»姓名:唐明明 | »系属:资源系 |
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»学位:博士 | »职称:副教授 | |
»专业:地质资源与地质工程 | »导师类别:博导 | |
»电子邮箱:tangmingming@upc.edu.cn | ||
»联系电话:0532-86983091/QQ760291782 | ||
»通讯地址:山东省青岛市黄岛区长江西路66号 | ||
»概况 | ||
◎研究方向 人工智能与储层沉积学 沉积动力学(数值和水槽) 储层智能建模与油藏模拟 智能岩心与微观渗流模拟 油藏多尺度裂缝建模研究 ◎教育经历 2004年9月-2008年6月中国海洋大学物理学专业,获学士学位; 2010年6月获中国海洋大学矿产普查与勘探硕士学位; 2013年6月获北京师范大学自然资源博士学位。 ◎工作经历 2013年7月至今,kaiyun体育登录网页入口(华东)任教。 2016年12月至2018年1月在美国Texas A&M University做访问学者。 ◎指导研究生及博士后 累计指导和协助指导硕士、博士研究生30余名。 ◎承担项目 1.主要纵向科研项目: (1)基于深度学习的页岩全息简约数字岩心重构和气水流动规律研究,国家自然科学基金面上项目,2021-2024(主持). (2)变饱和带中地下水水位波动条件下氧气的运移机理与数值模拟研究,国家自然科学基金面上项目(合作),2020-2023. (3)页岩气储层裂缝多尺度协同建模研究,国家自然科学基金青年项目,2015-2017(主持). (4)基于数字岩心技术的页岩微观应力-渗流耦合机理研究,山东省自然科学基金面上项目,2020-2023(主持). (5)低频电场加热储层开采页岩油模拟研究——以渤海湾盆地济阳坳陷沙河街组为例,国家自然科学基金面上项目,2019-2023(参与). (6)页岩基质孔隙水微观赋存及对页岩气产出的控制机理,国家自然科学基金面上项目,2019-2023(参与). (5)页岩储层微观裂缝扩展机理及多尺度建模研究,山东自然科学基金联合项目,2015-2017(主持). (6)砂砾岩致密油示范区有利储层优选及建模,国家科技重大专项,2017-2020. (7)致密油充注聚集机理与模式研究,国家科技重大专项,2017-2020(参与). (8)构造演化过程中泥页岩层变形作用及其富气机理研究,国家自然科学基金,2016-2020(参与). (9)水力压裂缝网形成机理基础研究和离散元数值模拟,自主创新基金,2018-2020(参与). (10)页岩气储层裂缝多尺度协同建模研究,国家自然科学基金,2015-2017。 (11)增强型地热系统THM耦合与岩体破裂演化研究,自主创新基金,2016-2018(参与). (12)N2端基配合物在MOF分子反应器内的原位组装及高选择性甲烷/氮气分离研究,国家自然科学基金,2015-2017(参与). (13)页岩储层微观裂缝扩展机理分析及多尺度建模研究,山东省自然科学基金,2014-2017(主持). (14)复合砂体中单一河道的刻画及河道间砂体连通性的定量表征,山东省自然科学基金,2014-2016(参与). (15)多尺度致密砂岩储层裂缝建模及其与多相流耦合技术研究,kaiyun体育登录网页入口(华东)人才引进基金,2014-2015(主持). 2.主要横向科研项目: (1)致密砂岩气藏一体化压裂地质优化设计软件研发服务合同,中海油能源发展股份有限公司,2023-2024(主持). (2)亚马尔白垩系下部地震资料精细解释,中国石油天然气股份有限公司勘探开发研究院,2023-2024(主持). (3)安第斯项目MarSur地区储层精细表征与新井潜力分析,中国石油天然气股份有限公司勘探开发研究院,2023-2024(主持). (4)工技公司含水致密气藏产水机理及气水同产下的指标预测研究服务,中海油能源发展股份有限公司,2023-2024(主持). (5)安第斯项目T区块西部油藏精细描述与新井潜力分析,中国石油天然气股份有限公司勘探开发研究院,2022-2023(主持). (6)亚马尔白垩系上部层系地震资料精细解释,中国石油天然气股份有限公司勘探开发研究院,2022-2023(主持). (6)海陆过渡相砂岩层序地层及沉积特征研究,中国石油天然气股份有限公司勘探开发研究院,2022-2023(主持). (7)亚马尔侏罗系沉积动力学及砂体特征研究, 中石油勘探开发研究院,2020-2021(主持). (8)安第斯项目 T 区块中部 LU 层储层描述和地质建模,中石油勘探开发研究院,2020-2021(主持). (9)安第斯项目JohannaEast油田M1层沉积动力学模拟及储层评价,中石油勘探开发研究院,2019-2020(主持). (10)南川复杂构造带页岩气勘探开发关键技术,中国石油化工股份有限公司,2019-2020(参与). (11)安第斯T区块西部潮控沉积模式和储层精细描述,中石油勘探开发研究院,2018-2019(主持). (12)龙虎泡-齐家地区高台子油层致密油储层微观特征及渗流机理研究,大庆油田第九采油厂,2017-2018(主持)。 (13)基于数字岩心致密油藏能量补充方法研究,大庆油田第九采油厂,2016-2017(主持). (14)龙26、齐平2区块致密油渗流机理及产能预测方法研究,大庆油田第九采油厂,2015-2016(主持). (15)安第斯项目JohannaEast和AliceWest沉积微相和储层精细描述,中石油勘探开发研究院,2016-2017(主持). (16)安第斯项目Dorine-Fanny油田沉积微相和储层精细描述,中石油勘探开发研究院,2014-2015(主持). (17)红岗北水平井开发目标区精细地质建模及数值,吉林油田勘探开发研究院,2013-2014(主持). (18)麦凯河油砂区块层序地层及沉积体系研究,中石油勘探开发研究院,2013-2014(主持). ◎获奖情况 (1)砂岩油田持续效益开发关键技术与应用,中国商业联合会,省部级二等奖,2023年. (2)页岩/致密油气富集条件与“甜点”评价关键技术及应用,中国石油和化学工业联合会,省部级一等奖,2022年. (3)厄瓜多尔低幅度砂岩油藏特高含水期高效开发关键技术及应用,中国石油和化工自动化应用协会,二等奖,2022年. (4)有机质成烃动力学理论及应用,教育部,省部级二等奖,2019年. (5)中国页岩油富集条件、资源潜力评价关键技术及应用,教育部,省部级二等奖,2018年. (6)深部复杂岩性油藏有效识别技术与精细勘探方法,山东省人民政府,科技进步二等奖,“深部复杂岩性油藏有效识别技术与精细勘探方法”,2011年. ◎论文 发表学术论文46篇,其中SCI、EI收录30余篇。 (1)Mingming Tang; Boyang Huang; Rong Xie; Zhenzhen Chen. A Seismic Inversion Method Based on Multi-Scale Super-Asymmetric Cycle-JNet Network. Applied Sciences, 2024,14(1):1~12. (SCI indexed). (2)唐佳凡,唐明明*,卢双舫,刘雪萍,张克鑫,何涛华,韩迪.基于耦合沉积动力学模拟与多点地质统计学方法的河口湾储层三维建模.地球科学, 2024,49 (1):174~188. (EI indexed, 通讯作者). (3)Qian Zhang, Tang Mingming*, Shuangfang Lu, Xueping Liu, Sichen Xiong. Effects of Mud Supply and Hydrodynamic Conditions on the Sedimentary Distribution of Estuaries: Insights from Sediment Dynamic Numerical Simulation. Journal of Marine Science and Engineering. 2023,11(1),1-18 (SCI indexed, 通讯作者). (4)Huifang Ma; Mingming Tang*; Hao Ren; Wenyue Guo; Kexin Zhang; Yefei Chen; Wanshun Jiang; Ying Wang; Bin Wu. A novel frequency-dependent lattice Boltzmann model with a single force term for electromagnetic wave propagation in dispersive media.Scientific Reports, 2023,13:11182. (SCI indexed, 通讯作者) (5)唐明明, 孔令沂. 分流河道型致密砂岩储层地质工程一体化研究 ——以松辽盆地北部长垣南葡萄花油田扶余油层为例. kaiyun体育登录网页入口学报(自然科学版), 2023 (已接收待刊出, EI indexed Journal). (6)Mingming Tang; Sichen Xiong; Qian Zhang; Ruifeng Hong; Chenyang Peng; Rone Xie. Study on Distribution Law of Sand Bodies and Interlayers in Shelf Type Tidal Delta Based on Numerical Simulation of Sedimentary Dynamics. Journal of Marine Science and Engineering. 2024 (Accepted, SCI indexed Journal). (7)Yefei Chen; Jinxiu Yang; Muhammad Tailha, Ying Xia, Mingming Tang*, Rong Xie. Sequence Stratigraphy of the Jurassic Strata and Occurrences of Potential Sandstone Reservoirs in the ST Gas Field, Northern West Siberia Basin.Applied Sciences, 2023,13:1~15. (SCI indexed, 通讯作者) (8)Chaoqian Zhang; Yongle Hu; Suwei Wu; Mingming Tang*; Kexin Zhang; Heping Chen; Xuepeng Wan; Wensong Huang; Di Han; Zheng Meng. Analysis of fine grained sand and shale sedimentary characteristics in estuary based on sediment dynamics.Frontiers in Earth Science, 2023,10:963290. (SCI indexed, 通讯作者) (9)Huifang Ma; Bin Wu; Liping Song; Hao Ren; Wanshun Jiang; Wenyue Guo; Mingming Tang*. A New Lattice Boltzmann Scheme for Photonic Bandgap and Defect Mode Simulation in One-Dimensional Plasma Photonic Crystals.Photonics, 2022,9(7):1~15. (SCI indexed, 通讯作者) (10)Huifang Ma; Bin Wu; Ying Wang; Hao Ren; Wanshun Jiang; Mingming Tang*;Wenyue Guo.A Novel Lattice Boltzmann Scheme with Single Extended Force Term for Electromagnetic Wave Propagating in One-Dimensional Plasma Medium.Electronics, 2022,11(6):882. (SCI indexed, 通讯作者) (11)刘雪萍, 卢双舫, 唐明明, 孙东权, 唐佳凡, 张克鑫, 何涛华, 齐宁, 卢明月. 河流-潮汐耦合控制下河口湾坝体沉积动力学数值模拟. 地球科学, 2021 46(8): 2944-2957. (EI indexed). (12)Mingming Tang; Shuangfang Lu; Ying Xin; Hongkun Tan; Xueping Liu; Xian Shi; Hongliang Zhang. Displacement of tight sandstone based on lattice Boltzmann method. Journal of China University of Petroleum, 2020,44:10~18. (EI indexed). (13)Yixin Cao; Mingming Tang; Qian Zhang; Jiafan Tang; Shuangfang Lu. Dynamic capillary pressure analysis of tight sandstone based on digital rock model. Capillarity, 2020,3:28~35. (14)Mingming Tang; Hongbin Zhan; Huifang Ma; Shuangfang Lu. Upscaling of dynamic capillary pressure of two-phase flow in sandstone. Water Resources Research,2019,55:426~443. (SCI indexed) (15)Mingming Tang; Hongbin Zhan; Shuangfang Lu; Huifang Ma; Hongkun Tan. Pore-scale CO2 displacement simulation based on the three fluid phase lattice Boltzmann method. Energy & Fules, 2019,33: 10039~10055. (SCI indexed) (16)Mingming Tang; Shuangfang Lu; Kexin Zhang; Xiangdong Yin; Huifang Ma; Xian Shi; Xueping Liu; Changhong Chu. A three dimensional high-resolution reservoir model of Napo formation in Oriente Basin, Ecuador, integrating sediment dynamic simulation and geostatistics. Marine and Petroleum Geology, 2019,110:240~253. (SCI indexed). (17)Mingming Tang; Kexin Zhang; Jixin Huang; Shuangfang Lu. Facies and the architecture of estuarine tidal bar in the lower cretaceous Mcmurray Formation, Central Athabasca oil sands, Alberta, Canada. Energies, 12,1769. (SCI indexed). (18)Mingming Tang ; Shuangfang Lu; Hongbin Zhan; Guo Wenjie; Huifang Ma.The effect of a microscale fracture on dynamic capillary pressure oftwo phase flow in porous media, Advances in Water Resources,2018.1.31, 113: 272~284 (SCI) (19)Mingming Tang ; Zhao Hongyu; Ma Huifang; Lu Shuangfang ; Chen Yuming. Study on CO2 huff-n-puff of horizontal wells in continental tight oilreservoirs, Fuel, 2017.1.15, 188(15): 140~154 (SCI) (20)Mingming Tang ; Jinliang Zhang. Facture Modeling Research of Tight OilReservoir Based on Fracture Propagation Inversion Model, Journalof Southwest Petroleum University(Science & TechnologyEdition), 2017.2.1, 39(1): 63~72 (21)Ailing Yang, Mingming Tang. Geochemistry Features of Oil-Gas Inclusionsand UV-VIS Micro-spectra Analysis of Single Oil-Gas Inclusions inBai 95 Oil Well,Journalof Geology & Geophysics,2017,6(1-10), (22)初昌宏,唐明明,等.潮控河口湾环境下的高分辨率层序地层研究.内蒙古师范大学学报.2018年3-4期(录用,通信作者). (23)Mingming Tang ; Shuangfang Lu; Hongru Liang; Bihui Yan; Huifang Ma;ShanShen. Numerical Modelling and Simulation of Seepage in TightSandstone Based on Parallel Lattice Boltzmann Method, ACTAGEOLOGICA SINICA(English edition), 2015.6.1, 89(1): 412~414 . (24)Mingming Tang ; Shuangfang Lu ; Hongru Liang; Bihui Yan; Shen Shan. Study on the Fracturing Parameters and Productivity of Horizontal Wells,ACTA GEOLOGICA SINICA(English edition), 2015.6.1, 89(1): 321~323. (25)Mingming Tang; Jinliang Zhang. Fracture modelling based on the stochastic extended finite element method, Petroleum Geoscience, 2013.10.16,19 (4): 343~355 (SCI Indexed). (26)Mingming Tang ; Jinliang Zhang. A New Approach to Fracture Modeling Based on the Extended Finite Element Simulation Method and KrigingMethod, Petroleum Science and Technology, 2012.9.4, 30: 2266~2262(SCI Indexed) (27)Tang Mingming, Zhang Jinliang. Fracture modeling and application based on fracture mechanics. SPE 131305.(SPE&EI indexed) (28)Tang Mingming, Zhang Jinliang. A new approach to fracture modeling based on extended finite element simulation method and krigingmethod. Petroleum science and technology. (SCI indexed journal). (29)Tang Mingming, Zhang Jinliang. Fracture modeling based on the Stochastic Extended Finite Element method. Petroleum geosciences.(SCI indexed journal) (30)Tang Mingming, Zhang Jinliang. A multiple adaptive wavelet recurrent neural network model to analyze crude oil prices. Journal of economics and business. 2012,64:275-286.(AEA indexed) (31)Tang Mingming, Yang Ailing, Zhang Jinliang. An optimal loss curve of a step index mono-mode fiber. International Pre-Olympic Workshop on Modeling and Simulation, 2008, 8. Proceedings of first international conference on modeling and simulation 2008:236~240.(EI indexed) (32)Tang Mingming, Zhang Jinliang, Liu Baohua. Effects of thin meander dot dam inter-bed on efficiency and distribution of CO2 injectionflow. International Conference on Future Computers and Communication 2009:482~453.(EI indexed) (33)Tang Mingming, Zhang Jinliang, Tao Mingxin. Effects Simulation ofInternational Natural Gas Prices on Crude Oil Prices Based on the WBNNK Model. Sixth International Conference on Natural Computation2010:1643~1648.(EI indexed) (34)Tang Mingming,YangAiling,ZhangJinliang. Fringe Mending Based on Wavelet Transformation and Maximum Extraction on Self-resemble of Interference Fringes. ActaPhotonica Sinica, 2008, 37(9):1896~1899.(EI indexed) (35)Tang Mingming, Zhang Jinliang. Raman spectra of hydrocarbon in returned drilling fluid using co-focal laser Raman microscopy. Advanced materials research.(EI indexed) (36)Yang Ailing, Tang Mingming. Based on MDCE to simulate bell-shaped interferograms produced by a capillary tube interferometer. Journal of physics. 2011,276:1-5.(SCI & EI indexed) (37)Yang Ailing, Tang Mingming. Investigation of the Ultraviolet visible micro fluorescence spectra chromaticity of single oil inclusion. Photonica Sinica Year,2011,3:0318002-1.(SCI & EI indexed) (38)Ren Weiwei, Tang Mingming. Visible analysis of fluorescence characteristic of crude oil based on chromaticityinversion.CINIC,2010: 21-24.(EI indexed) (39)Zhang Jinliang, Tang Mingming, Tao Mingxin. Effects simulation of international gold prices on crude oil prices based on the WBNNK Model. International Conference on Future Computers and Communication 2009:501~505.(EI indexed) (40)Zhang Jinliang, Tang Mingming,Tao Mingxin. Based on wavelet-boltzman neural network and kernel density estimate, predict internationalcrude oil prices. International Conference on Future Computer and Communication 2009:150~156.(EI indexed) (41)Zhang Jinliang, Tang Mingming, Tao Mingxin. Effects simulation of international gold prices on crude oil prices based on the WBNNK model. International Colloquium on Computing, Communication, Control, and Management 2009:459~464.(EI indexed) (42)Yang Ailing, Tang Mingming, Interpolation calculation of an optical path surface based on Delaunay triangulation and sector boundary algorithm. Proceeding of the First International Conference on Modeling and Simulation-Modeling and Simulation in Electronics, Computing, and Bio-Medicine 2008: 86~90.(EI indexed) (43)Yang Ailing, Tang Mingming, Guo Xing. Interferograms of plastic step-index fiber illuminated by a focused laser sheet of light.The National Symposium on the Optical Properties of Condensed Matter 2007:35~40.(EI indexed) (44)Li Cunlei, Ren Weiwei, Tang Mingming. Preliminary study on gravity flow depositional system based on fluid properties conversion theory. Geological review. 2012,3:285-296.(EI indexed) (45)Yang Ailing, Zhang Jinliang, Tang Mingming. Micro-spectroscopy system using a common inverted microscope to measure the UV-VIS spectra of a micro-area. The International Society for Optical Engineering: 200~205,2009 .(EI indexed) (46)Yang Ailing, Zhang Jinliang, Tang Mingming. Measurement of Refractive Indices of Semi-transparent Oils Using the LFI Method. Acta Photonica Sinca, 2009,38(3): 699~703(EI indexed). ◎专利 第一位授权发明专利8项,其中美国发明专利授权2项,中国发明专利授权6项: 美国发明专利: (1)Isotope nuclear magnetic method for analyzing ineffective water absorption of rock pores, NO:US-2019-0257733-A1 (授权) (2)Method for reconstruction pore structure of core with micro-CT, NO:US-2019-0251715-A1 (授权) 中国发明专利: (1)岩心动态毛管压力系数实验测试方法及岩心清洗装置和清洗方法,专利号:ZL201810398964.4 (授权) (2)分析岩石孔隙无效吸水量的同位素核磁方法,专利号:ZL20181050383.0(授权) (3)岩心微米CT孔隙结构重构方法,专利号:ZL201810397176.3(授权) (4)基于岩心扫描的富泥披储层泥质含量计算方法,专利号:ZL201510646484.1(授权) (5)一种海相储层泥披延展长度的预测方法,专利号:ZL201510161926.3(授权) (6)一种岩石纳米CT的孔隙标定方法,专利号:ZL201510161929.7(授权) ◎软件著作权 (1)储层沉积动力学模拟系统软件,2022SR1348224, 原始取得,全部权利,2022.3.18 (2)页岩数字岩心智能重构系统软件,2022SR1348238, 原始取得,全部权利,2022.1.14 (3)海相沉积动力学模拟系统软件,2020SR0707833, 原始取得,全部权利,2020.3.26 (4)智能数字岩心重构模拟系统软件,2020SR0709437, 原始取得,全部权利,2020.3.12 (5)储层微观孔隙裂缝流动模拟系统软件,2017SR530230, 原始取得,全部权利,2016.6.1 (6)储层井位自动优化系统软件,2020SR0706179, 原始取得,全部权利,2020.3.31 (7)页岩多尺度裂缝模拟系统软件,2017SR566500, 原始取得,全部权利,2016.6.1 (8)页岩多尺度裂缝模拟系统软件,2017SR566500, 原始取得,全部权利,2016.6.1 (9)包裹体油气成藏分析系统软件(PIS/V1.0),原始取得,全部权利,登记号:2009SR036603,2009.9 (10)国际油价预测分析系统软件(COPS/V1.0),原始取得,全部权利,登记号:2009SR036602,2009.9 (11)自适应油田开发分析系统软件(PAD/V1.0), 原始取得,全部权利,登记号:2009SR035105,2009.8 (12)油藏动态分析系统(PRDAS/V1.0),原始取得,全部权利,登记号:2009SR02965,2009.1 (13)储层随机建模系统软件(RSM/V1.0),原始取得,全部权利,登记号:2012SR038292,2011.7 (14)储层地震数据体属性处理软件(RSPA/V1.0),原始取得,全部权利,登记号:2012SR038170,2012.5 (15)储层扩展有限元网格生成系统软件(GESS/V1.0),原始取得,全部权利,登记号:2012SR038296,2012.5. (16)储层角点网格多属性读取系统软件PRDAS/V1.0), 原始取得,全部权利,登记号:2012SR038299,012.5. (17)储层扩展有限元模型可视化软件(REFM/V1.0),原始取得,全部权利,登记号:2012SR038301,2012.5 (18)裂缝建模系统软件(FRESS/V1.0),原始取得,全部权利,登记号:2011SR053600,2012.5 ◎学术专著 (1)潮控沉积体系储层定量表征技术研究,张克鑫、唐明明和张超前,2024年 (CIP:2024-051867). (2)沉积动力学,唐明明,2022年 (CIP:2022-117791). (3)储层裂缝建模与多相流耦合理论研究,唐明明,2019年 (CIP:2019-032951).
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