杨 威
手机:15210598780 电子邮箱:yangw@cup.edu.cn
研究员/教授,校优秀青年学者,校青年拔尖人才
杨威,研究员,校优秀青年学者,校青年拔尖人才。主要从事非常规油气成藏富集机理研究。主持国家自然科学基金面上项目、青年项目、国家科技重大专项任务等项目20余项。主要从事含油气盆地分析、非常规油气成藏地质评价研究。近五年主持国家自然科学基金项目2项、“十四五”国家科技重大专项专题1项、中石油战略合作专项专题1项,中国石油大学(北京)优秀青年学者、青年拔尖人才计划项目2项,参与“十三五”国家科技重大专项2项。截止目前以第一作者或通讯作者身份共发表期刊论文50余篇,其中第一作者SCI期刊论文20余篇(含TOP期刊论文10余篇),中文EI期刊3篇,中文核心期刊10余篇;获授权发明专利10余件,获省部级科技进步一等奖5项。现担任《Terra Nova》《Petroleum Science》《石油科学通报》副主编,《Advances in Geo-Energy Research》《沉积学报》《石油与天然气地质》《石油实验地质》《岩性油气藏》《油气地质与采收率》《东北石油大学学报》等期刊青年编委。
工作经历:
2025.08~至今 中国石油大学(北京)油气资源与工程全国重点实验室 研究员(教授)
2022.07~2025.08 中国石油大学(北京)非常规油气科学技术研究院 研究员(教授)
2020.07~2025.08 中国石油大学(北京)非常规油气科学技术研究院 校优秀青年学者
2016.07~2022.06 中国石油大学(北京)非常规油气科学技术研究院 副研究员
2014.07~2016.06 中国石油大学(北京)非常规天然气研究院 助理研究员
教育经历:
2009.09~2014.06 北京大学 地球与空间科学学院 构造地质学专业 博士学位
2011.09~2014.06 法国雷恩第一大学 地球科学系 地球与环境科学专业 博士学位
2005.09~2009.07 兰州大学 资源环境学院 地质学专业 学士学位
代表性论文:
[1] Wei Yang, Marc Jolivet, Guillaume Dupont-Nivet, Zhaojie Guo*, Zhicheng Zhang, Chaodong Wu, Source to sink relations between the Tian Shan Range and Junggar Basin (northwest China) from Late Paleozoicto Quaternary: evidence from detrital U-Pb zircon geochronology, Basin Research, 2013, 25 (2): 219-240.
[2] Wei Yang, Marc Jolivet, Guillaume Dupont-Nivet, Zhaojie Guo*, Mesozoic-Cenozoic tectonic evolution of southwestern Tian Shan: Evidence from detrial zircon U-Pb and apatite fission track ages of the Ulugqat area, Northwest China, Gondwana Research, 2014, 26 (3-4): 986-1008.
[3] Wei Yang*, Guillaume Dupont-Nivet, Marc Jolivet, Zhaojie Guo, Laurie Bougeois, Roderic Bosboom, Ziya Zhang, Bei Zhu, Gloria Heilbronn, Magnetostratigraphic record of the early evolution of the southwestern Tian Shan foreland basin (Ulugqat area), interactions with Pamir indentation and India-Asia collision, Tectonophysics, 2015, 644-645: 122-137.
[4] Wei Yang*, Baruch Spiro, Zhao-Jie Guo, Allan Pentecost, Cenozoic lacustrine stromatolites from the southern margin of the Junggar Basin, NW China and adjacent areas: indicators for palaeoclimatic and tectonic evolution, Geological Journal, 2017, 52: 249-262. .
[5] Wei Yang*, Jianfeng Li, Zhaojie Guo, Marc Jolivet, Gloria Heilbronn, New apatite fission track ages from the western Kuqa Depression: implications for Mesozoic-Cenozoic tectonic evolution of the South Tian Shan, Acta Geologica Sinica (English edition), 2017, 91 (2): 396-413.
[6] Wei Yang*, Yan Song, Zhenxue Jiang, Qun Luo, Qianyou Wang, Yuan Yuan, Chen Zhang, Lei Chen, Whole-aperture characteristics and controlling factors of pore structure in the Chang 7th continental shale of the Upper Triassic Yanchang Formation in the Southeastern Ordos Basin, China, Interpretation, 2018, 6 (1): 1-17.
[7] Wei Yang*, Ling Fu, Chaodong Wu, Yan Song, Zhenxue Jiang, Qun Luo, Ziya Zhang, Chen Zhang, Bei Zhu, U-Pb ages of detrital zircon from Cenozoic sediments in the southwestern Tarim Basin, NW China: Implications for Eocene–Pliocene source-to-sink relations and new insights into Cretaceous–Paleogene magmatic sources, Journal of Asian Earth Sciences, 2018, 156: 26-40.
[8] Wei Yang*, Rusi Zuo, Zhenxue Jiang, Dongxia Chen, Yan Song, Qun Luo, Qianyou Wang, Hongji Zhu, Effect of lithofacies on pore structure and new insights into pore-preserving mechanisms of the over-mature Qiongzhusi marine shales in Lower Cambrian of the southern Sichuan Basin, China, Marine and Petroleum Geology, 2018, 98: 746-762.
[9] Wei Yang*, Rusi Zuo, Xu Wang**, Yan Song, Zhenxue Jiang, Qun Luo, Jixuan Zhai, Qianyou Wang, Chen Zhang, Ziya Zhang, Sensitivity of lacustrine stromatolites to Cenozoic tectonic and climatic forcing in the southern Junggar Basin, NW China: New insights from mineralogical, stable and clumped isotope compositions, Palaeogeography, Palaeoclimatology, Palaeoecology, 2019, 514: 109-123.
[10] Wei Yang*, Rusi Zuo, Dongxia Chen, Zhenxue Jiang, Lishuang Guo, Ziyi Liu, Rong Chen, Yunpeng Zhang, Ziya Zhang**, Yan Song, Qun Luo, Qianyou Wang, Jianbo Wang, Lei Chen, Yaohua Li, Chen Zhang, Climate and tectonic-driven deposition of sandwiched continental shale units: New insights from petrology, geochemistry, and integrated provenance analyses (the western Sichuan subsiding Basin, Southwest China), International Journal of Coal Geology, 2019, 211: 103227.
[11] Wei Yang*, Qianyou Wang, Yaohua Wang, Zhenxue Jiang, Yan Song, Yaohua Li, Dan Liu, Rusi Zuo, Xiaomin Gu, Fan Zhang, Pore characteristic responses to categories of depositional microfacies of delta-lacustrine tight reservoirs in the Upper Triassic Yanchang Formation, Ordos Basin, NW China, Marine and Petroleum Geology, 2020, 118: 104423.
[12] Wei Yang*, Qianyou Wang, Yan Song, Zhenxue Jiang, Wangcai Meng, Guoheng Liu, Bo Zhang, New scaling model of the spontaneous imbibition behavior of tuffaceous shale: constraints from the tuff-hosted and organic matter-covered pore system, Journal of Natural Gas Science and Engineering, 2020, 81: 103389.
[13] Wei Yang*, Liang Xu, Dongxia Chen, Zhenxue Jiang, Ziya Zhang, Bin Hao, Rusi Zuo, Qianyou Wang, Rong Chen, How argillaceous reservoirs exhibit better quality than silty mudstones ? Anomalous behavior of shale gas-bearing properties of continental fine-grained sediments in Southwest China and its possible forcing mechanisms, Petroleum Science, 2021, 18: 1589-1610.
[14] Wei Yang*, Yaohua Wang, Wei Du, Yan Song, Zhenxue Jiang, Qianyou Wang, Liang Xu, Fuping Zhao, Yi Chen, Fulun Shi, Shuanghong Yao, Haodong Hou, Shuling Xiong, Behavior of organic-matter-hosted pores within shale gas reservoirs in response to differential tectonic deformation: Potential mechanisms and innovative conceptual models, Journal of Natural Gas Science and Engineering, 2022, 102: 104571.
[15] Wei Yang*, Yaohua Wang, Ming Xie, Yingyan Li, Yang Gao, Yuan Deng, Changfu Xu, Jianhua Qin, Shouchang, Peng, Leilei Yang, Linjie Yao, Effect of lithofacies on differential movable fluid behaviors of saline lacustrine fine-grained mixed sedimentary sequences in the Jimusar sag, Junggar Basin, NW China: Forcing mechanisms and multi-scale models. Marine and Petroleum Geology, 2023, 150: 106150.
[16] Wei Yang*, Rui Yang**, Min Wang***, Shujing Bao****, Leilei Yang, Haodong Hou, Yan Song, Zhenxue Jiang, Ke Miao, Liang Xu, Impact of lithofacies categories on inflection-point behaviors in micro-nano pore-structure evolution: Implications for differential reservoir-forming mechanisms and “sweet-spot intervals” identification for marine gas shales. Marine and Petroleum Geology, 2025, 176: 107336.
[17] Liyao Hua1, Wei Yang1*, Qianyou Wang, Yan Song, Zhenxue Jiang, Lishuang Guo, Yunpeng Zhang, Jianbo Wang, Influence of the actively migrated diagenetic elements on the hydrocarbon generation potential in tuffaceous shale, Fuel, 2019, 256 (15), 115795.
[18] Haodong Hou, Wei Yang*, Wei Du, Xia Feng, Zhenxue Jiang, Fulun Shi, Ruiqin Lin, Yisong Wang, Daquan Zhang, Yi Chen, Zhao Sun, Fuping Zhao, Implications of multi-stage deformation on the differential preservation of Lower Paleozoic shale gas in tectonically complex regions: New structural and kinematic constraints from the Upper Yangtze Platform, South China, Marine and Petroleum Geology, 2024, 160: 106629.
[19] Haodong Hou, Wei Yang*, Rui Yang**, Zhenxue Jiang, Ke Miao, Weihao Sun, Yating Xiao, Formation and Evolution of Complex Pore-Fracture Systems in Shale Gas Reservoirs: Insights into Controlling Mechanisms, Energy & Fuels, 2025, 39: 3008-3038.
[20] Leilei Yang, Donghua Chen, Jing Hu, Xiujing Meng, Jianliang Liu, Wei Yang*, Understanding the role of sequence stratigraphy and diagenesis on the temporal and spatial distribution of carbonate reservoir quality: A conceptual modeling approach, Marine and Petroleum Geology, 2023, 147: 106010.
[21] Qianyou Wang, Wei Yang*, Yaohua Li*, Zhenxue Jiang, Ming Wen, Rusi Zuo, Xin Wang, Zixin Xue, Yaohua Wang, In-situ Fluid Phase Variation along the Thermal Maturation Gradient in Shale Petroleum Systems and Its Impact on Well Production Performance. Journal of Earth Science, 2023, 34 (4), 985-1001.
[22] Wei Yang*, Baojian Shen, Zilong Zhang, Rui Zhao, Haodong Hou, Zhiming Li, Mou Ding, Hanwen Hu, Fan Feng, Ming Xie, Comparative study on pore-connectivity and wettability characteristics of the fresh-water and saline lacustrine tuffaceous shales: triggering mechanisms and multi-scale models for differential reservoir-forming patterns. Frontiers in Earth Science, 2024, 12, 1410585.
[23] Wei Yang*, Ming Xie, Haodong Hou, Zhenxue Jiang, Yan Song, Shujing Bao, Yingyan Li, Yang Gao, Shouchang Peng, Ke Miao, Multifractal Characteristics of Heterogeneous Pore-Throat Structure and Insight into Differential Fluid Movability of Saline-Lacustrine Mixed Shale-Oil Reservoirs. Fractal Fract, 2025, 9 (9), 10.3390/fractalfract9090604.
[24] Ziya Zhang, Wei Yang*, Xingyu Li, Yan Song, Zhenxue Jiang, Qun Luo, Geochemical Characteristics of the Middle Devonian Dacaozi-Tanshanping Shale Strata in the Yanyuan Basin, Southwest China: Implications for Organic Matter Accumulation and Preservation. Geofl��������uids, 2021, 5586065.
[25] Ming Xie, Wei Yang*, Mingzhu Zhao, Yingyan Li, Yuan Deng, Yang Gao, Changfu Xu, Haodong Hou, Linjie Yao, Zilong Zhang, Jiankang Lu, Diagenetic Facies Controls on Differential Reservoir-Forming Patterns of Mixed Shale Oil Sequences in the Saline Lacustrine Basin. minerals, 2023, 13: 143.
[26] Wei Du, Wei Yang*, Xingyu Li*, Fulun Shi, Ruiqin Lin, Yisong Wang, Daquan Zhang, Yi Chen, Zhao Sun, Fuping Zhao, Differential Reservoir-Forming Mechanisms of the Lower Paleozoic Wufeng-Longmaxi and Niutitang Marine Gas Shales in Northern Guizhou Province, SW China: Theories and Models. energies, 2022, 15, 5137.
[27] Qianyou Wang, Yaohua Li, Wei Yang*, Zhenxue Jiang*, Yan Song*, Shu Jiang, Qun Luo, Dan Liu, Finite Element Simulation of Multi-Scale Bedding Fractures in Tight Sandstone Oil Reservoir. energies, 2020, 13: 131.
[28] Zhiyong Li, Hongguang Gou, Xiongfei Xu, Xiao Li, Ke Miao, Jing Zhang, Zaiguang Li, Zhiming Li, Wei Yang*, Petroleum System Analysis and Burial History of Middle Permian Source Rock in Turpan–Hami Basin, NW China. minerals, 2024, 14: 347.
[29] Deyu Zhu, Zhenxue Jiang, Shu Jiang, Wei Yang*, Yan Song, Zhiye Gao, Tao Jiang, Xiangni Cao, Weibang Li, Ye Zhang, Water-bearing characteristics and their influences on the reservoir capacity in terrestrial shale reservoirs: A case study of the lower Jurassic Ziliujing Formation in the Northeast Sichuan Basin, China. Marine and Petroleum Geology, 2021, 123: 104738.
[30] Lei Chen, Zhenxue Jiang, Keyu Liu, Wei Yang*, Shu Jiang, Jingqiang Tan, Investigation of fractal characteristics and methane adsoorption capacity of the Upper Triassic Lacustrine shale in the Sichuan Basin, Southwest China. Fractals, 2019, 27 (1): 1940011.
[31] Lei Chen, Zhenxue Jiang, Shu Jiang, Keyu Liu, Wei Yang*, Jingqiang Tan, Fenglin Gao, Nanopore Structure and Fractal Characteristics of Lacustrine Shale: Implications for Shale Gas Storage and Production Potential. Nanomaterials, 2019, 9: 390.
[32] 宋岩, 罗群, 姜振学, 杨威, 刘冬冬. 中国中西部致密油富集机理及其主控因素. 石油勘探与开发, 2021, 48 (2): 1-13.
[33] 张子亚, 郭召杰, 宋岩, 杨威, 刘达东, 程翔. 走滑断裂的生长地层识别与应用:以塔里木盆地西北缘皮羌断裂为例. 西北地质, 2025, 58 (3): 1-10.
[34] 杨威*, 蔡剑锋, 王乾右, 崔政劼, 崔哲, 徐亮, 李兰, 顾小敏, 王井伶. 五峰—龙马溪组海相页岩生—储耦合演化及对页岩气富集的控制效应. 石油科学通报, 2020, 5 (2): 148-160.
[35] 杨威*, 姜振学, 郭召杰, Gloria Heilbronn. 塔拉斯—费尔干纳断裂系中-中新世活动与深层油气成藏. 吉林大学学报 (地球科学版), 2015, 45 (1): 1515-18.
[36] 杨威*, 郭召杰, 姜振学, Gloria Heilbronn, 张晨, 王思维. 西南天山前陆盆地侏罗纪‒��������白垩纪盆山格局—来自碎屑锆石年代学的证据. 大地构造与成矿学, 2017, 41 (3): 533-550.
[37] 郑忠文, 王乾右, 葛云锦, 杨威*, 宋岩, 姜振学, 刘聃, 左如斯. 鄂尔多斯鹏西部延长组长8~长6段致密储层微观孔隙特征差异. 科学技术与工程, 2018, 18 (15): 1671-1815.
[38] 姜振学, 李卓, 唐相路, 纪文明, 杨威*, 原圆, 王朋飞. 页岩气成藏富集主控因素研究及目标优选. 吉林大学学报 (地球科学版), 2015, 45 (1): 1515-32.
[39] 王乾右, 杨威*, 左如斯, 姜振学, 李耀华, 刘聃, 崔政劼, 蔡剑锋, 崔哲, 顾小敏, 李兰, 徐亮. 联合微米CT和高压压汞的致密储层孔喉网络结构差异定量评价. 能源与环保, 2019, 41 (7): 80-86.
[40] 左如斯, 杨威*, 王乾右, 姜振学, 陈冬霞. 川西坳陷须家河组陆相页岩岩相控制下的微观储集特征. 特种油气藏, 2019, 26 (6): 22-28.
[41] 崔哲, 杨威*, 王乾右, 左如斯, 蔡剑锋, 崔政劼, 徐亮, 李兰, 顾小敏. 顶底板封闭性对四川盆地及周缘五峰组—龙马溪组页岩气差异富集的影响. 海相油气地质, 2020, 25 (3): 243-252.
[42] 王乾右, 杨威*, 葛云锦, 宋岩, 姜振学, 罗群, 左如斯, 李耀华, 刘聃, 张帆, 王耀华, 鲁建康. 不同沉积微相致密储层的成岩响应及其控储机理—以鄂尔多斯盆地西部延长组为例. 沉积学报, 2020, 39 (4): 841-862.
[43] 鲁建康, 郝彬, 李程善, 王维斌, 王乾右, 杨威*. 基于流动单元分类的致密砂岩储层渗透率预测. 石油科学通报, 2021, 6 (3): 369-379.
[44] 赵明珠, 杨威*, 王耀华, 鲁建康, 徐亮, 李兰, 李兴宇, 姚琳洁. 陆相页岩储层连通孔隙系统分布与形成机制—以川西坳陷上三叠统须家河组为例. 石油实验地质, 2022, 44 (1): 170-179.
[45] 徐亮, 杨威*, 姜振学, 陈冬霞, 王耀华, 鲁建康, 赵明珠, 李兰. 川西坳陷须家河组页岩有机孔演化及成因. 石油与天然气地质, 2022, 43 (2): 325-340.
[46] 王耀华, 甘军, 梁刚, 李兴, 杨威*, 高之业, 熊书苓. 断裂-砂体-潜山复式天然气输导体系及成藏模式—以琼东南盆地深水区为例. 断块油气田, 2022, 29 (3): 319-324.
[47] 张子隆, 杨威*, 王千军, 商丰凯, 周健, 宋健, 陈林, 王耀华, 罗群. 走滑断裂不同结构单元输导、运聚特性及其差异控藏模式. 断块油气田, 2023, 30 (3): 424-433.
[48] 魏兆胜, 覃建华, 李映艳, 李晓, 侯昊东, 赵明珠, 杨威*. 混积页岩油储层成岩相特征及其成储意义—以吉木萨尔凹陷芦草沟组为例. 中国石油勘探, 2025, 29 (6): 99-115.
[49] 杨威*, 缪克, 候昊东, 姜振学, 林瑞钦, 赵福平, 杜威, 石富伦, 丁谋. 浅层海相页岩气储层孔-缝系统成因及其“甜窗”预测意义—来自动静态成藏要素的耦合制约. 石油实验地质, 2026, 30 (3): 424-433.
代表性发明专利:
[1] 杨威, 等. 一种便携式岩石抗剪强度测试装置及方法.发明专利, 授权: ZL 201710106746.4
[2] 杨威, 等. 一种陆相致密储层纹层结构精确分类取样的装置及方法.发明专利, 授权: ZL 201910150257.8
[3] 杨威, 等. 一种野外砂泥岩鉴别装置及方法. 发明专利, 授权: ZL 2019 10826075.8.
[4] 杨威, 等. 油气水运移模拟装置及方法. 发明专利, 授权: ZL 201910370742.6.
[5] 杨威, 等. 页岩气储层测井孔隙度快速预测方法及系统. 发明专利, 授权: ZL 201910869852.7.
[6] 杨威, 等. 利用微波快速制备不同含水饱和度页岩样品的设备. 发明专利, 授权: ZL 201611061858.4.
[7] 杨威, 等. 利用微波快速制备不同含水饱和度页岩样品的设备.实用新型专利, 授权: ZL 201621281028.8.
[8] 杨威, 等. 岩芯钻取装置及岩芯钻取方法. 发明专利, 授权: ZL 202210360380.4.
[9] 杨威, 等. 野外岩芯风化层自动识别与剥离装置及方法. 发明专利, 授权: ZL202210174727.6.
科研奖励:
非常规油气储层成岩—成孔机制与储集能力定量评价关键技术及应用,中国发明协会,发明创业奖创新奖一等奖,2022
南方海相页岩成储-成藏机理及评价技术与应用,中国石油和化工自动化应用协会,科技进步一等奖,2020
中国西部陆相致密油成藏富集机理及其应用成效,中国石油与化学工业联合会,科技进步一等奖,2019
川南五峰-龙马溪组页岩气富集机理及评价关键技术,中关村绿色矿山产业联盟,科技进步一等奖,2021
海相页岩气富集机理与评价关键技术及应用成效,中国石油与化学工业联合会,科技进步一等奖,2023
科研项目:
(1) 国家自然科学基金,咸化湖混积凝灰质页岩层系孔-缝连通特性及其对界面润湿效应和可动油分布的控制, 2022~2025, 主持
(2) 国家自然科学基金, 准噶尔盆地南缘中新世湖相叠层石特征及其构造—环境意义, 2017~2019, 结题, 主持
(3) 中石油战略合作科技专项任务, 页岩油甜点成岩储集相展布及其与流体性质多尺度耦合效应, 2020~2024, 主持
(4) “十四五”国家科技重大专项任务, “南羌塘重点探区有利区评价与目标优选”专题“中生界典型古油藏解剖与成藏改造过程”, 2025~2030, 主持
(5) “十三五”国家科技重大专项任务, “五峰-龙马溪组富有机质页岩储层精细描述与页岩气成藏机理”专题“页岩气成藏要素匹配及综合评价”, 2017~2020, 参与(研究骨干)
(6) “十三五”国家科技重大专项任务, “不同类型页岩气生成机理与富集规律”专题“中生界陆相不同盆地类型页岩气赋存方式与富集规律研究”, 2017~2020, 参与(研究骨干)
