体的勘探开发。以准噶尔盆地莫索湾凸起芳草湖地区为例，通过地质-地球物理综合分析，深化地震沉积学分析技术。采用“准层序组内高低频旋回波形分离技术”、“去除地层切片干涉效应技术”和“地质体与沉积背景属性融合技术”等3项技术，开展了浅水三角洲地震沉积学特征研究，并总结了浅水曲流河三角洲沉积模式。研究表明：①白垩系清水河组一段发育多个四级层序，反映湖平面周期性变化；②下切水道、扇状砂体广泛发育；③白垩系清水河一段浅水曲流河三角洲沉积体系发育3套储盖组合，是潜力较大的勘探层系。浅水三角洲薄砂层地震沉积特征识别技术的应用，助推了风险井位上钻，并取得较好的勘探效果，为该区增储上产提供了技术保障，同时对其他类似地区的薄砂层识别具有较好的借鉴意义。

关键词: 地震沉积学, 下切水道, 波形分离, 去干涉效应, 属性融合, 清水河组, 莫索湾凸起, 准噶尔盆地

Abstract: Shallow water delta thin sand layer is an important new field of lithologic reservoir exploration. It is difficult to identify the sedimentary structure of shallow water delta due to thin sand bodies and rapid lateral variation,which restricts the exploration and development of this kind of sedimentary body. Taking Fangcaohu area of Mosuowan uplift in Junggar Basin as an example,the seismic sedimentological analysis technology was deepened through comprehensive geological and geophysical analysis. The seismic sedimentological characteristics of shallow water deltas were studied,and the sedimentary models of shallow water meandering river deltas were summarized by using three technologies, such as high and low frequency cycle waveform separation in parasequence set, remov-ing interference effect of stratigraphic slice and attribute fusion of geological body and sedimentary background. The results show that:(1) Multiple fourth-order sequences are developed in the first member of Cretaceous Qingshuihe Formation in Fangcaohu area,reflecting the periodic change of lake level.(2) Incised channels and fanshaped sand bodies are widely developed.(3) There are three sets of reservoir-cap assemblages developed in the shallow meandering river delta sedimentary system of the first member of Cretaceous Qingshuihe Formation, which are exploration strata with great potential in this area. The application of seismic sedimentary characteristics identification technology of thin sand layers in shallow water deltas has promoted the drilling of risk wells and achieved good exploration results. This technology provides technical support for increasing reserves and production in this area, and it can provide reference for the identification of thin sand layers in other similar areas.

Key words: seismic sedimentology, undercut channel, waveform separation, de-interference effect, attribute fusion, Qingshuihe Formation, Mosuowan uplift, Junggar Basin

中图分类号:

P631

常少英, 刘玲利, 崔钰瑶, 王锋, 宋明星, 穆晓亮. 浅水三角洲薄砂层地震沉积表征技术——以准噶尔盆地芳草湖地区清水河组为例[J]. 岩性油气藏, 2022, 34(1): 139–147.

CHANG Shaoying, LIU Lingli, CUI Yuyao, WANG Feng, SONG Mingxing, MU Xiaoliang. Seismic sedimentary characterization of thin sand layers of shallow water deltas: A case study of Qingshuihe Formation in Fangcaohu area, Junggar Basin[J]. Lithologic Reservoirs, 2022, 34(1): 139–147.

参考文献

[1] ZENG H L, ZHU X M, ZHU R K. New insights into seismic stratigraphy of shallow-water progradational sequences:Subseismic clinoforms. Interpretation, 2013, 1(1):35-51.
[2] PLINT A G. Sequence stratigraphy and paleogeography of a Cenomanian deltaic complex:The Dunvegan and lower Kaskapau formations in subsurface and outcrop, Alberta and British Columbia, Canada. Bulletin of Canadian Petroleum Geology, 2000, 48(1):43-79.
[3] 李国发, 王亚静, 熊金良, 等. 薄互层地震切片解释中的几个问题:以一个三维地质模型为例.石油地球物理勘探, 2014, 49(2):388-393. LI G F, WANG Y J, XIONG J L, et al. Phenomena in inter-bed reservoir interpretation on seismic slices:An example of 3D geological model. Oil Geophysical Prospecting, 2014, 49(2):388-393.
[4] 刘化清, 冯明, 郭精义, 等.坳陷湖盆斜坡区深水重力流水道地震响应及沉积特征:以松辽盆地LHP地区嫩江组一段为例.岩性油气藏, 2021, 33(3):1-12. LIU H Q, FENG M, GUO J Y, et al. Seismic reflection and sedimentary characteristics of deep-water gravity flow channels on the slope of lacustrine depression basin:First member of Nenjiang Formation in LHP area, Songliao Basin. Lithologic Reservoirs, 2021, 33(3):1-12.
[5] 李国发, 岳英, 熊金良, 等.基于三维模型的薄互层振幅属性实验研究.石油地球物理勘探, 2011, 46(1):115-120. LI G F, YUE Y, XIONG J L, et al. Experimental study on seismic amplitude attribute of thin inter-bed based on 3D model. Oil Geophysical Prospecting, 2011, 46(1):115-120.
[6] 刘振峰.油气地震地质模型述评.岩性油气藏, 2018, 30(1):19-29. LIU Z F. Review on oil and gas seismogeology models. Lithologic Reservoirs, 2018, 30(1):19-29.
[7] 高崇龙, 纪友亮, 任影, 等. 准噶尔盆地莫索湾地区白垩系清水河组沉积演化与有利砂体展布.古地理学报, 2015, 17(6):813-825. GAO C L, JI Y L, REN Y, et al. Sedimentary evolution and favorable sandbody distribution of the Cretaceous Qingshuihe Formation in Mosuowan area, Junggar Basin. Journal of Paleogeography, 2015, 17(6):813-825.
[8] 刘化清, 苏明军, 倪长宽, 等. 薄砂体预测的地震沉积学研究方法.岩性油气藏, 2018, 30(2):1-11. LIU H Q, SU M J, NI C K, et al. Thin bed prediction from interbeded background:Revised seismic sedimentological method. Lithologic Reservoirs, 2018, 30(2):1-11.
[9] 曾洪流, 朱筱敏, 朱如凯, 等. 坳陷型陆相盆地地震沉积学研究规范探讨.石油勘探与开发, 2012, 39(3):275-284. ZENG H L, ZHU X M, ZHU R K, et al. Guidelines for seismic sedimentologic study in non-marine postrift basins. Petroleum Exploration and Development, 2012, 39(3):275-284.
[10] 尚文亮, 徐少华, 蔡默仑, 等.沉积过路现象的地震识别特征及控制因素探讨.岩性油气藏, 2020, 32(6):85-96. SHANG W L, XU S H, CAI M L, et al. Discussion on seismic identification characteristics and controlling factors of sediment bypass. Lithologic Reservoirs, 2020, 32(6):85-96.
[11] 佘刚, 周小鹰, 王箭波.多子波分解与重构法砂岩储层预测. 西南石油大学学报(自然科学版), 2013, 35(1):19-27. SHE G, ZHOU X Y, WANG J B. Prediction of sand reservoir with multi-wavelet seismic trace decomposition and reconstruction. Journal of Southwest Petroleum University(Science & Technology Edition), 2013, 35(1):19-27.
[12] 张军华, 刘振, 刘炳杨, 等. 强屏蔽层下弱反射储层特征分析及识别方法. 特种油气藏, 2012, 19(1):23-26. ZHANG J H, LIU Z, LIU B Y, et al. Analysis and identification of reservoir characteristics of weak reflectors under strong shielding layer. Special Oil & Gas Reservoirs, 2012, 19(1):23-26.
[13] 刘化清, 刘宗堡, 吴孔友, 等. 岩性地层油气藏区带及圈闭评价技术研究新进展.岩性油气藏, 2021, 33(1):25-36. LIU H Q, LIU Z B, WU K Y, et al. New progress in study of play and trap evaluation technology for lithostratigraphic reservoirs. Lithologic Reservoirs, 2021, 33(1):25-36.
[14] 金成志, 秦月霜. 利用长、短旋回波形分析法去除地震强屏蔽.石油地球物理勘探, 2017, 52(5):1042-1048. JIN C Z, QIN Y S. Seismic strong shield removal based on the long and short cycle analysis. Oil Geophysical Prospecting, 2017, 52(5):1042-1048.
[15] 赵爽, 李仲东, 许红梅, 等. 多子波分解技术检测含煤砂岩储层.天然气工业, 2007, 27(9):44-47.ZHAO S, LI Z D, XU H M, et al. Using multiple wavelet decomposition technique to detect the sandstone reservoir with coal layer. Natural Gas Industry, 2007, 27(9):44-47.
[16] 何胡军, 王秋雨, 程会明.基于匹配追踪算法子波分解技术在薄互层储层预测中的应用. 物探化探计算技术, 2010, 32(6):641-644. HE H J, WANG Q Y, CHENG H M. The application of wavelet decomposition technique based on matching pursuit algorithm in thin inter-bedded reservoir prediction. Computing Techniques for Geophysical and Geochemical Exploration, 2010, 32(6):641-644.
[17] 常少英, 张先龙, 刘永福, 等.薄层砂体识别的地震沉积学研究:以TZ12井区为例.岩性油气藏, 2015, 27(6):72-77. CHANG S Y, ZHANG X L, LIU Y F, et al. Seismic sedimentology for thin sand body identification:A case study from TZ12 well block. Lithologic Reservoirs, 2015, 27(6):72-77.
[18] 刘建华, 刘天放, 李德春.薄层厚度定量解释研究.物探与化探, 1997, 21(1):23-27. LIU J H, LIU T F, LI D C. Quantitative interpretation of thin bed thickness. Geophysical and Geochemical Exploration, 1997, 21(1):23-27.
[19] 曾洪流.地震沉积学在中国:回顾和展望.沉积学报, 2011, 29(3):61-70. ZENG H L. Seismic sedimentology in China:A Review. Acta Sedimentologica Sinica, 2011, 29(3):61-70.
[20] 朱筱敏, 刘媛, 方庆, 等.大型坳陷湖盆浅水三角洲形成条件和沉积模式:以松辽盆地三肇凹陷扶余油层为例.地学前缘, 2012, 19(1):89-99. ZHU X M, LIU Y, FANG Q, et al. Formation and sedimentary model of shallow delta in large-scale lake:Example from Cretaceous Quantou Formation in Sanzhao Sag, Songliao Basin. Earth Science Frontiers, 2012, 19(1):89-99.
[21] 魏魁生, 徐怀大, 叶淑芬. 松辽盆地白垩系高分辨率层序地层格架. 石油与天然气地质, 1997, 18(1):7-14. WEI K S, XU H D, YE S F. High resolution sequence stratigraphic framework in Cretaceous, Songliao Basin. Oil & Gas Geology, 1997, 18(1):7-14.
[22] 封从军, 鲍志东, 杨玲, 等. 三角洲前缘水下分流河道储集层构型及剩余油分布. 石油勘探与开发, 2014, 41(3):323-329. FENG C J, BAO Z D, YANG L, et al. Reservoir architecture and remaining oil distribution of deltaic front underwater distributary channel. Petroleum Exploration and Development, 2014, 41(3):323-329.
[23] 朱筱敏.层序地层学. 北京:石油大学出版社, 2000. ZHU X M. Sequence stratigraphy. Beijing:Petroleum University Press, 2000.
[24] 赵路子, 张光荣, 陈伟, 等. 深层复杂地质构造带地震勘探关键技术:以四川盆地龙门山断褶带北段为例. 天然气工业, 2018, 38(1):39-48. ZHAO L Z, ZHANG G R, CHEN W, et al. Key seismic survey technologies for deep complex geological structures:A case study of the northern section of the Longmenshan fault fold belt in the Sichuan Basin. Natural Gas Industry, 2018, 38(1):39-48.
[25] 高白水, 金振奎, 李燕, 等.河流决口扇沉积模式及演化规律:以信江府前村决口扇为例.石油学报, 2015, 36(5):564-572. GAO B S, JIN Z K, LI Y, et al. Sedimentary model and evolutionary process of crevasse splays:A case of crevasse splays around Fuqiancun village along Xinjiang River. Acta Petrolei Sinica, 2015, 36(5):564-572.
[26] 王立武. 坳陷湖盆浅水三角洲的沉积特征:以松辽盆地南部姚一段为例.沉积学报, 2012, 30(6):1053-1060. WANG L W. Forming conditions and depositional characteristics of shallow-water deltas in depression basins:A case study of K₂y¹ in the south of Songliao Basin. Acta Sedimentologica Sinica, 2012, 30(6):1053-1060.
[27] 赵俊峰, 屈红军, 林晋炎, 等. 湖泊三角洲沉积露头精细解剖:以鄂尔多斯盆地裴庄剖面为例. 沉积学报, 2014, 32(6):1026-1034. ZHAO J F, QU H J, LIN J Y, et al. Outcrop-based anatomy of a lacustrine delta succession:A case study from Peizhuang section, Ordos Basin. Acta Sedimentologica Sinica, 2014, 32(6):1026-1034.
[28] 李燕, 金振奎, 高白水, 等. 分流河道内砂体沉积特征及定量参数:以鄱阳湖赣江三角洲为例. 地球科学与环境学报, 2016, 38(2):206-216. LI Y, JIN Z K, GAO B S, et al. Sedimentary characteristics and quantitative parameters of sand bodies in distributary channel:A case study of Ganjiang Delta in Poyang Lake. Journal of Earth Sciences and Environment, 2016, 38(2):206-216.
[29] 林承焰, 余成林, 董春梅, 等. 老油田剩余油分布:水下分流河道岔道口剩余油富集. 石油学报, 2011, 32(5):829-835. LIN C Y, YU C L, DONG C M, et al. Remaining oils distributionin old oilfields:Enrichment of remaining oils in underwater distributary channel crotches. Acta Petrolei Sinica, 2011, 32(5):829-835.

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浅水三角洲薄砂层地震沉积表征技术——以准噶尔盆地芳草湖地区清水河组为例

Seismic sedimentary characterization of thin sand layers of shallow water deltas: A case study of Qingshuihe Formation in Fangcaohu area, Junggar Basin

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