郭俊鑫,深圳北理莫斯科大学副教授。2011年获得中国石油大学(华东)勘查技术与工程学士学位,2014年获得中国石油大学(华东)地球探测与信息技术硕士学位,2015年获得美国俄克拉荷马大学地球物理学硕士学位,2018年获得澳大利亚科廷大学勘探地球物理学博士学位。主要从事岩石物理与岩石力学的理论建模方面的研究,迄今已在Journal of Geophysical Research – Solid Earth、Geophysical Journal International、Geophysics、Geophysical Prospecting等国际地球物理权威期刊发表SCI文章三十余篇(第一作者或通讯作者25篇),两篇文章分别被评为ESI与GJI高被引文章。主持国家自然科学基金面上项目1项、青年基金1项,中国博士后科学基金面上一等资助1项,深圳市稳定支持面上项目1项。担任Geophysical Research Letters、Journal of Geophysical Research – Solid Earth、Geophysical Journal International、Geophysics、Geophysical Prospecting等十几本国际权威地球物理与岩石力学期刊审稿人;美国勘探地球物理协会SEG年会、美国岩石力学协会ARMA年会论文审稿人; 欧洲地质科学家及工程师协会EAGE会员、美国勘探地球物理协会SEG会员;华人岩石力学交流平台创始成员。2019年获南方科技大学校长卓越博士后奖、入选广东省海外青年博士后项目,2020年入选深圳市海外高层次C类人才(孔雀计划C)、深圳博士后工作25周年25位优秀博士后,2023年分别获得刘光鼎地球物理青年科技奖与C. F. Ying Award(应崇福声学奖),同时两度获得GJI杰出审稿人奖。
教育背景:
2015年11月-2018年8月:博士,澳大利亚科廷大学勘探地球物理系
论文题目:Seismic dispersion, attenuation, and frequency-dependent anisotropy in fractured reservoirs.
导师:Boris Gurevich 教授
2013年8月-2015年8月:理学硕士,美国俄克拉荷马大学地质与地球物理系及孔隙介质力学研究所
论文题目:Poroviscoelasticity anisotropy for shale permeability:Theory and application
导师:Younane Abousleiman 教授
2011年9 月-2014年6月:工学硕士,中国石油大学(华东)测井系
论文题目:基于CCT模型的疏松砂岩声波速度模型研究
导师:韩学辉副教授
2007年9月-2011年6月:工学学士,中国石油大学(华东)测井系
工作经历:
2024年04月-至今:副教授,深圳北理莫斯科大学,计算数学与控制联合研究中心
2020年12月-2024年03月:研究助理教授(副研究员),南方科技大学,地球与空间科学系
2018年12月-2020年11月:校长卓越博士后,南方科技大学,地球与空间科学系
学术兼职:
《Petroleum Science》青年编委;《Journal of Geophysics and Engineering》青年编委;《Applied Geophysics》青年编委;《石油物探》青年编委;Frontiers in Earth Science 编委;Geophysical Research Letters、Journal of Geophysical Research-Solid Earth、Geophysical Journal International、Solid Earth、Geophysics、Geophysical Prospecting、IEEE Transactions on Geoscience and Remote Sensing、Journal of the Mechanics and Physics of Solids、 Journal of Geophysics and Engineering、Ultrasonics、Journal of Petroleum Science and Engineering、Journal of Natural Gas Science and Engineering、Scientific Reports 等期刊长期审稿人;美国勘探地球物理协会SEG 年会、美国岩石力学协会ARMA 年会会议论文审稿人; 欧洲地质科学家及工程师协会EAGE、SEG 会员;华人岩石力学交流平台创始成员 。
主持项目:
1. 国家自然科学基金面上项目,深层页岩气储层地震频散衰减与频变各向异性研究-理论建模与实验验证,主持,2023.01-2026.12。
2. 国家自然科学基金青年科学基金项目,复杂裂缝储层地震频散衰减与频变各向异性研究-理论分析与数值模拟,主持,2020.01-2022.12。
3. 深圳市稳定支持面上项目,地热开发与地下工程中裂缝网络探测基础理论研究,主持,2022.10-2024.09。
4. 中国博士后科学基金面上一等资助,碳酸盐岩裂缝储层纵波散射衰减与本征衰减耦合研究,主持,2019.05-2020.12。
获奖情况:
2023 年:Geophysical Journal International 杰出审稿人 (Outstanding Reviewer)
2023 年:刘光鼎地球物理青年科技奖
2023 年:C. F. Ying Award(应崇福声学奖)
2023 年:广东省地球物理学会科学技术奖(二等奖)
2023 年:第五届油气地球物理学术年会优秀论文
2021 年:Geophysical Journal International 杰出审稿人 (Outstanding Reviewer)
2020 年:深圳博士后工作25周年25位优秀博士后入选者
2020 年:深圳市孔雀计划C类人才
2019 年:南方科技大学校长卓越博士后
2019 年:广东省海外青年博士后项目入选者
2016 年:科廷大学勘探地球物理系最佳论文与最佳年度会议海报奖
2015-2018:澳洲科廷大学全额奖学金
2013-2015:美国俄克拉荷马大学全额奖学金
2011-2014:中国石油大学(华东)研究生一等奖学金
2008 年-2010 年:连获3年国家奖学金
专著章节:
[2] Guo, J., 2023, Fractures of finite thickness in Boris Gurevich, José M. Carcione, Attenuation and dispersion of elastic waves in porous rocks: Mechanisms and models: SEG, 279 – 288.
[1] Guo, J., 2023, Frequency-dependent anisotropy in Boris Gurevich, José M. Carcione, Attenuation and dispersion of elastic waves in porous rocks: Mechanisms and models: SEG, 288 – 297.
期刊文章(*通讯作者):
[34] Li, S., W. Wang, Y. Su,J. Guo*, and X. Tang, 2023, P- and SV-wave dispersion and attenuation in saturated microcracked porous rock with aligned penny-shaped fractures: Petroleum Science, https://doi.org/10.1016/j.petsci. 2023.08. 029.
[33] Guo, J., C. Cao*, X. Chen, and J. Liao, 2023, Effects of intrinsic anisotropy on seismic dispersion, attenuation, and frequency-dependent anisotropy (in Chinese): Chinese Science Bulletin, 68, https://doi.org/10.1360/TB-2022-1039.
[32] Liao, J., P. Wen, J. Guo*, L. Zhou, 2023, Seismic dispersion, attenuation, and frequency-dependent anisotropy in a fluid-saturated porous periodically layered medium: Geophysical Journal International, 234, 331 – 345.
[31] Li, S., W. Wang, Y. Su, and J. Guo*, 2023, Effective elastic properties and shear-wave anisotropy for rocks containing any oriented penny-shaped cracks in transversely isotropic background: Geophysics, 88, MR65 – MR81.
[30] Guo, J.*, B. Gurevich, and X. Chen, 2022, Dynamic SV-wave signatures of fluid-saturated porous rocks containing intersecting fractures: Journal of Geophysical Research: Solid Earth, 127, e2022JB024745.
[29] Guo, J., and X. Chen*, 2022, Pressure dependence of elastic wave velocities of unconsolidated cemented sands: Geophysics, 87, MR161-MR175.
[28] Liu, T., X. Bao*, and J. Guo, 2022, Modeling of seismic attenuation in fracture-filling gas hydrate-bearing sediments and its application to field observations in the Krishna-Godavari Offshore Basin, India: Marine and Petroleum Geology, 141, 105698.
[27] Guo, J., L. Zhao, X. Chen*, Z. Yang, H. Li, and C. Liu, 2022, Theoretical modelling of seismic dispersion, attenuation, and frequency-dependent anisotropy in a fluid saturated porous rock with intersecting fractures: Geophysical Journal International, 230, 580 - 606.
[26] Han, X., H. Zhang, J. Guo*, J. Li, and T. Fang, 2022, Controlling factors on elastic wave velocities of conglomerate – Experimental and theoretical study: Journal of Petroleum Science and Engineering, 209, 109837.
[25] Guo, J., L. Zhao*, Z. Yang, and H. Li, 2021, Analytical model for rock effective elastic properties with aligned elliptical cracks embedded in transversely isotropic background: Geophysical Prospecting, 69, 1515 - 1530.
[24] Guo, J.*, and B. Gurevich, 2020, Frequency-dependent P-wave anisotropy due to wave-induced fluid flow and elastic scattering in a fluid-saturated porous medium with aligned fractures: Journal of Geophysical Research: Solid Earth, 125, e2020JB020320.
[23] Guo, J.*, and B. Gurevich, 2020, Effects of coupling between wave-induced fluid flow and elastic scattering on P-wave dispersion and attenuation in rocks with aligned fractures: Journal of Geophysical Research: Solid Earth, 125, e2019JB018685.
[22] Guo, J., B. Gurevich, and D. Shuai*, 2020, Frequency-dependent P-wave anisotropy due to scattering in rocks with aligned fractures: Geophysics, 85, MR97-MR105.
[21] Fu, B., L.-Y. Fu, J. Guo*, R. J. Galvin, B. Gurevich, 2020, Semi-analytical solution to the problem of frequency dependent anisotropy of porous media with an aligned set of slit cracks: International Journal of Engineering Science, 147, 103209.
[20] Shuai, D., J. Wei, B. Di, J. Guo*, D. Li, F. Gong, A. Stovas, 2020, Experimental study of crack density influence on the accuracy of effective medium theory: Geophysical Journal International, 220,352-369.
[19] Sun, Y.*, B. Gurevich, S. Glubokovskikh, M. Lebedev, A. Squelch, C. Arns, and J. Guo, 2020, A solid/fluid substitution scheme constrained by pore-scale numerical simulations: Geophysical Journal International, 220, 1804-1812.
[18] Han, X.*,J. Nie*,J. Guo,X. Mao,X. Luo,Z. Wang,H. Zhang,H. Liu,H. Wang,J. Jiang,H. Li,J. Li,2020, Quantitative estimation of contact cemented clay in clayey sandstone and its effect on elastic properties of sandstone (in Chinese):Chinese Journal of Geophysics, 63,1654-1662.
[17] Guo, J.*, T. Han*, L. Fu, and X. Fang, 2019, Effective elastic properties of rocks with transversely isotropic background permeated by aligned penny-shaped cracks: Journal of Geophysical Research: Solid Earth, 124, 400-424.
[16] Guo, J., C. Liu, and Y. Abousleiman*, 2019, Transversely isotropic poroviscoelastic bending beam solutions for low-permeability porous medium: Mechanics Research Communications, 95, 1-7.
[15] Guo, J.*, and X. Fang,2019,Seismic dispersion, attenuation, and frequency-dependent anisotropy in reservoirs with aligned fractures (in Chinese):Applied Acoustics, 39, 1-10.
[14] Han, X., J. Nie, J. Guo*, L. Yang, and D. Xu, 2019, Rock physics modelling of elastic properties of organic shale considering kerogen stress and pore pressure distribution: Journal of Petroleum Science and Engineering, 174, 891-902.
[13] Han, X., J. Guo*, X. Mao, H. Liu, H. Zhang, T. Fang, Y. Chen, J. Jiang, H. Li, J. Li, P. Wang, 2019, Definition of clay additional conductivity intensity index for argillaceous sandstone and its application (in Chinese): Chinese Journal of Geophysics, 62, 4462-4471.
[12] Guo, J.*, J. G. Rubino, S. Glubokovskikh, and B. Gurevich, 2018, Dynamic seismic signatures of saturated porous rocks containing two orthogonal sets of fractures: Theory versus numerical simulations: Geophysical Journal International, 213, 1244-1262.
[11] Guo, J. , D. Shuai*, J. Wei, P. Ding, and B. Gurevich, 2018, P-wave dispersion and attenuation due to scattering by aligned fluid saturated fractures with finite thickness: Theory and experiment: Geophysical Journal International, 215, 2114-2133.
[10] Guo, J.*, J. G. Rubino, N. D. Barbosa, S. Glubokovskikh, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rocks with aligned fractures of finite thickness: theory and numerical simulations – Part 1: P-wave perpendicular to the fracture plane: Geophysics, 83, no. 1, WA49-WA62.
[9] Guo, J.*, J. G. Rubino, N. D. Barbosa, S. Glubokovskikh, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rocks with aligned fractures of finite thickness: theory and numerical simulations – Part 2: Frequency-dependent anisotropy: Geophysics, 83, no. 1, WA63-WA71.
[8] Fu, B., J. Guo*, L. Fu*, S. Glubokovskikh, R. J. Galvin, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rock with aligned slit cracks: Journal of Geophysical Research: Solid Earth, 123(8), 6890-6910.
[7] Han, X., D. Xu*, J. Guo, L. Yang, Z. Wang, D. Zhang, X. Luo, J. Nie, H. Li, and J. Jiang, 2018, Rock physics modelling for acoustic velocities of sandstone considering effects of cementation and compaction (in Chinese): Chinese Journal of Geophysics, 61(12), 5044-5051.
[6] Sun, Y.*, B. Gurevich, M. Lebedev, S. Glubokovskikh, V. Mikhaltsevitch, and J. Guo, 2018, A triple porosity scheme for fluid/solid substitution: theory and experiment: Geophysical Prospecting,67, 888-899.
[5] Guo, J.*, J. G. Rubino, S. Glubokovskikh, and B. Gurevich, 2017, Effects of fracture intersections on seismic dispersion: theoretical predictions versus numerical simulations: Geophysical Prospecting, 65, no.5, 1264-1276.
[4] X. Han, E. Wu, J. Guo*, D. Xu, Z. Sun, X. Luo, Z. Wang, and L Yang, 2017, Fluid factor index for fluid saturation estimation: Journal of Natural Gas Science and Engineering, 39, 72-81.
[3] Guo, J., and X. Han*, 2016, Rock physics modelling of acoustic velocities for heavy oil sand: Journal of Petroleum Science and Engineering, 145, 436-443.
[2] Han, X.*, J. Guo, F. Li, and L. Yang, 2014, Generalization of the expression of cementation radius in contact cement theory and its application (in Chinese): Chinese Journal of Geophysics, 57, 439-449.
[1] X. Han*, J. Guo,F. Li, L. Yang, and J. Tang,2013,Modified acoustic velocity model for basal cemented loose sandstone based on contact cement theory (in Chinese):Journal of China University of Petroleum, 37, 76-82.
