◎学习与工作经历 个人简介: 孙海,男,1984年10月生,山东临朐人,博士,教授,国家优青获得者。主要从事非常规油气藏渗流机理、多孔介质中微观流动模拟及多尺度流动模拟等方面的科研工作,近年来承担国家自然科学基金、国家油气重大专项等省部级以上科研课题10余项;发表论文100余篇,其中SCI 收录论文70余篇,论文总被引2600余次,H因子30;授权发明专利、软件著作权20项;担任SCI期刊编委及30余个国际期刊审稿人;获教育部自然科学一等奖1项、省部级科技进步二等奖3项。
学习与工作经历: 2003.09-2007.07,爱游戏app官方入口
(华东),信息与计算科学专业学士; 2007.09-2013.12,爱游戏app官方入口
(华东),油气田开发工程博士; 2014.01-2016.08,爱游戏app官方入口
(华东),地质学博士后; 2014.05-2014.11,沙特KAUST大学(King Abdullah University of Science and Technology)访问学者; 2016.09-2016.12:爱游戏app官方入口
(华东)石油工程学院油藏工程系,讲师; 2017.01-2021.12:爱游戏app官方入口
(华东)石油工程学院油藏工程系,副教授; 2020.02-2021.01:美国休斯敦大学国家公派访问学者; 2022.01-至今:爱游戏app官方入口
(华东)石油工程学院油气藏工程研究所,教授。
◎研究方向 (1) 页岩油气藏、致密油气藏渗流机理及多尺度流动数值模拟; (2) 微观流动模拟方法与理论(数字岩心、LBM、直接求解N-S方程、孔隙网络模型); (3) 尺度升级方法研究(均化理论、体积平均法) (4) 基于机器学习的油藏模拟及产能预测 (5) 数值模拟软件研发 博士招生专业:082002油气田开发工程、0857资源与环境(085706石油与天然气工程); 硕士招生专业:082002油气田开发工程、0857资源与环境(085706石油与天然气工程); 欢迎具有石油工程、计算机、物理、数学、力学等相关专业背景的学生报考研究生!
◎学术兼职 (1)美国石油工程师协会(SPE)会员 (2)国际多孔介质协会(InterPore)会员 (3)国家自然科学基金项目评议人 (4)SCI期刊Energies 编委 (5)Fuel, Energy & Fuel、Environmental Earth Sciences, Transport in Porous Media, Petroleum Science, Journal of Petroleum Science and Engineering等期刊审稿人
◎主讲课程 《高等渗流力学》
◎指导研究生 指导研究生:张文娟、张敏、宋文辉、王东英、王振、樊伟鹏、段炼等。
◎承担科研课题 1. 国家自然科学基金(优秀青年基金项目)“多尺度油气渗流力学”(项目编号:52122402),2022.1~2024.12. 2. 国家自然科学基金(青年科学基金项目)“微纳尺度多孔介质中气体运移机理研究” (项目编号:51504276),2016.1~2018.1. 3. 中国博士后基金特别资助项目“页岩微纳尺度多相流运移机制及其尺度升级研究”(项目编号:2015T80762),2015.1~2015.1. 4. 中国博士后基金面上资助项目“页岩气藏多尺度流动模拟研究”(项目编号:2014M551989),2014.1~2015.12. 5. 山东省自然科学基金“页岩气藏微纳尺度基质孔隙气体运移机理研究”(项目编号:ZR2014EEP018,2014.7~2016.12. 6. 华北油田横向课题,煤层气微观流动特征实验研究,2018.7-2019.9,负责人; 7. 青岛市博士后应用研究项目资助“致密砂岩油流动机理及动用条件研究”,2014.1-2015.12.. 8. 中石化勘探开发研究院横向课题,页岩油孔缝流动规律及单井流动模拟程序测试,2018.10-2019.9; 9. 中石化勘探开发研究院横向课题,页岩油三维数字岩心构建及微观流动模拟程序测试,2018.10-2019.9; 10. 中石化勘探开发研究院横向课题,彭水地区页岩气吸附/解吸实验及规律研究,2017.07-2018.10; 11. 长庆油田横向课题,致密油储层注水吞吐机理可视化研究,2018.6-2019.5; 12. 校人才引进课题,考虑微观运移机制的页岩气藏宏观数值模拟研究; 13. 校自主创新项目,页岩油储层多尺度数字岩心构建及流动机制研究,2017.01-2019.12; 14. 国家自然科学基金重大项目“页岩油气多尺度渗流特征与开采理论” (项目编号:51490654),2015.1~2019.12,第二负责人/技术首席; 15. 国家自然科学基金重点项目“页岩气藏开采基础研究”(项目编号:51234007),2013.1~2017.12,第二负责人/技术首席; 16. 国家油气重大专项专题“基于数字岩心的页岩气藏微观流动模拟及产能评价方法研究”,2016.1-2019.12,第二负责人/技术首席; 17. 国家油气重大专项专题“考虑微尺度流动机制的页岩气藏宏观数值模拟研究”,2016.1-2019.12,第二负责人/技术首席; 18. 中海油研究总院横向课题 “海外页岩油气产能评价技术与方法研究-页岩油气特殊机理模型及其对产能的影响分析”,2016.8-2018.3; 19. 中石化勘探开发研究院横向项目“致密砂岩储层数学模型建立及数值求解研究, 2014.7-2015.12。 20. 中石化页岩油重点实验室开放课题,页岩气藏复杂多孔介质气水两相流动特征研究,2017.07-2018.08。 21. 中石化页岩油研发中心开放课题,页岩气藏复杂多孔介质气水两相流动特征研究,2017.11-2018.10。
◎获奖情况 1. 非常规油气藏多尺度渗流理论与方法, 教育部自然科学一等奖,省部级,2018,排名第2; 2. 页岩油气藏多尺度多相多组分数值模拟与高效开发技术及应用,中国石油和化学工业联合会科技进步二等奖,省级,2020,排名第1; 3. 非常规油气开发数字岩心技术及应用,中国石油和化学工业联合会科技进步二等奖,省级,2014,排名第3; 4. 基于数字岩心技术的微观渗流理论方法及其应用,青岛市科技进步奖二等奖,省级,2014,排名第3。
◎荣誉称号 1. 国家优秀青年科学基金获得者 2.山东省优秀博士学位论文获得者 3 第五届全国石油工程设计大赛优秀指导教师
◎论文 近年来在《International Journal of Heat and Mass Transfer》、《Fuel》、《International Journal of Greenhouse Gas Control》、《Energy》、《中国科学: 物理学 力学 天文学》、《石油学报》等国内外权威期刊发表论文100余篇(其中SCI收录70篇,EI收录59篇,ESI高被引论文3篇),成果受到郭尚平、陶文铨、何雅玲、李根生、John Chen等国内外院士的正面引用和高度评价,目前总他引2600余次,H因子30。部分论文如下: 1. Q. Zhu, W. Song, Y. Yang, X. Lu, L. Liu, Y. Zhang, H. Sun, J. Yao, An advection-diffusion-mechanical deformation integral model to predict coal matrix methane permeability combining digital rock physics with laboratory measurements, Applied Geochemistry, 126 (2021). 2. L. Zhang, C. Xu, Y. Guo, G. Zhu, S. Cai, X. Wang, W. Jing, H. Sun, Y. Yang, J. Yao, The Effect of Surface Roughness on Immiscible Displacement Using Pore Scale Simulation, Transport In Porous Media, (2021). 3. K. Zhang, X. Zhao, G. Chen, M. Zhao, J. Wang, C. Yao, H. Sun, J. Yao, W. Wang, G. Zhang, A double-model differential evolution for constrained waterflooding production optimization, Journal Of Petroleum Science And Engineering, 207 (2021). 4. X. Yu, Y. Wang, Y. Yang, K. Wang, J. Yao, K. Zhang, H. Sun, L. Zhang, W. Song, V. Lisitsa, Effect of particle content on relative permeabilities in water flooding, Journal Of Petroleum Science And Engineering, 205 (2021). 5. Y. Yang, S. Cai, J. Yao, J. Zhong, K. Zhang, W. Song, L. Zhang, H. Sun, V. Lisitsa, Pore-scale simulation of remaining oil distribution in 3D porous media affected by wettability and capillarity based on volume of fluid method, International Journal Of Multiphase Flow, 143 (2021). 6. X. Yan, H. Sun, Z. Huang, L. Liu, P. Wang, Q. Zhang, J. Yao, Hierarchical Modeling of Hydromechanical Coupling in Fractured Shale Gas Reservoirs with Multiple Porosity Scales, Energy & Fuels, 35(7) (2021) 5758-5776. 7. L. Xiao, G. Zhu, L. Zhang, J. Yao, H. Sun, Effects of pore-size disorder and wettability on forced imbibition in porous media, Journal Of Petroleum Science And Engineering, 201 (2021). 8. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, X. Yan, Assessment of extended Derjaguin-Landau-Verwey-Overbeek-based water film on multiphase transport behavior in shale microfractures, Aiche Journal, 67(4) (2021). 9. D. Wang, W. Song, J. Yao, Q. Yang, X. Yan, H. Sun, A FRACTAL MULTIPHASE TRANSPORT MODEL IN SHALE POROUS MEDIA WITH MULTIPLE TRANSPORT MECHANISMS AND ROCK-FLUID INTERACTION, Fractals-Complex Geometry Patterns And Scaling In Nature And Society, 29(2) (2021). 10. W. Song, J. Yao, K. Zhang, H. Sun, Y. Yang, The Impacts of Pore Structure and Relative Humidity on Gas Transport in Shale: A Numerical Study by the Image-Based Multi-scale Pore Network Model, Transport In Porous Media, (2021). 11. Y. Guo, L. Zhang, H. Sun, Y. Yang, Z. Xu, B. Bao, J. Yao, The Simulation of Liquid Flow in the Pore Network Model of Nanoporous Media, Journal Of Energy Resources Technology-Transactions Of the Asme, 143(3) (2021). 12. D. Fan, H. Sun, J. Yao, K. Zhang, X. Yan, Z. Sun, Well production forecasting based on ARIMA-LSTM model considering manual operations, Energy, 220 (2021). 13. Y. Bai, L. Liu, W. Fan, H. Sun, Z. Huang, J. Yao, Coupled compositional flow and geomechanics modeling of fractured shale oil reservoir with confined phase behavior, Journal Of Petroleum Science And Engineering, 196 (2021). 14. M. Zhao, K. Zhang, G. Chen, X. Zhao, C. Yao, H. Sun, Z. Huang, J. Yao, A surrogate-assisted multi-objective evolutionary algorithm with dimension-reduction for production optimization, Journal Of Petroleum Science And Engineering, 192 (2020). 15. Y. Yang, L. Tao, H. Yang, S. Iglauer, X. Wang, R. Askari, J. Yao, K. Zhang, L. Zhang, H. Sun, Stress Sensitivity of Fractured and Vuggy Carbonate: An X-Ray Computed Tomography Analysis, Journal Of Geophysical Research-Solid Earth, 125(3) (2020). 16. Y. Yang, J. Liu, J. Yao, J. Kou, Z. Li, T. Wu, K. Zhang, L. Zhang, H. Sun, Adsorption behaviors of shale oil in kerogen slit by molecular simulation, Chemical Engineering Journal, 387 (2020). 17. Y. Yang, Y. Li, J. Yao, S. Iglauer, L. Luquot, K. Zhang, H. Sun, L. Zhang, W. Song, Z. Wang, Dynamic Pore-Scale Dissolution by CO2-Saturated Brine in Carbonates: Impact of Homogeneous Versus Fractured Versus Vuggy Pore Structure, Water Resources Research, 56(4) (2020). 18. Z. Wang, W. Fan, H. Sun, J. Yao, G. Zhu, L. Zhang, Y. Yang, Multiscale flow simulation of shale oil considering hydro-thermal process, Applied Thermal Engineering, 177 (2020). 19. X. Wang, J. Yao, L. Gong, H. Sun, Y. Yang, W. Liu, Y. Li, Numerical study on particle transport and deposition in rough fractures, Oil & Gas Science And Technology-Revue D Ifp Energies Nouvelles, 75 (2020). 20. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, Multiphase flow model from pores to cores in organic-rich shale, Journal Of Petroleum Science And Engineering, 194 (2020). 21. W. Song, J. Yao, D. Wang, Y. Li, H. Sun, Y. Yang, Dynamic pore network modelling of real gas transport in shale nanopore structure, Journal Of Petroleum Science And Engineering, 184 (2020). 22. W. Song, J. Yao, Y. Li, H. Sun, D. Wang, X. Yan, GAS-WATER RELATIVE PERMEABILITIES FRACTAL MODEL IN DUAL-WETTABILITY MULTISCALE SHALE POROUS MEDIA DURING INJECTED WATER SPONTANEOUS IMBIBITION AND FLOW BACK PROCESS, Fractals-Complex Geometry Patterns And Scaling In Nature And Society, 28(7) (2020). 23. D. Fan, H. Sun, J. Yao, H. Zeng, X. Yan, Z. Sun, Pressure-Transient Performances of Fractured Horizontal Wells in the Compartmentalized Heterogeneous Unconventional Reservoirs, Energies, 13(19) (2020). 24. G. Chen, K. Zhang, X. Xue, L. Zhang, J. Yao, H. Sun, L. Fan, Y. Yang, Surrogate-assisted evolutionary algorithm with dimensionality reduction method for water flooding production optimization, Journal Of Petroleum Science And Engineering, 185 (2020). 25. L. Zhang, C. Zhang, K. Zhang, L. Zhang, J. Yao, H. Sun, Y. Yang, Pore-Scale Investigation of Methane Hydrate Dissociation Using the Lattice Boltzmann Method, Water Resources Research, 55(11) (2019) 8422-8444. 26. Weipeng Fan, Hai Sun*, Jun Yao*, Dongyan Fan, Kai Zhang. An upscaled transport model for shale gas considering multiple mechanisms and heterogeneity based on homogenization theory. Journal of Petroleum Science and Engineering, 2019,183:106392. 27. Wang, X., Yao, J., Gong, L.*, Sun, H*., Yang, Y., Zhang, L., ... & Liu, W. (2019). Numerical simulations of proppant deposition and transport characteristics in hydraulic fractures and fracture networks. Journal of Petroleum Science and Engineering, 2019,183:106401. 28. Yang Yongfei*,Wang Ke,Zhang Lei,Sun Hai,Zhang Kai,Ma Jingsheng. Pore-scale simulation of shale oil flow based on pore network model[J]. Fuel, 2019, 251: 683-692 29. Yao, J., Song, W., Wang, D., Sun, H., & Li, Y. (2019). Multi-scale pore network modelling of fluid mass transfer in nano-micro porous media. International Journal of Heat and Mass Transfer, 141, 156-167. 30. Song, W., Yao, J., Wang, D., Li, Y., Sun, H., Yang, Y., & Zhang, L. (2019). Nanoscale confined gas and water multiphase transport in nanoporous shale with dual surface wettability. Advances in Water Resources. https://doi.org/10.1016/j.advwatres.2019.06.012 31. Weipeng Fan, Hai Sun*, Jun Yao*, Dongyan Fan, Yongfei Yang ,Homogenization approach for liquid flow within shale system considering slip effect, Journal of Cleaner Production, 235(2019):146-157. 32. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, Image-based core-scale real gas apparent permeability from pore-scale experimental data in shale reservoirs, Fuel, 254 (2019) 115596. 33. Song Wenhui, Wang Dongying, Yao Jun, Li Yang, Sun Hai, Yang Yongfei, Zhang Lei, 2019. Multiscale image-based fractal characteristic of shale pore structure with implication to accurate prediction of gas permeability, Fuel, 241:522-532. 34. Zhang Liming, Deng Zekun, Zhang Kai, Long Tao, Desbordes Joshua Kwesi, Sun Hai, Yang Yongfei, 2019. Well-Placement Optimization in an Enhanced Geothermal System Based on the Fracture Continuum Method and 0-1 Programming, Energies, 12(4):709. 35. 樊冬艳,孙海*,姚军,严侠,张凯,张建光,张林.考虑热流固耦合干热岩储层热提取解析模型[J].爱游戏app官方入口
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◎专利 1. 孙海,段炼,张磊,姚军,刘磊,杨永飞,宋文辉. 基于孔径分布的页岩多相数字岩心的表面提取方法[P]. 山东省:CN113281237A,2021-08-20. 2. 孙海,段炼,张磊,姚军,刘磊,杨永飞,宋文辉. 基于二维图像的多矿物相数字岩心构建及孔隙类别区分方法[P]. 山东省:CN113281238A,2021-08-20. 3. 孙海,亓春慧,樊冬艳,姚军,严侠,张磊,杨永飞,刘磊. 一种页岩油藏全尺度升级方法[P]. 山东省:CN113250685A,2021-08-13. 4. 孙海,姚军,樊伟鹏,樊冬艳,张磊,杨永飞,张凯,朱光普,亓春慧. 一种高含水期油藏多尺度数值模拟方法[P]. 山东省:CN113255247A,2021-08-13. 5. 朱光普,姚军,钟俊杰,张磊,孙海,张凯,杨永飞,严侠. 基于临界毛细数判别动态接触角可用性图版的构建方法[P]. 山东省:CN113065265A,2021-07-02. 6. 朱光普,姚军,钟俊杰,张磊,孙海,张凯,杨永飞,严侠. 一种基于微观流动模拟获取高含水区块水驱曲线方法[P]. 山东省:CN113027399A,2021-06-25. 7. 朱光普,姚军,钟俊杰,张磊,孙海,张凯,杨永飞,严侠. 一种适用于页岩气藏热力开采的流动模拟方法[P]. 山东省:CN112966422A,2021-06-15. 8. 严侠,姚军,黄朝琴,刘礼军,王子杰,孙海. 一种基于均匀化理论的页岩基质流固耦合尺度升级方法[P]. 山东省:CN111597721B,2021-06-01. 9. 严侠,姚军,黄朝琴,刘礼军,王子杰,孙海. 一种页岩气藏流固耦合多尺度数值模拟方法[P]. 山东省:CN111553108B,2021-05-07. 10. 张磊,徐超,李博涵,杨守磊,蔡诗妤,董田田,卢恩兴,郭曜豪,孙海,杨永飞,姚军. 基于CT扫描技术和Gabriel图的非均质多孔介质模型构建方法[P]. 山东省:CN112364504A,2021-02-12. 11. 马敏,李爱芬,姚军,付帅师,张磊,孙海. 一种测试原油沥青质析出压力的实验装置与实验方法[P]. 山东省:CN112198091A,2021-01-08. 12. 杨永飞,王煜舒,于晓聪,姚军,王珂,李英文,张凯,孙海,张磊,宋文辉. 一种确定天然气水合物储层颗粒运移程度的方法及装置[P]. 山东省:CN112069620A,2020-12-11. 13. 杨永飞,王煜舒,于晓聪,姚军,王珂,李英文,王子杰,张凯,孙海,张磊,宋文辉. 低渗油藏注水过程中颗粒运移影响的分析方法及装置[P]. 山东省:CN112052634A,2020-12-08. 14. 杨永飞,王煜舒,于晓聪,姚军,王珂,李英文,王子杰,张凯,孙海,张磊,宋文辉. 一种表征水合物藏渗流能力的方法及装置[P]. 山东省:CN112014293A,2020-12-01. 15. 马敏,李爱芬,姚军,付帅师,张磊,孙海. 一种原油沥青质引起的岩石渗透率损害定量评价装置及其应用[P]. 山东省:CN112014294A,2020-12-01. 16. 杨永飞,杨海元,姚军,钱其豪,李勇,张磊,张凯,孙海,孙致学,蔡建超. 一种基于多相数字岩心模拟岩石裂纹扩展的方法及系统[P]. 山东省:CN111767631A,2020-10-13. 17. 杨永飞,吕倩菲,姚军,陶柳,张磊,孙海,张凯,宋文辉. 一种三维可视化往复式循环驱替系统[P]. 山东省:CN111735831A,2020-10-02. 18. 杨永飞,刘夫贵,姚军,汪远博,宋怀森,徐伯钊,张凯,张磊,孙海,宋文辉. 一种构建数字岩心的方法及系统[P]. 山东省:CN111402266A,2020-07-10. 19. 姚军,宋文辉,王东英,孙海,郭曜豪,杨谦洪. 一种考虑多重因素影响的页岩气表观渗透率计算方法[P]. 山东省:CN110210460A,2019-09-06. 20. 张磊,郭曜豪,姚军,孙海,杨永飞,王鑫,杨谦洪. 一种基于Voronoi图的二维多孔介质模型构建方法[P]. 山东省:CN109977469A,2019-07-05. 21. 刘磊,姚军,孙海,张磊,杨永飞,朱星宇. 一种基于二维图像和多点统计学的数字岩心重建方法[P]. 山东:CN108876901A,2018-11-23. 22. 景文龙,张磊,姚军,杨永飞,孙海. 一种基于岩心扫描图像分块数值模拟的渗透率预测方法[P]. 山东:CN108763711A,2018-11-06. 23. 姚军,郭曜豪,张磊,孙海,杨永飞,杨谦洪. 一种基于孔隙网络模型的致密油流动模拟及渗透率预测方法[P]. 山东:CN108729908A,2018-11-02. 24. 樊冬艳,孙海,姚军,孙致学,张凯. 一种深层地热气水两相井底测量装置及数据处理方法[P]. 山东:CN107829722A,2018-03-23. 25. 孙海,樊冬艳,姚军,张林,张磊,孙致学,杨永飞. 一种监测地热储层温度和裂缝分布的方法和装置[P]. 山东:CN106707365A,2017-05-24. 26. 杨永飞,刘志辉,张文杰,苏云河,万玉金,张林,姚军,张磊,孙海,宋文辉,赵建林,安森友,刘鹏飞,刘磊,朱星宇. 一种基于岩石分类和多尺度数字岩心的碳酸盐岩孔隙结构表征方法[P]. 山东:CN106324002A,2017-01-11. 27. 杨永飞,张文杰,姚军,张建光,孙致学,樊冬艳,安森友,孙海,张磊,张琦,赵建林,刘磊. 一种页岩基质储层孔隙空间表征方法[P]. 山东:CN106127816A,2016-11-16. 28. 张磊,刘磊,姚军,孙海,杨永飞,赵建林,安森友,张琦. 一种基于侵蚀-膨胀算法的数字岩心两相流模拟结果定量表征方法及其应用[P]. 山东:CN105891083A,2016-08-24. 29. 孙致学,姚军,李彦超,孙海,杨永飞,樊冬艳,聂海峰,刘继芹,曾青冬,蔡明玉,黄勇,徐杨,孙强,张明明,吕抒桓,董云振,刘熙远. 一种针对页岩的压裂造缝的技术和方法[P]. 山东:CN105822275A,2016-08-03. 30. 樊冬艳,孙海,孙致学,曾慧. 一种协同开发天然气、水溶气和天然气水合物的系统及方法[P]. 山东:CN105422055A,2016-03-23. 31. 杨永飞,安森友,姚军,孙海,张磊,张琦,赵建林,杨谦洪,宋文辉,刘志辉,张文杰,罗嘉慧. 一种基于孔隙网络模型的三相相对渗透率的计算方法[P]. 山东:CN105021506A,2015-11-04. 32. 杨永飞,姚军,张琦,田同辉,徐耀东,明玉坤,高莹,魏微,赵建林,孙海,张磊,宋文辉,安森友,杜玉山,王军,晁静. 一种基于CT数字岩心的微观驱替实验系统及微观驱替实验方法[P]. 山东:CN104819990A,2015-08-05. 33. 杨永飞,姚军,魏微,高莹,张琦,赵建林,孙海,宋文辉,安森友. 一种低渗透储层原油边界层的模拟方法[P]. 山东:CN104331579A,2015-02-04. 34. 杨永飞,姚军,高莹,魏微,张琦,赵建林,孙海,宋文辉,安森友. 基于Zeiss MCT-400CT扫描的岩心夹持器及其应用[P]. 山东:CN104316548A,2015-01-28. 35. 姚军,卜亚辉,刘均荣,于伟强,孙海,樊冬艳,王伟. 基于流动电位的储层参数测量系统及测量方法[P]. 山东:CN103397879A,2013-11-20.
◎学术交流 1、2012年4月,页岩油资源与勘探开发技术国际研讨会,《Transport Mechanisms and Numerical Simulation of Shale Gas Reservoirs》Poster,江苏,无锡; 2、2012年8月,2012年全国博士论坛(多孔介质流动),《页岩气藏运移机理及数值模拟研究》分会报告,山东,青岛; 3、2012年11月,第七届全国流体力学学术会议,《致密多孔页岩气体运移机制研究》分会报告,广西,桂林; 4、2013年8月,第十二届全国渗流力学大会,《基于多孔介质物性参数的气体运移模式判定方法》,山东,青岛; 5、 2014年3月1日-3月7日,沙特KAUST大学(King Abdullah University of Science and Technology,阿卜杜拉国王科技大学)参加数值多孔介质年会,做题为《Multiscale Numerical Simulation of shale gas reservoirs》的Poster; 6、2015年5月18-5月21日,意大利帕多瓦参加第七届世界渗流力学大会(7th International Conference on Porous Media),做题目《A new apparent permeability calculated method of shale gas and tight gas reservoirs based on digital rock》的报告; 7、2015年5月24-5月27日,参加第七届国际流体力学大会《The 7th International Conference on Fluid Mechanics》,做题为《A new apparent permeability calculated method of shale gas reservoirs based on digital rock》的报告; 8、2015年7月10日-12日,参加第十三届全国渗流力学大会,做题为《考虑应力敏感和多重耦合运移机制的页岩气藏数值模拟》的报告; 9、2015年8月1日-8月6日,沙特法赫德国王石油矿产大学(KFUPM)学术访问,做题为《Multi-scale Flow Simulation Theory and Method in Shale Gas Reservoirs》的报告。 10、2016年5月9日-5月12,美国辛辛那提第8届Interpore《Upscaling of gas transport in shale matrix based on homogenization theory》; 11、2017年8月24-8月25日,第十四届全国渗流力学大会《页岩气藏纳微尺度流动模拟及尺度升级》特邀报告; 12、2018年5月14-5月17日,美国新奥尔良第10届InterPore《Numerical simulation of proppants transport and placement in fracture》. 13、2019年5月4日-2019年5月11日,西班牙瓦伦西亚第11届InterPore《An upscaled transport model of shale gas considering multiple mechanisms and heterogeneity based on homogenization theory》 14、2020年9月,线上会议第12届InterPore MS 6-B Interfacial phenomena in multiphase systems 召集人.
◎个人风采 孙海,男,1984年10月生,山东临朐人,博士,教授,博士生导师,国家优青获得者。主要从事非常规油气藏渗流机理、多孔介质中微观流动模拟及多尺度流动模拟等方面的科研工作。针对非常规油气藏强非均质性、多尺度空间、多流动模式特征,形成了从分子尺度(纳米) -孔隙尺度(微米) -岩心尺度(厘米) -宏观尺度(米)的多尺度、多场耦合、多模态流动的非常规油气藏渗流理论及数值模拟方法, 突破了传统油气渗流理论的局限,揭示了非常规油气藏的渗流机理,为其高效开发奠定了理论基础,近5年来在《International Journal of Heat and Mass Transfer》、《Fuel》、《International Journal of Greenhouse Gas Control》、《中国科学: 物理学 力学 天文学》、《石油学报》等国内外权威期刊发表论文100余篇(其中SCI收录70篇,EI收录59篇,ESI高被引论文6篇、领跑者5000中国精品科技期刊顶尖学术论文1篇),成果受到中科院院士郭尚平、陶文铨、何雅玲、中国工程院院士李根生、德州农工大学I. Y. Akkutlu教授及德州大学奥斯汀分校Masa Prodanovic教授等国内外专家的正面引用和高度评价,目前总引用次数2600余次,H因子30;多次在国际渗流力学大会(Interpore)、国际流体力学大会、全国渗流力学大会及全国流体力学大会等国内外学术会议宣讲研究成果,还担任《Fuel》、《Energy & Fuel》、《Environmental Earth Sciences》、《Transport in Porous Media》、《Journal of Petroleum Science and Engineering》、《Petroleum Science》等本行业权威期刊的审稿人。获教育部自然科学一等奖1项(排名第二)、省部级科技进步二等奖3项(排名1、3、3),2015年度山东省优秀博士学位论文,入选2016年度中国博士后科学基金资助者选介(全国100人)。 |