地震沉积学在不同沉积相和储集层研究中的应用<sup>&#x0002A;</sup>

doi:10.7605/gdlxb.2020.04.049

古地理学报 ›› 2020, Vol. 22 ›› Issue (4): 727-743. doi: 10.7605/gdlxb.2020.04.049

地震沉积学在不同沉积相和储集层研究中的应用^*

徐兆辉¹, 胡素云¹, 王露¹, 赵文智¹, 曾洪流²

1 中国石油勘探开发研究院,北京 100083;
2 德克萨斯大学奥斯汀分校经济地质局,美国奥斯汀 78757

收稿日期:2020-04-21 修回日期:2020-06-05 出版日期:2020-08-01 发布日期:2020-08-10
作者简介:徐兆辉,男,1981年生,高级工程师,博士,地震沉积学与沉积储集层研究。E-mail: zhaohui.xu@petrochina.com.cn。
基金资助:
*国家科技重大专项(编号: 2016ZX05004,2017ZX05001)和中石油科技项目(编号: 2018A-0104)联合资助

The application of seismic sedimentology in studying different sedimentary facies and reservoirs

Xu Zhao-Hui¹, Hu Su-Yun¹, Wang Lu¹, Zhao Wen-Zhi¹, Zeng Hong-Liu²

1 Research Institute of Petroleum Exploration and Development,PetroChina,Beijing 100083,China;
2 Bureau of Economic Geology,Jackson School of Geosciences,The University of Texas at Austin,Austin 78757,America

Received:2020-04-21 Revised:2020-06-05 Online:2020-08-01 Published:2020-08-10
About author:Xu Zhao-Hui, born in 1981, is a senior engineer and Ph.D. Now he is focusing on study of seismic sedimentology, sedimentary facies and reservoir. E-mail: zhaohui.xu@petrochina.com.cn.
Supported by:
National Science and Technology Major Project(Nos. 2016ZX05004,2017ZX05001)and PetroChina Science and Technology Project(No.2018A-0104)

摘要/Abstract

摘要： 地震沉积学包括地震地貌学和地震岩性学,应用前景广阔。针对玛湖凹陷克拉玛依组碎屑岩、川中地区龙王庙组碳酸盐岩和嘉陵江组混积岩3种不同岩性的沉积环境开展研究,探讨了地震沉积学在3种环境下沉积相与储集层研究的应用效果。研究发现,玛湖凹陷克拉玛依组发育冲积扇和河流相,点坝储集层孔渗条件好,产能优于扇缘储集层。川中龙王庙组碳酸盐岩沉积受控于同沉积走滑断裂,白云岩厚储集层分布在磨溪构造斜坡区。川中嘉二下亚段自西南向东北从陆相经海陆过渡相和局限蒸发相变为海相,有利于储集层发育的白云岩岩相位于中部的局限蒸发相附近。3个实例研究中除了使用相位旋转、地层切片和分频3种传统技术之外,还利用了主因子分析和RGB融合2项新技术。研究结果较理想,表明地震沉积学在定性重建沉积相和定量预测储集层方面应用效果显著。

关键词: 地震沉积学, 碎屑岩, 碳酸盐岩, 混积岩, 沉积相, 储集层

Abstract: Seismic sedimentology,which includes seismic geomorphology and seismic lithology,has wide application prospect. Based on investigations of three different depositional environments,i.e.,siliciclastics in the Karamay Formation of Mahu sag,carbonates rock in the Longwangmiao Formation of Central Sichuan Basin,and mixed sediments in the Jialingjiang Formation of Central Sichuan Basin,the paper discussed the application of seismic sedimentology in studying facies and reservoir in three systems,i.e.,siliciclastics,carbonates,and mixed lithologies(evaporates,carbonates,and siliciclastics). It is found that alluvial fan and fluvial river facies developed in the Karamay Formation. Reservoir in point-bar has a better porosity,permeability,and higher production than that in lower-fan. Sedimentary facies in the Longwangmiao Formation are controlled by syn-depositional strike-slip faults. Thick dolostone reservoir is located mainly on the upper slope area in Moxi structure. Lower part of second member of the Jialingjiang Formation in Central Sichuan Basin changes from non-marine facies in the southwest to mixed facies and restricted evaporite facies in the middle,and to marine faces in the northeast. Reservoir-bearing dolostone lithofacies are located near the middle evaporite facies. Besides of the typical phase rotation,strata slice,and frequency decomposition,two new techniques(principal component analysis and RGB blending)were applied to these three cases. The results are satisfactory,and it is proved that seismic sedimentology is effective to qualitatively reconstruct depositional facies and quantitatively predict reservoir.

Key words: seismic sedimentology, siliciclastic, carbonate rock, mixed lithologies, sedimentary facies, reservoir

中图分类号:

P618.130.2+1

徐兆辉, 胡素云, 王露, 赵文智, 曾洪流. 地震沉积学在不同沉积相和储集层研究中的应用^*[J]. 古地理学报, 2020, 22(4): 727-743.

Xu Zhao-Hui, Hu Su-Yun, Wang Lu, Zhao Wen-Zhi, Zeng Hong-Liu. The application of seismic sedimentology in studying different sedimentary facies and reservoirs[J]. JOPC, 2020, 22(4): 727-743.

http://www.gdlxb.cn/CN/Y2020/V22/I4/727

参考文献

[1] 陈业全,王伟锋. 2004. 准噶尔盆地构造演化与油气成藏特征. 石油大学学报(自然科学版), 28(3): 4-8.
[Chen Y Q,Wang W F.2004. Structural evolution and pool-forming in Junggar Basin. Journal of the University of Petroleum,China(Edition of Natural Science)), 28(3): 4-8]
[2] 陈永武,何文渊. 2004. 中国西部含油气盆地石油地质条件的主要认识和勘探方向. 石油学报, 25(6): 1-7.
[Chen Y W,He W Y.2004. Some recognition of petroleum geological feature and exploration directions in the western China. Acta Petrolei Sinica, 25(6): 1-7]
[3] 董春梅,张宪国,林承焰. 2006. 有关地震沉积学若干问题的探讨. 石油地球物理勘探, 41(4): 405-409.
[Dong C M,Zhang X G,Lin C Y.2006. Discussion on several issues about seismic sedimentology. Oil Geophysical Prospecting, 41(4): 405-409]
[4] 董艳蕾,朱筱敏,曾洪流,边树涛,刘长利,孙海涛. 2008. 黄骅坳陷歧南凹陷古近系沙一层序地震沉积学研究. 沉积学报, 26(2): 234-240.
[Dong Y L,Zhu X M,Zeng H L,Bian S T,Liu C L,Sun H T.2008. Seismic sedimentology study on Shayi sequence in Qinan Sag,Huanghua Depression. Acta Sedimentologica Sinica, 26(2): 234-240]
[5] 杜金虎,汪泽成,邹才能,徐春春,沈平,张宝民,姜华,黄士鹏. 2016. 上扬子克拉通内裂陷的发现及对安岳特大型气田形成的控制作用. 石油学报, 37(1): 1-16.
[Du J H,Wang Z C,Zou C N,Xu C C,Shen P,Zhang B M,Jiang H,Huang S P.2016. Discovery of intra-cratonic rift in the Upper Yangtze and its control effect on the formation of Anyue giant gas field. Acta Petrolei Sinica, 37(1): 1-16]
[6] 何登发,吴松涛,赵龙,郑孟林,李涤,路玉. 2018. 环玛湖凹陷二叠—三叠系沉积构造背景及其演化. 新疆石油地质, 39(1): 35-47.
[He D F,Wu S T,Zhao L,Zheng M L,Li D,Lu Y.2018. Tectono-depositional setting and its evolution during Permian to Triassic around Mahu sag,Junggar Basin. Xinjiang Petroleum Geology, 39(1): 35-47]
[7] 何苗,张利伟,刘勇,李廷栋,张武. 2017. 准噶尔盆地西北缘三叠纪沉积体系与环境. 地质通报, 36(6): 1032-1042.
[He M,Zhang L W,Liu Y,Li T D,Zhang W.2017. Sedimentary system and environment research on the Triassic strata in north-west Junggar Basin. Geological Bulletin of China, 36(6): 1032-1042]
[8] 黄汲清. 1954. 中国主要地质构造单元. 北京:地质出版社,161.
[Huang J Q.1954. On Major Tectonic Units of China. Beijing: Geological Publishing House,161]
[9] 姜秀娣,翁斌,刘亚茹,赵伟. 2013. 分频混色技术在高精度地震解释中的应用. 地球物理学进展, 28(2): 882-888.
[Jiang X D,Weng B,Liu Y R,Zhao W.2013. Application of spectral decomposition GRB plotting technique for spectral components in high accuracy seismic interpretation. Progress in Geophysics, 28(2): 882-888]
[10] 李操. 2014. 基于优势振幅的储层预测方法研究及应用. 石油天然气学报, 36(7): 80-83.
[Li C.2014. Research and application of reservoir prediction method based on dominant seismic amplitude. Journal of Oil and Gas Technology, 36(7): 80-83]
[11] 林承焰,张宪国,董春梅. 2007. 地震沉积学及其初步应用. 石油学报, 28(2): 69-72.
[Lin C Y,Zhang X G,Dong C M.2007. Concept of seismic sedimentology and its preliminary application. Acta Petrolei Sinica, 28(2): 69-72]
[12] 林承焰,张宪国. 2006. 地震沉积学探讨. 地球科学进展, 21(11): 1140-1144.
[Lin C Y,Zhang X G.2006. The discussion of seismic sedimentology. Advances in Earth Science, 21(11): 1140-1144]
[13] 刘林玉,柳益群,李文厚,邸世祥. 2002. 吐哈盆地台北凹陷三角洲沉积与成岩作用. 石油与天然气地质, 23(4): 402-405,414.
[Liu L Y,Liu Y Q,Li W H,Di S X.2002. Sedimentation and diagenesis of delta in Taibei sag of Turfan-Hami Basin. Oil and Gas Geology, 23(4): 402-405,414]
[14] 刘玲,沃玉进,张涛,孙炜. 2020. 运用岩性因子预测四川盆地涪陵地区茅口组白云岩储层. 石油与天然气地质, 41(1): 144-156.
[Liu L,Wo Y J,Zhang T,Sui W.2020. Dolomite reservoir prediction with lithology factor in the Maokou Formation,Fuling area,Sichuan Basin. Oil and Gas Geology, 41(1): 144-156]
[15] 刘顺生,焦养泉,郎风江,颜佳新,徐春华. 1999. 准噶尔盆地西北缘露头区克拉玛依组沉积体系及演化序列分析. 新疆石油地质, 20(1): 485-489.
[Liu S S,Jiao Y Q,Lang F J,Yan J X,Xu C H.1999. Sedimentary system and evolution sequence of Karamay Formation in outcrop area,northwestern margin of Junggar Basin. Xinjiang Petroleum Geology, 20(1): 485-489]
[16] 彭才,刘克难,张延充,朱鹏宇. 2011. 川中地区长兴组生物礁地震沉积学研究. 天然气地球科学, 22(3): 460-464.
[Peng C,Liu K N,Zhang Y C,Zhu P Y.2011. Seismic sedimentology of organic reef from the Changxing Formation of central Sichuan. Natural Gas Geoscience, 22(3): 460-464]
[17] 丘东洲. 1994. 准噶尔盆地西北缘三叠—侏罗系隐蔽油气圈闭勘探. 新疆石油地质, 15(1): 1-9.
[Qiu D Z.1994. Exploration of the concealed oil-gas trap of Triassic-Jurassic in northwestern margin of Junggar Basin. Xinjiang Petroleum Geology, 15(1): 1-9]
[18] 唐勇,郭文建,王霞田,鲍海娟,吴海生. 2019. 玛湖凹陷砾岩大油区勘探新突破及启示. 新疆石油地质, 40(2): 127-137.
[Tang Y,Guo W J,Wang X T,Bao H J,Wu H S.2019. A new breakthrough in exploration of large conglomerate oil province in Mahu Sag and its implications. Xinjiang Petroleum Geology, 40(2): 127-137]
[19] 田在艺,张庆春. 1997. 中国含油气盆地岩相古地理与油气. 北京: 地质出版社,260.
[Tian Z Y,Zhang Q C.1997. Paleogeography and hydrocarbon in Petroliferous Basins of China. Beijing: Geological Publishing House,260]
[20] 汪泽成,王铜山,文龙,姜华,张宝民. 2016. 四川盆地安岳特大型气田基本地质特征与形成条件. 中国海上油气, 28(2): 45-52.
[Wang Z C,Wang T S,Wen L,Jiang H,Zhang B M.2016. Basic geological characteristics and accumulation conditions of Anyue giant gas field,Sichuan Basin. China Offshore Oil and Gas, 28(2): 45-52]
[21] 王宓君,包茨,肖明德. 1989. 中国石油地质志卷十. 四川油气区. 北京: 石油工业出版社,516.
[Wang M J,Bao C,Xiao M D.1989. Petroleum Geology of China(V. 10),Sichuan Oil & Gas Field. Beijing: Petroleum Industry Press,516]
[22] 吴应林,朱忠发,王吉礼. 1989. 上扬子台地早、中三叠世岩相古地理及沉积矿产的环境控制. 重庆: 重庆出版社,221.
[Wu Y L,Zhu Z F,Wang J L 1989. Lithofacies-paleogeography and Environmental Control of Sedimentary Deposits of the Early and Middle Triassic in the Upper Yangtze Area. Chongqing: Chongqing Publishing House,221]
[23] 吴兆徽,徐守余,刘西雷,吴颖昊,宋泓霖,牛丽娟. 2016. 复杂砂砾岩体岩性定量识别技术. 岩性油气藏, 28(2): 114-118,126.
[Wu Z H,Xu S Y,Liu X L,Wu Y H,Song H L,Niu L J.2016. Quantitative lithology dentification technology of complex sand-conglomerate bodies. Lithologic Reservoirs, 28(2): 114-118,126]
[24] 徐国盛,何玉,袁海锋,杨运会,孟昱璋. 2011. 四川盆地嘉陵江组天然气藏的形成与演化研究. 西南石油大学学报(自然科学版), 33(2): 171-178.
[Xu G S,He Y,Yuan H F,Yang Y H,Meng Y Z.2011. Study on the formation and evolution of gas accumulation in Lower Triassic Jialingjiang Formation of Sichuan Basin,China. Journal of Southwest Petroleum University(Science & Technology Edition), 33(2): 171-178]
[25] 杨帆,曹正林,卫延召,路琳琳,吴爱成,马丽亚,王瑞菊. 2019. 玛湖地区三叠系克拉玛依组浅水辫状河三角洲沉积特征. 岩性油气藏, 31(1): 30-39.
[Yang F,Cao Z L,Wei Y Z,Lu L L,Wu A C,Ma L Y,Wang R J.2019. Sedimentary characteristics of shallow-water braided delta of Karamay Formation in Mahu area. Lithologic Reservoirs, 31(1): 30-39]
[26] 曾洪流. 2011. 地震沉积学在中国: 回顾和展望. 沉积学报, 29(3): 417-426.
[Zeng H L.2011. Seismic sedimentology in China: A review. Acta Sedimentologica Sinica, 29(3): 417-426]
[27] 曾洪流,朱筱敏,朱如凯,张庆石. 2012. 陆相坳陷型盆地地震沉积学研究规范. 石油勘探与开发, 39(3): 275-284.
[Zeng H L,Zhu X M,Zhu R K,Zhang Q S.2012. Guidelines for seismic sedimentologic study in non-marine postrift basins. Petroleum Exploration and Development, 39(3): 275-284]
[28] 张国俊. 1995. 准噶尔盆地油气勘探回顾与展望. 新疆石油地质, 16(3): 196-199.
[Zhang G J.1995. Review and prospect of oil and gas exploration in Junggar Basin. Xinjing Petroleum Geology, 16(3): 196-199]
[29] 张建勇,罗文军,周进高,王勇,唐松,罗冰,潘立银,倪超,谷明峰,李文正. 2015. 四川盆地安岳特大型气田下寒武统龙王庙组优质储层形成的主控因素. 天然气地球科学, 26(11): 2063-2074.
[Zhang J Y,Luo W J,Zhou J G,Wang Y,Tang S,Luo B,Pan L Y,Ni C,Gu M F,Li W Z.2015. Main origins of high quality reservoir of Lower Cambrian Longwangmiao Formation in the giant Anyue Gasfield,Sichuan Basin,SW China. Natural Gas Geoscience, 26(11): 2063-2074]
[30] 赵文智,张光亚,汪泽成. 2005. 复合含油气系统的提出及其在叠合盆地油气资源预测中的作用. 地学前缘, 12(4): 458-467.
[Zhao W Z,Zhang G Y,Wang Z C.2015. On the concept of composite petroleum systems and its application to the prediction of oil and gas resources in superimposed basins. Earth Science Frontiers, 12(4): 458-467]
[31] 朱筱敏,董艳蕾,曾洪流,黄捍东,刘强虎,秦祎,叶蕾. 2019. 沉积地质学发展新航程: 地震沉积学. 古地理学报, 21(2): 189-201.
[Zhu X M,Dong Y L,Zeng H L,Huang H D,Liu Q H,Qin Y,Ye L.2019. New development trend of sedimentary geology: Seismic sedimentology. Journal of Palaeogeography(Chinese Edition), 21(2): 189-201]
[32] Brandano M,Tomassetti L,Bosellini F,Mazzucchi A.2010. Depositional model and paleodepth reconstruction of a coral-rich,mixed siliciclastic-carbonate system: The Burdigalian of Capo Testa(northern Sardinia,Italy). Facies, 56: 433-444.
[33] Chopra S,Marfurt K J.2014. Churning seismic attributes with principal component analysis. 84th Annual International Meeting,SEG. Expanded Abstracts: 2672-2676.
[34] Guertin L A,Missimer T M,McNeill D F.2000. Hiatal duration of correlative sequence boundaries from Oligocene-Pliocene mixed carbonate/siliciclastic sediments of the south Florida Platform. Sediment Geology, 134: 1-26.
[35] Hu S Y,Zhao W Z,Xu Z H,Zeng H L,Fu Q L,Jiang L,Shi S Y,Wang Z C,Liu W.2017. Applying PCA to seismic attributes for interpretation of evaporite facies: Lower Triassic Jialingjiang Formation,Sichuan Basin,China. Interpretation, 5(4): 461-475.
[36] Middleton G V.1973. Johannes Walther's law of correlation of facies. Geological Society of America Bulletin, 84(3): 979-988.
[37] Posamentier H W.2001. Seismic geomorphology and depositional systems of deep water environments: Observations from offshore Nigeria,Gulf of Mexico,and Indonesia(abs). AAPG Annual Convention Program, 10: 160.
[38] Schoonmaker J,Tribble G,Smith S.1985. Geochemistry of saline ponds,Kiritimati(Republic of Kiribati). In: Gabrie C,Toffart J L,Salvat B(eds).Fifth International Coral Reef Congress. Papeete Tahiti, 3: 439-444.
[39] Trichet J,Defarge C,Tribble J.2001. Christmas Island lagoonal lakes,models for the deposition of carbonate-evaporite-organic laminated sediments. Sedimentary Geology, 140: 177-189.
[40] Weidlich O.2007. PTB mass extinction and earliest Triassic recovery overlooked?New evidence for a marine origin of Lower Triassic mixed carbonate-siliciclastic sediments(Rogenstein Member). Palaeogeography, Palaeoclimatology, Palaeoecology, 252(1-2): 259-269.
[41] Zeng H L.2018. What is seismic sedimentology?A tutorial. Interpretation, 6(2): 1-12.
[42] Zeng H L,Hentz T F.2004. High-frequency sequence stratigraphy from seismic sedimentology: Applied to Miocene,Vermilion Block 50,Tiger Shoal area,offshore Louisiana. AAPG Bulletin, 88(2): 153-174.
[43] Zeng H L,Backus M M,Barrow K T,Tyler N.1998a. Stratal slicing,part Ⅰ: Realistic 3-D seismic model. Geophysics, 63(2): 502-513.
[44] Zeng H L,Henry S C,Riola J P.1998b. Stratal slicing,part Ⅱ: Real seismic data. Geophysics, 63(2): 514-522.
[45] Zhao W Z,Hu S Y,Xu Z H,Zeng H L,Liu W,Fu Q L,Shi S Y,Wang L,Jiang L.2018. Lithology mapping of a mixed siliciclastic-carbonate-evaporite system using 3D seismic and well data: Lower Triassic Jialingjiang Formation,Sichuan Basin,southwestern China. Marine and Petroleum Geology, 93: 422-436.

选择文件类型/文献管理软件名称

选择包含的内容

地震沉积学在不同沉积相和储集层研究中的应用^*

The application of seismic sedimentology in studying different sedimentary facies and reservoirs

RichHTML

PDF

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

[1]	张晓阳, 窦云飞, 孔维江, 李康, 吕大炜, 陈金凤, 贾海波, 沈晓丽. 鄂尔多斯盆地东缘临兴地区本溪组铝土岩系沉积发育地质过程及储集层物性特征^*[J]. 古地理学报, 2025, 27(2): 286-306.
[2]	刘强, 张莹. 松辽盆地榆东地区泉头组四段特低—超低渗储集层成岩作用与成岩相^*[J]. 古地理学报, 2025, 27(2): 499-516.
[3]	张梅, 王贵文, 赖锦, 庞小娇, 杨柳. 湖相碳酸盐岩储集层测井识别方法及应用: 以桑托斯盆地A油田白垩系BVE组为例^*[J]. 古地理学报, 2025, 27(2): 517-527.
[4]	施振生, 张亚雄, 曾番惠, 周天琪, 郭伟, 黄浩勇. 海相细粒陆源碎屑岩主要沉积构造类型及页岩气意义^*[J]. 古地理学报, 2025, 27(1): 32-54.
[5]	林兴悦, 朱筱敏, 王晓琳, 张美洲. 细粒沉积岩优质储集层发育主控因素分析: 以渤海湾盆地沾化凹陷为例^*[J]. 古地理学报, 2025, 27(1): 55-71.
[6]	刘凯铭, 王兴志, 韦明洋, 李阳, 陈旺, 王文之, 李勇, 马奎. 四川盆地蓬莱地区灯影组四段超深层白云岩储集层特征及主控因素^*[J]. 古地理学报, 2025, 27(1): 109-125.
[7]	祁柯宁, 旷红伟, 柳永清, 彭楠, 王玉冲, 陈骁帅. 扬子西南缘滇中成冰系南沱组沉积特征及其上红层归属讨论^*[J]. 古地理学报, 2024, 26(6): 1305-1324.
[8]	金惠, 崔俊峰, 杨桂茹, 杨威, 肖佃师, 王志宏, 王民, 武雪琼, 薄冬梅. 川中—川西须家河组三段致密砂岩储集层分类及成因^*[J]. 古地理学报, 2024, 26(6): 1452-1466.
[9]	汪彦, 王诺宇, 杨德彬, 张恒, 张娟, 张长建, 张晓. 塔河油田西北部奥陶系古水系结构特征及演化^*[J]. 古地理学报, 2024, 26(6): 1467-1482.
[10]	匡明志, 张小兵, 袁海锋, 陈聪, 张玺华, 彭瀚霖, 徐婷, 肖钦仁, 李天军, 山述娇. 川中地区茅口组碳酸盐岩层序地层及沉积相特征^*[J]. 古地理学报, 2024, 26(5): 1201-1220.
[11]	曾建军, 谭秀成, 赵东方, 何如意, 罗文军, 刘耘, 徐伟, 李绍瑞, 邓禹, 吴昊. 川中高石1井区灯影组二段早成岩期岩溶特征及其对储集层的影响^*[J]. 古地理学报, 2024, 26(5): 1221-1234.
[12]	范承蒙, 杨海林, 杨洋, 温汉捷, 樊海峰, 张洪杰, 李方会, 肖蛟龙, 周煜. 湖北三峡地区黄陵隆起北缘灯影组微生物碳酸盐岩类型及古环境演化^*[J]. 古地理学报, 2024, 26(5): 1256-1270.
[13]	刘明成, 吴胜和, 万晓龙, 李桢, 樊建民, 陈朝晖, 王梓沣, 刘海旭. 鄂尔多斯盆地庆城油田延长组页岩层系层序地层与沉积相特征^*[J]. 古地理学报, 2024, 26(4): 779-795.
[14]	许鹏, 连豪杰, 毕力格, 胡贺伟, 郜政辉, 姜福杰, 邵龙义. 渤海湾盆地埕北凹陷古近系沉积体系及砂体成因类型^*[J]. 古地理学报, 2024, 26(4): 834-845.
[15]	齐荣, 李国蓉, 张军涛, 王付斌, 李宇翔, 杨飞, 刘璐, 何赛, 田家奇, 李肖肖. 鄂尔多斯盆地富县地区马家沟组热液改造特征与研究意义^*[J]. 古地理学报, 2024, 26(3): 632-643.

模态框（Modal）标题

选择文件类型/文献管理软件名称

选择包含的内容

地震沉积学在不同沉积相和储集层研究中的应用*

The application of seismic sedimentology in studying different sedimentary facies and reservoirs

RichHTML

PDF

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

地震沉积学在不同沉积相和储集层研究中的应用^*