非常规油气科学技术研究院

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地质与地球物理研究所

赵建国教授，博士生导师

日期:2022-10-28 | 点击量:

课题组网站：www.rockscience.cn

职称：教授，博士生导师。

2022年招生情况：

*硕士：招生名额为3-5名，拟开展的研究方向：地震岩石物理、数字岩石物理、储层地球物理反演、高性能电磁计算、地震电磁联合正反演、全极化地质雷达与井孔雷达。

*博士：招生名额为1-2名（含考核制、硕博连读及直博）：

一级学科：地质资源与地质工程，地球物理学（地球物理学院博导），研究方向：地震岩石物理、数字岩石物理、储层地球物理反演、高性能电磁计算；

二级学科：先进科学与工程计算（一级学科：控制科学与工程，兼任信息学院博导），数值模拟与高性能计算、大数据与智能计算

*博士后：无名额限制，长年招生博士后，研究方向参考博士招生方向及科研项目，具体课题及待遇需提前商议后决定，可挂靠博士后流动站：地质资源与地质工程、地球物理学、石油与天然气工程。以上各职位均欢迎跨专业报考。博士、博士后以与国外大学联合培养为主。

学术背景：

1994年9月—1998年7月在长春地质学院学习，获应用地球物理系学士学位，1998年7月—1999年8月在松辽委东北勘测设计研究院工作，1999年9月—2002年7月在吉林大学（原长春地质学院）学习，获固体地球物理学理学硕士学位，2002年9月—2006年4月在日本东北大学（Tohoku University）留学，获得地球工学博士学位。2006年6月入职于中国石油大学（北京），2008年6月晋升副教授，2015年6月晋升教授。2008年9月至2009年5月在斯坦福大学地球物理系及科罗拉多矿业学院地球物理系访问交流。2017年6月至2017年9月在加拿大埃尔伯塔大学地球物理系做访问教授。

研究方向为勘查地球物理，兴趣领域包括：①复杂介质中地震波与电磁波传播理论；②跨频段地震岩石物理理论、实验及仪器开发；③基于数字岩心的计算岩石物理。近年来，主持国家自然科学基金项目5项（含联合基金重点项目1项，面上项目3项，青年基金1项），国家重大专项子课题1项，“教育部博士点新教师基金”1项，“留学回国基金”1项，以项目骨干参加 973 与 863 课题各1项，2008年入选“北京市科技新星计划”，2010年入选“北京市优秀人才资助计划”，2015年获得“刘光鼎地球物理青年科学技术奖”。获授权专利16项；在国内外重要学术期刊与国际会议上共发表论文89篇，其中SCI文章41篇，被 SCI 收录的32篇文章中，含地球物理领域顶级期刊9篇（其中2篇JCR1区期刊，7篇JCR2区期刊）。代表性成果以第一作者或通讯作者发表在国际期刊 Geophysical Research Letters，Journal of Geophysical Research，Geophysical Journal International，IEEE Transaction on Geoscience and Remote Sensing, IEEE Geoscience and Remote Sensing Letters，IEEE Antennas and Wireless Propagation Letters, 以及Geophysical Prospecting，兼任上述期刊的审稿专家，2018年被GJI期刊评为“杰出审稿人”，2021年被《中国科学》期刊评为“优秀审稿人”。

联系方式

姓名：赵建国

通讯地址：北京市昌平区府学路18号

中国石油大学（北京）地球物理学院物探系

邮编：102249

电子邮件： jgzhao761215@aliyun.com; zhaojg@cup.edu.cn

电话：010-89731776; 13661100389

教育及工作经历

1994年9月—1998年7月，长春科技大学应用地球物理专业本科（原长春地质学院）

1998年8月—1999年8月，松花江辽河治理委员会东北勘测设计研究院物探队工作

1999年9月—2002年7月，吉林大学地球探测与信息技术学院研究生（原长春地质学院）

2002年9月—2006年3月，日本东北大学地球工学科博士研究生（日本国政府奖学金资助）

2006年4月归国

2006年6月—2008年6月，中国石油大学（北京）地球物理与信息工程学院，讲师

2008年6月，晋升副教授

2008年9月—2009年5月，斯坦福大学地球物理系，科罗拉多矿业学院地球物理系，国际合作项目

2015年6月，晋升为教授。

2015年6月—2022年10月，中国石油大学（北京）地球物理学院，教授

2022年11月，非常规油气科学技术研究院（由地球物理学院校内调动转入），教授

研究兴趣领域

1. 复杂介质中地震波与电磁波传播理论；

2. 跨频段地震岩石物理理论、实验及仪器开发；

3. 基于数字岩心的计算岩石物理；

4. 数值模拟与高性能计算；

5. 大数据与智能计算

主讲本科生课程：偏微分方程数值解法

国际交流

2008年9月—2009年5月，斯坦福大学地球物理系（合作教授：Jerry M. Harris），科罗拉多矿业学院地球物理系（合作教授：Michal batzle），国际合作

科研项目

近年来负责省部级以上项目情况：国家级项目8项，省部级5项，其中主持国家自然科学基金项目5项（含联合基金重点项目1项，面上项目3项，青年基金1项）。

2021-2024 莺琼盆地超高温压跨频段地震岩石物理响应机理研究，国家自然基金联合基金重点，项目编号：U20B2015，负责

2020-2021 跨频段岩石物理实验与理论驱动的地震速度频散成像研究，国家自然科学基金面上项目，项目编号：41974120，负责

2020-2023 复杂储层井震联合地球物理参数关联性研究，中国石化科技项目（省部级），负责

2016-2019 针对碳酸盐岩储层的跨频段(从地震频率—超声频率)岩石物理实验与建模研究，国家自然科学基金面上项目，项目编号：41574103，负责

2016-2020 下古生界-前寒武系地球物理勘探关键技术研究-跨频段岩石物理测试、建模和地震响应特征研究，国家科技重大专项，负责

2012-2016 全极化孔中雷达多极化联合的频率域全波形反演与极化属性分析，国家自然科学基金面上项目，项目编号：41274138，负责

2012-2015 差分式声共振技术的低频岩石物理理论与实验研究，中国石油大学（北京）基础研究项目，KYJJ2012-05-02，负责

2013-2018 深层温压条件下非均质岩石中多频段弹性波传播，国家重点基础研究发展规划973项目，2013CB228603，排名3

2011-2013 “物探新方法新技术”：非均质储层低频地震响应特征研究及应用，中石油集团公司十二五计划项目，排名2（副课题长）

2007-2010 基于全极化孔中雷达的正反演以及雷达极化技术的方法研究，国家自然科学青年基金，项目编号：40704024，负责

2007-2010 全极化孔中雷达的极化分解技术研究，教育部“高等学校博士学科点专项科研基金”，20070425029，负责

2008-2010 全极化孔中雷达的正反演研究，教育部留学回国基金项目，负责

2009-2011 “北京市科技新星计划”项目，北京市科委，负责

2010-2010 “北京市优秀人才资助计划”项目，负责

2007-2010 重﹑磁和地震联合反演解释技术，863计划子课题，排名2

2009-2011 Advanced DARSIII system development，与斯坦福大学国际合作项目：重点实验室平台建设部分，排名2

奖励和荣誉

2002 获得日本国政府文部省国费奖学金支持，留学日本东北大学

2009 入选“北京市科技新星计划”

2009 入选“世界石油大会(WPC)中国国家委员会青年工作委员会”

2010 入选“北京市优秀人才培养资助计划”

2011 聘为教育部留学归国基金评审专家

2015 获第六届“刘光鼎地球物理青年科学技术奖”

2018 GJI期刊“杰出审稿人”

2021 《中国科学》期刊“杰出审稿人”

期刊论文（*为通讯作者）

[1] Muhammad Ajaz, Fang Ouyang, Gui-Hai Wang, Shuang-Lian Liu, Li-Xin Wang, and Jian-guo Zhao^*, “Fluid identification and effective fracture prediction based on frequency-dependent AVOAz inversion for fractured reservoirs”, Petroleum Science, Vol. 18(4), pp. 1069-1085.

[2] ZHAO JianGuo, PAN JianGuo, HU YangMing, LI JinSong, YAN BoHong, LI Chuang, SUN LangQiu, LIU XinZe. 2021. Digital rock physics-based studies on effect of pore types on elastic properties of carbonate reservoir Part 1: Imaging processing and elastic modelling. Chinese Journal of Geophysics (in Chinese), 64(2): 656-669, doi: 10.6038/cjg2021O0228

[3] ZHAO JianGuo, PAN JianGuo, HU YangMing, LI JinSong, LIU XinZe, LI Chuang, YAN BoHong. 2021. Digital rock physics-based studies on effect of pore types on elastic properties of carbonate reservoir Part 2: Pore structure factor characterization and inversion of reservoir. Chinese Journal of Geophysics (in Chinese), 64(2): 670-683, doi: 10.6038/cjg2021O0227

[4] LONG Teng, ZHAO JianGuo, LIU XinZe, LI Zhi, XIAO ZengJia, WANG ZiZhen, OUYANG Fang. 2020. Cross-band rock physics measurement and theoretical modeling of carbonate rocks—Study on the effect of different pore structures on the dispersion and attenuation of carbonate rocks. Chinese Journal of Geophysics (in Chinese), 63(12): 4502-4516, doi: 10.6038/cjg2020O0234

[5] OUYANG Fang, ZHAO JianGuo, LI Zhi, XIAO ZengJia, HE YanXiao, DENG JiXin, ZHAO Hao, REN Jing. 2021. Modeling velocity dispersion and attenuation using pore structure characteristics of rock. Chinese Journal of Geophysics (in Chinese), 64(3): 1034-1047, doi: 10.6038/cjg2021O0355

[6] OUYANG Fang, ZHAO JianGuo, LI Zhi, XIAO ZengJia, HE YanXiao, ZHAO Hao, REN Jing. 2021. Inversion of pore aspect ratio distribution based on effective medium theories. Chinese Journal of Geophysics (in Chinese), 64(3): 1016-1033, doi: 10.6038/cjg2021O0348

[7] LI Chuang, ZHAO JianGuo, WANG HongBin, PAN JianGuo, LONG Teng, DENG JiXin, LI Zhi. 2020. Multi-frequency rock physics measurements and dispersion analysis on tight carbonate rocks. Chinese Journal of Geophysics (in Chinese), 63(2): 627-637, doi: 10.6038/cjg2019M0294

[8] Jianguo Zhao, Yan-Xiao He, Gang He, and Shangxu Wang, “A novel approach for evaluating gas saturation effects on the phase reversal characteristics of seismic AVO responses from strongly attenuating reservoirs”, IEEE Geoscience and Remote Sensing Letters, 2021, 1558-0571 (1545-598X)1: 1-5.

[9] Yan-Xiao He, Shang-Xu Wang, Rui Guo, Sanyi Yuan, Jianguo Zhao, Mo Chen, “A novel reservoir characterization method based on an improved phase decomposition of seismic reflections from thin-layer targets”, IEEE Geoscience and Remote Sensing Letters, 2021.

[10] Fang Ouyang, Jian-guo Zhao*, Shikun Dai, and Shangxu Wang, “Seismic wave modeling in vertically varying viscoelastic media with general anisotropy”, Geophysics, Vol. 86 (4), 2021.

[11] Fang Ouyang, Jian-guo Zhao*, Shikun Dai, and Shangxu Wang, “Shape-function-based non-uniform Fourier transforms for seismic modeling with irregular grids”, Geophysics, Vol. 86 (4), 2021.

[12] Yan-Xiao He, Gang He, Sanyi Yuan, Jianguo Zhao*, Shangxu Wang, “Bayesian Frequency-Dependent AVO Inversion Using an Improved Markov Chain Monte CarloMethod for Quantitative Gas Saturation Prediction in a Thin Layer”, IEEE Geoscience and Remote Sensing Letters, Print ISSN: 1545-598X, Online ISSN: 1558-0571, Digital Object Identifier: 10.1109/LGRS.2020.3046283, 2021.

[13] Jian-Guo Zhao, Genyang Tang, Jixin Deng, Xiaolong Tong, Shangxu Wang, “Determination of rock acoustic properties at low frequency: A differential acoustical resonance spectroscopy device and its estimation technique”, GEOPHYSICAL RESEARCH LETTERS, VOL. 40, 1–8, doi:10.1002/grl.50346, 2013.

[14] Jing-Ba, Jian-guo Zhao*, Jose M. Carcione, Xing-xing Huang, “Compressional wave dispersion due to rock matrix stiffening by clay squirt ﬂow”, Geophysical Research Letter, DOI: 10.1002/2016GL069312, 2016.

[15] Shangxu Wang, Jian-Guo Zhao*, Zhen-hua Li, Jerry M. Harris, Youli Quan, “Differential Acoustic Response Spectroscopy for Acoustic Measurement of Small and Irregular Samples,” Journal of Geophysical Research, Vol. 117(B06203), June, 2012.

[16] Jian-guo Zhao* Xing-xing Huang Wei-fang Liu Wei-jun Zhao Jian-yong Song Bin XiongShang-xu Wang, “2.5-D frequency-domain viscoelastic wave modelling using finite-element method”, Geophysical Journal International, Volume 211, Issue 1, 1 October 2017, Pages 164–187, https://doi.org/10.1093/gji/ggx273.

[17] Jian-guo Zhao, Shang-xu Wang, Han-jun Yin etc, “Differential Acoustic Resonance Spectroscopy: Improved theory and application in the low frequency range”, Geophysical Journal International, vol. 202, pp. 1775-1791, 2015.

[18] Xin-yuan Luan, Bang-rang Di, Jian-xin Wei, Jian-guo Zhao*, and Xiang-yang Li, “Creation of synthetic samples for physical modelling of natural shale”, Geophysical Prospecting, vol. 64, pp. 898-914, 2016.

[19] J. G. Zhao and M. Sato, “Radar polarimetry analysis applied to single-hole fully polarimetric borehole radar,” IEEE Transaction on Geosc. and Remote Sensing, vol. 44, pp. 3547-3554, Dec. 2006.

[20] J. G. Zhao and M. Sato, “Consistency analysis of subsurface fracture characterization with several polarimetry techniques,” IEEE Geosc. and Remote Sensing Letters, vol.4, No. 3, pp. 359-363, July 2007.

[21] Hai, Liu, Jian-guo Zhao*, and Motoyuki Sato, “A Hybrid Dual-Polarization GPR System for Detection of Linear Objects”, IEEE Antenna and Wireless Propagation Letters, Vol. 14, pp. 317-320, 2014.

[22] J. G. Zhao and M. Sato, “Experimental implementation and assessment of two polarimetric calibration approaches applied for a fully polarimetric borehole radar”, Journal of Geophysics and Engineering, vol. 5, No. 2, pp. 232-242, 2008.

[23] Jian-guo Pan, Hong-bin Wang, Chuang Li, and Jian-guo Zhao*, “Effect of pore structure on seismic rock-physics characteristics of dense carbonates”, Applied Geophysics, Vol. 12(1), DOI: 10. 1007/s11770-014-0477-1, 2015.

[24] ZHAO Jian-Guo, SHI Rui-Qi, CHEN Jing-Yi, PAN Jian-Guo, WANG Hong-Bin. An matched Z-transform perfectly matched layer absorbing boundary in the numerical modeling of viscoacoustic wave equations[J]. Chinese Journal of Geophysics (in Chinese), 2014, 57(4): 1284-1291, doi: 10.6038/cjg20140425

[25] Zhao Jianguo，Shi Ruiqi，Chen Jingyi，Zhao Weijun，Wang Hongbin，Pan Jianguo. Application of Auxiliary Differential Equation Perfectly Matched Layer for Numerical Modeling of Acoustic Wave Equations[J].Journal of Jilin University(Earth Science Edition), 2014, 44(2): 675-682.

[26] Jian-Guo Zhao, Rui-Qi Shi, “A perfectly matched layer absorbing boundary condition for the finite-element time-domain modeling of elastic wave equation”, Applied Geophysics, 2013, Vol. 10, No.3, p. 323-336: DOI: 10.1007/s11770-013-0388.

[27] Han-jun Yin, Jian-guo Zhao, Geng-yang Tang, Li-ming Zhao, Xiao-yi Ma, and Shang-xu Wang*, “Pressure and Fluid Effect on Frequency-Dependent Elastic Moduli in Fully Saturated Tight Sandstone”, Journal of Geophysical Research: Solid Earth, DOI: 10.1002、2017JB014244，2017.

[28] Han-jun Yin, Jian-guo Zhao, Geng-yang Tang, Xiao-yi Ma, and Shang-xu Wang*, “Numerical and experimental investigation of a low-frequency measurement technique: differential acoustic resonance spectroscopy”, Journal of Geophysics and Engineering, vol. 13, pp. 342-353, 2016.

[29] 赵建国, 刘财, 杨宝俊, 李哲. 地震波在海底淤泥中传播的[Y]模型模拟研究. 吉林大学学报, 2000，30, 89-94.

[30] J. G. Zhao and M. Sato, “A fully polarimetric borehole radar based numerical modelling：fully polarimetric response to synthetic natural fractures,” Progress in Electromagnetics Research Symposium (PIERS) ，pp. 66-70, July, 2010, Cambridge.

[31] Chao Sun, Geng-yang Tang, Jian-guo Zhao, Li-ming Zhao, and Shang-xu Wang, “Three-dimensional numerical modelling of the drained/undrained transition for frequency-dependent elastic moduli and attenuation, Geophysical Journal International, 2019, 219(1): 27-38.

[32] He, Yan Xiao, Wu, Xinyu, Wang, Shangxu, and Zhao, Jianguo, “Reflection dispersion signatures due to wave-induced pressure diffusion in heterogeneous poroelastic media, Exploration Geophysics, 2019, 50(5): 541-553.

[33] MA Xiao-yi, WANG Shang-xu, ZHAO Jian-guo, ZHAO Li-ming, LONG Teng. 2018. Laboratory study of rocks in multi-frequency band.Progress in Geophysics. 33(5): 1943-1950.doi: 10.6038/pg2018CC0144.

[34] Ma, XY., Wang, SX., Zhao, JG. et al. Velocity dispersion and fluid substitution in sandstone under partially saturated conditions. Appl. Geophys. 15, 188–196 (2018). https://doi.org/10.1007/s11770-018-0683-8.

[35] Wen-jun XING, Kai-long WU, Xin WU, Wen-hui XU, Teng LONG, Zhi-jun LIU, Bin XIONG, Jian-guo ZHAO. 2018. Multi-frequency laboratory measurement of rock physics property on sandstone.Progress in Geophysics. 33(4): 1609-1616.doi: 10.6038/pg2018BB0350.

[36] Xiao-Yi Ma, Shang-Xu Wang, Jian-guo Zhao, Han-Jun Yin, and Li-ming Zhao, “Velocity dispersion and fluid substitution in sandstone under partially saturated conditions”, Applied Geophysics, vol. 15, No.2, p. 188-196, 2018.

[37] Chao Sun, Geng-yang Tang, Jian-guo Zhao, Li-ming Zhao, and Shang-xu Wang, “An enhanced broad-frequency-band apparatus for dynamic measurement of elastic moduli and Poisson’s ratio of rock samples”, Review of Scientific Instruments, 89064503 (2018); https://doi.org/10.1063/1.5018152.

[38] Zhao, Liming, Tang, Genyang, Wang, Shangxu, Zhao, Jianguo, Wang, Xingmou, Liu, Haojie, Wei, Guohua, Sun, Chao, Li, Minlong, Li, Min, Laboratory study of oil saturation and oil/water substitution effects on a sandstone's : modulus dispersion and attenuation, Exploration Geophysics, 2019, 50(3): 324-335.

[39] Pan, JG., Deng, JX., Li, C. et al. Effects of micrite microtextures on the elastic and petrophysical properties of carbonate reservoirs. Appl. Geophys. 16, 399–413 (2019). https://doi.org/10.1007/s11770-019-0777-y

[40] ZHAO Liming, TANG Genyang, WANG Shangxu, DONG Chunhui, HE Yanxiao, ZHAO Jianguo, SUN Chao, HAN Xu. Low-frequency seismic rock physics measurement system improvement and experiments on tight sandstone. Petroleum Science Bulletin, 2019, 02: 111-122.

[41] Jian-xin Wei, Jian-guo Zhao, Shuai Da, Ping-bo Ding, Bang-rang Di, and Shu-yuan Qin, “Estimations of P- and S-wave velocities and anisotropy from measurements on artificial fractured samples”, Geophysics, 2018.

[42] Rong Peng, Bangrang Di, Jianxin Wei, Pinbo Ding, Jianguo Zhao, Xiao Pan, and Zichun Liu, “Experimental study of the seismoelectric interface response in wedge and cavity models”, Geophysical Journal International, Volume 210, Issue 3, 1 September 2017, Pages 1703–1720, https://doi.org/10.1093/gji/ggx253.

[43] Chai, X., S. Wang, S. Yuan, J. Zhao, L. Sun, and X. Wei, 2014, Sparse reflectivity inversion for nonstationary seismic data: Geophysics, 79, no. 3, V93-V105, doi: 10.1190/GEO2013-0313.1. [44] Cheng Jingyi, Jian-Guo Zhao, “Application of the nearly perfectly matched layer to seismic wave propagation modeling in elastic anisotropic media,” Bull. Seism. Soc. Am., Vol. 101, No.6, pp. 2866-2871, Dec. 2011.

[45] Hai-qiang Lan, Jing-yi Chen, Zhong-jie Zhang, You-shan Liu, Jian-guo Zhao, and Rui-qi Shi, “Application of a perfectly matched layer in seismic wavefield simulation with an irregular free surface”, Geophysical Prospecting, doi: 10.1111/1365-2478. 12260.

[46] WEI Xian, WANG Shang-Xu, ZHAO Jian-Guo, TANG Gen-Yang, DENG Ji-Xin. Laboratory study of velocity dispersion of the seismic wave in fluid-saturated sandstones[J]. Chinese Journal of Geophysics (in Chinese), 2015, 58(9): 3380-3388, doi: 10.6038/cjg20150930

[47] DENG Ji-Xin, ZHOU Hao, WANG Huan, ZHAO Jian-Guo, WANG Shang-Xu. The influence of pore structure in reservoir sandstone on dispersion properties of elastic waves[J]. Chinese Journal of Geophysics (in Chinese), 2015, 58(9): 3389-3400, doi: 10.6038/cjg20150931

[48] Wei Xian,Wang Shangxu,Zhao Jianguo,Deng Jixin. Laboratory investigation of influence factors on v_P and v_S in tight sandstone. Geophysical Prospecting for Petroleum, 2015, 54(1): 9-16.

[49] Shi Ruiqi, Wang Shangxu, Guo Rui, Zhao Jianguo. Finite-element numerical modeling of elastic wave on unstructured meshes. OGP, 2013, 48(6): 915-923.

[50] Can ozsoy, Jingyi Chen, Qunshan Zhang, Jian-guo Zhao, and Gulsah Metin, “Nearly perfectly matched layer boundary condition for second-order anisotropic acoustic wave equations”, Journal of seismic exploration, Vol. 22, pp. 489-500, 2013.

[51] Ji-xin Deng, Shang-xu Wang, Gen-yang Tang, Jian-guo Zhao, “The influence of mesoscopic flow on the P-wave attenuation and dispersion in a porous medium permeated by aligned fractures”, Studia Geophysica et Geodaetica, 2013, 57(3), 482-506.

[52] Chun-hui Dong, Shang-xu Wang, Jian-guo Zhao, and Genyang Tang, “Numerical experiment and analysis of the differential acoustic resonance spectroscopy for elastic property measurements”, Journal of Geophysics and Engineering, 2013, 10(5): doi:10.1088/1742-2132/10/5/054002.

[53] Ruiqi Shi, Shangxu Wang, and Jian-Guo Zhao, “An unsplit complex-frequency-shifted PML based on matched Z-transform for FDTD modeling of seismic wave equations,” Journal of Geophysics and Engineering, Vol.9, No.2, pp. 218-229, 2012.

会议文章

[1] Liu, Weifang, Zhao, Jianguo, Hu, Yangming, Ouyang Fang, Miao, and Qing, “The study of Pp/Psv wave differences and relationship with hydrocarbon”, SEG Int Expo. Annu. Meet., SEG, 2019.

[2] 刘欣泽，李智，赵建国*，“基于跨频段岩石物理实验的频散AVO反演”，2019年油气地球物理学生年会，2019年，南京，DOI：10.26914/c.cnkihy.2019.022903.

[3] Teng Long, Jian-guo Zhao*, Douglas Schmit, Zhi Li and Yangming Hu, “Dispersion analysis of conventional and tight carbonates”, SEG 2018 Workshop: Rock Physics and Digital Rock Applications, Beijing, China, 20-23 May. 2018. (Oral).

[4] 龙腾，赵建国*，“岩石物理建模与复杂介质反演”，SEG workshop, Daqing, China，August, 2018. (口头报告)

[5] Yangming Hu, Jianguo Zhao*, Langqiu Sun, Teng Long, and Fei Li, “Digital rock physics based type effect analysis on acoustic properties of carbonate rocks”, 80th EAGE Conference, 2018, Copenhagen. (Oral)

[6] Yangming Hu, Jianguo Zhao*, Langqiu Sun, Teng Long, and Zeyu Wang, “Digital rock physics studies on carbonate pore type characterization and its effect on acoustic properties”, SEG 2018 Workshop: Rock Physics and Digital Rock Applications, Beijing, China, 20-23 May. 2018. (Oral)

[7] Yangming Hu, Jianguo Zhao*, Langqiu Sun, Teng Long, and Zeyu Wang, “A study on effect of pore structure on acoustic properties of carbonate rocks using micro-CT imaging”, CPS/SEG 2018 Workshop: International Geophysical Conference and Exposition, Beijing, China, 24-27 April.2018. (Oral)

[8] Xu, Yang, Zhao Jian-guo, Jian-yong Song, Huang, X.X., and Pan, X, “Joint first-arrival traveltime tomography and taveform inversion for near-surface imaging”, EAGE Conf. Exhib., 2017.

[9] Sun, Chao, Gen-yang Tang, Dong, C.H., Zhao, J.G., and Wang, S.X., “Fluid saturation effect on the characteristic frequency and attenuation of tight sandstone”, EAGE Conf. Exhib., 2017.

[10] Yin, H.J., Wang, S.X., Zhao, J.G., Tang, G.Y., Dong, C.H., “Pressure and fluid effect on frequency dependent velocities in fully saturated tight sandstone”, EAGE Conf. Exhib., 2017.

[11] 赵建国，王尚旭，王宏斌，李闯，龙腾，胡洋铭，“跨频段岩石物理测量技术进展及在碳酸盐岩储层预测中的应用”，中国地球物理年会，2017年10月（特邀报告）

[12] 赵建国，王尚旭，马宵一，龙腾，胡洋铭，“跨频段岩石物理测量技术进展及在砂岩储层预测中的应用”，中国地球物理年会，2017年10月（特邀报告）

[13] 黄兴兴，赵建国，狄帮让，熊彬，李登魁，栾睿琪，“频率域2.5维有限元粘弹性波数值模拟”，中国地球物理年会，2017年10月（口头报告）

[14] Jian-guo Zhao, Teng Long, Yang-ming Hu, Zhi Li, Jixin Deng, and Bin Xiong, “Multi-band Laboratory Study on Seismic Rock Physics Properties of Carbonate Rock”, SEG-China, Carbonate Reservoir E&P Workshop, Chengdu, China, October, 2017（特邀报告）

[15] Yangming Hu, Jianguo Zhao*, Teng long, Xingxing Huang, and Bin, Xiong, “Elastic simulation of carbonate rock under confining pressure using micro-CT imaging”, SEG-China, 2017, Chengdu. (Oral)

[16] T. Long, J. G. Zhao*, J. X. Deng, X. Y. Ma and Y. M. Hu, “Theoretical modeling and experimental analysis on velocity dispersion of carbonate”, 87th SEG conference, 2017, Houston. (Oral)

[17] X. X. Huang, J. G. Zhao*, Y. Xu, B. R. Di, Y. M. Hu and Z. W. Wang, “2.5D frequency-domain finite-element modeling in viscoelastic media using unstructured mesh”, 87th SEG conference, 2017, Houston. (Oral)

[18] X. X. Huang, J. G. Zhao*, Y. Xu, T. Long, Q. Zhang, and C. X. Liu, “Stiffness Reduction Method for Finite-element Scheme Elastic Wave Modelling in Heterogeneous Media - An Alternative to PML”, 78th EAGE conference, 2016, Vienna. (Oral)

[19] J. G. Zhao, X. X. Huang, X. Y. Ma, H. J. Yin, L. M. Zhao, and S. X. Wang, “Experimental Studies on Dense Carbonates - An Analysis of Elastic Properties Dependent on Pore Structure”, 78th EAGE conference, 2016, Vienna. (Oral)

[20] X. X. Huang, J. G. Zhao, Y. Xu, T. Long, Q. Zhang, and C. X. Liu, “Stiffness Reduction Method for Finite-element Scheme Elastic Wave Modelling in Heterogeneous Media - An Alternative to PML”, 78th EAGE conference, 2016, Vienna. (Oral)

[21] J. G. Zhao, X. X. Huang, X. Y. Ma, H. J. Yin, L. M. Zhao, and S. X. Wang, “Experimental Studies on Dense Carbonates - An Analysis of Elastic Properties Dependent on Pore Structure”, 78th EAGE conference, 2016, Vienna. ( Oral)

[22] Liu,Chongna, Wei, Jianxin, Di, Bangrang, Zhao, Jianguo, Gong, Fei, Gao, Feng, and Liu, Haihao, “Experimental study of scale-dependent velocity of heterogeneous media”, SEG Techn. Program Expand. Abstr., 2016.

[23] Yuan, D.J., Tang, G.Y., Wang, S.X., Qiao, Y., Zhao, J.G., and Yin, H.J., “Effect of heterogeneity scale on elastic properties of artificial sandstones at ultrasonic and quasi-seismic frequencies”, EAGE Conf. Exhib.: Earth Sci. Energy Environ., 2015.

[24] Wei, X., Wang, S.X., Zhao, J.G., Tang, G.Y., and Yin, H.J., “Direct measurements of wave dispersion at seismic frequencies and Gassmann fluid substitution”, EAGE Conf. Exhib.: Earth Sci. Energy Environ., 2015.

[25] Luo, C.M., Wang, S.X., Yuan, S.Y., Zhao, J.G., and Tang, G., “APES for prestack inversion”, EAGE Conf. Exhib.: Earth Sci. Energy Environ., 2015.

[26] Xin-yuan Luan, Bang-rang Di, Jian-xin Wei, Jian-guo Zhao, and Fei Gong, “Physical simulation research of synthetic shale”, SEG paper, October, 2015, USA.

[27] Jian-guo Zhao, Shang-xu Wang, Zhe Li, Xian Wei and Han-jun Yin. Studies on dispersion of reservoir rocks using multi-band direct laboratory measurement methodology with micor-CT scnning. 76th EAGE conference, 2014, Amsterdam, Holand.

[28] 赵建国，王尚旭，未晛，殷晗钧，马宵一，“跨频段地震岩石物理测量体系的建立”，地震岩石物理国际会议，2014.8, 上海同济大学（特邀报告）

[29] Haiqiang Lan, Jingyi Chen, Youshan Liu, and Jianguo Zhao, Application of the perfectly matched layer in numerical modeling of wave propagation with an irregular free surface. SEG, 2014.

[30] Jian-guo Zhao, Shang-xu Wang, Zhe Li, Xian Wei and Han-jun Yin. Studies on dispersion of reservoir rocks using multi-band direct laboratory measurement methodology with micor-CT scnning. 76th EAGE conference, 2014, Amsterdam, Holand.

[31] Hai-qiang Lan, Jing-yi Chen, You-shan Liu, Jian-guo Zhao, “Application of the perfectly matched layer in numerical modeling of wave propagation with an irregular free surface”, SEG paper, September, 2013, Houston, USA.

[32] Lanbo Liu, Zhao Zhao, and Jian-guo Zhao, Characterization of fractures using interferometry techniques with multi-hole, multi-polarization borehole radar, SEG paper, September, 2013, Houston, USA.

[33] 刘澜波，赵建国，“用于地下裂隙系统探测的全极化孔中雷达干涉成像技术”，世界华人地质大会，2013年6月.

[34] 赵建国，王尚旭，“基于差分共振声谱的低频岩石物理性质测量技术”，2013年全国储层声学与测井技术前沿研讨会，2013年6月.

[35] Lanbo Liu, Zhao Zhao, and Jian-guo Zhao, Characterization of fractures using interferometry techniques with multi-hole, multi-polarization borehole radar, SEG paper, September, 2013, Houston, USA

[36] 刘澜波，赵建国，“用于地下裂隙系统探测的全极化孔中雷达干涉成像技术”，世界华人地质大会，2013年6月

[37] 赵建国，王尚旭，“基于差分共振声谱的低频岩石物理性质测量技术”，2013年全国储层声学与测井技术前沿研讨会，2013年6月

[38] Jian-Guo Zhao, Shi-kun Dai, “2.5-Dimensional EM modelling and inversion and applications in CSEM subsurface sensing,” The 10th China International Geo-Electromagnetic Workshop, pp. 256-257, 2011/11/18-2011/11/20.

[39] Shi-kun Dai, Jian-Guo Zhao, “Electromagnetic wavefield transform in dissipative media,” The 10th China International Geo-Electromagnetic Workshop, pp. 258-260, 2011/11/18-2011/11/20.

[40] Jian-Guo Zhao and Motoyuki Sato, “A fully polarimetric borehole radar based numerical modelling ,”pp. 320-323, 2011/11/18-2011/11/20.

[41] J. G. Zhao and M. Sato, “Comparison of radar polarimetric techniques for subsurface fracture characterization and classification,” IEEE International Geoscience and Remote Sensing Symposium(IGARSS 2006 POSTER SECTION), Denver, Colorado, July 31-August 04, 2006

[42] 赵建国，“基于全极化孔中雷达的数值模拟：人工合成裂隙的极化雷达响应”，论文编号（201007-266），中国科技论文在线（www.paper.edu.cn）, July, 2010

[43] 付建伟，赵建国，“声波测井实验仪中的发射电路实现”，电子产品世界，2010,17， 34-37

[44] 赵建国，“全极化孔中雷达的极化校正技术”，论文编号（200801-844），中国科技论文在线（www.paper.edu.cn）, Feb.,2008.

[45] 赵建国，佐藤源之, “全极化孔中雷达的最新进展”，2007年10月--23届中国地球物3会，pp. 512

[46] J. G. Zhao and M. Sato, “Subsurface fracture characterization by a fully polarimetric borehole radar and its polarimetric analysis,” 3rd International Workshop on WATER DYNAMICS, 16-17 November, 2005, Sendai, Japan

[47] J. G. Zhao and M. Sato, “Subsurface fracture characterization based on radar polarimetry by borehole radar,” Proc. of the 8th Workshop on Subsurface Electromagnetic Measurement (Technical Report of IEICE), A.P2004-181, pp. 61-68, October 25-26, 2005.

[48] J. G. Zhao and M. Sato, “Application of polarimetry analysis technique based on Pi-SAR polarimetry methodology to Single-hole Polarimetric borehole radar,” The 11th Formation Evaluation Symposium of Japan, Chiba, Tokyo, pp. 68-78, 2005.10.

已授权国家发明专利：

[1] 一种同时获取储层岩石低频弹性性质与密度的方法与系统（发明专利号：ZL201310120473.0），2013年，赵建国

[2] 一种储层岩石低频岩石物理模量测量系统（发明专利号：ZL201310148024.7），2013年，赵建国

[3] 一种测量孔隙岩石渗透率的方法和装置（发明专利号：ZL 201310210222.1），2016年，赵建国

[4] 一种油气田压裂废液的处理方法（发明专利号：ZL201510002362.9）,2016，闫秀懿，赵建国

[5] 一种储层岩心样品制备系统及储层岩心样品的制备方法（发明专利号：201310739369.x），2016年，赵建国

[6] 一种岩石样品物理模量光学测量装置及方法（ZL201310739367.0），2017年，赵建国、赵嵩卿

[7] 测量岩石衰减系数的方法与系统（ZL201710691134.6），2017年8月，赵建国，熊彬

[8] 一种频率域2.5维粘弹性波数值模拟方法及装置（ZL201610838492.0），2016年10月，赵建国，黄兴兴，闫秀懿

[9] 碳酸盐岩弹性性质与孔隙结构获取方法、装置及存储介质（202010104071.1），2021，赵建国

[10] 反应釜加热装置及水热反应方法（201410256415.5），2015，闫秀懿，赵建国

[11] 基于SCA模型的孔缝参数反演方法、装置及存储介质(202010141979.X)，2021，赵建国

已授权实用新型专利：

[1] 一种储层岩心样品制备系统.专利号：ZL201320878727.0，授予时间：2014年，赵建国

[2] 一种岩石样品物理模量光学测量装置及方法. 专利号：ZL201320878838.1，授予时间：2014年，赵建国

[3] 一种储层岩石低频岩石物理模量测量系统. 专利号： ZL201320216600.2，授予时间：2013年，赵建国

[4] 一种高压气体采样装置. 专利号：ZL201220560450.2，授予时间：2012年，朱雷，赵建国，闫秀懿

[5] 反应釜加热装置.专利号：ZL201420306543.1，授予时间：2014年，闫秀懿，赵建国，王伟

----------------------------------------- ENGLISH Version ---------------------------------------------------

Dr. Jian-guo Zhao (full professor, PhD supervisor)

Jian-guo Zhao is a professor at the Department of Geophysics, China University of Petroleum (Beijing). He got bachelor and master degrees from Department of Geophysics in Jilin University in 1998 and 2002, respectively, and he got his PhD from Tohoku University, Japan in 2006. He started his career at the Department of Geophysics in China University of Petroleum, Beijing. His interests include seismic wave modelling, oil&gas exploration-oriented seismic rock physics and reservoir prediction and fluid identification, forward and inversion of electromagnetic geophysics, borehole electromagnetic methods, GPR and borehole radar applications in petroleum and civil engineering, artificial intelligence applications in geosciences and civil engineering. He published tens of papers in international journals and is a principal investigator for more than twenty projects including five NSFC (National Natural Science Foundation of China projects.

Contact: zhaojg@cup.edu.cn

Recruitment of International students and post doctors:

International students for master and PhD study are welcome. I would be happy to assist the candidates to apply for the CSC or university scholarships. Please read my profile below before sending emails to me. Postdoctoral positions are open at any time. Any PhD holder with interests in seismic wave propagation theory, seismic rock physics, reservoir prediction and fluid identification, forward and inversion of electromagnetic geophysics, borehole electromagnetic methods, GPR and borehole radar applications in petroleum and civil engineering, artificial intelligence applications in geosciences and civil engineering are welcome. Please contact me to discuss the project topics and salary.

Educational Background

Ph.D., Geophysics, Tohoku University, 2006

M.Sc., Geophysics, Jilin University, 2002

B.Sc., Geophysics, Changchun college of Geoscience, 1998

Research Interests & Projects

Seismic rock physics

Seismic wave modelling and full waveform inverison

Computational electromagnetics

Applications of fully polarimetirc GPR and borehole Radar in civil engineering and geosciences

Artificial intelligence in geosciences

2021-2024 Study on multi-band seismic rock physical response mechanism in Yingqiong Basin characterized by ultra-high temperature and pressure, funded by by Natural Science Foundation of China (NSFC Major project), project manager

2020-2023 Seismic wave dispersion imaging driven by multi-band experimental and theoretical study of rock physics, funded by by Natural Science Foundation of China (NSFC), project manager

2016-2019 Multi-band (from seismic to ultrasonic frequencies) laboratory techniques-based rock physics experiments and theoretical model studies on carbonate reservoir, funded by Natural Science Foundation of China (NSFC), project manager

2013-2016 Fully polarimetric borehole radar multi-polarization components-based joint full-waveform inversion in frequency domain and radar polarimetry analysis, funded by Natural Science Foundation of China (NSFC), project manager

2011-2013 Study and application of low frequency seismic response characteristics in heterogenous reservior, funded by China National Petroleum Corporation(CNPC), vice project manager

2007-2010 Joint inversion and Interpretation of Gravity, Electromagnetic and Seismic data, funded by National High Technology Research and Development Program of China(863 program), vice project manager

2007-2010 A fully polarimetric borehole radar based forward modeling, inversion and radar polarimetry study, funded by Natural Science Foundation of China(NSFC), project manager

2007-2010 Polarimetric attribute analysis of fully polarimetric electromagnetic wavefield, funded by Ministry of Education, project manager

Experience

2015-present Professor, College of Geophysics and Information Engineering, China University of Petroleum – Beijing

2006-2015 Associate Professor, College of Geophysics and Information Engineering, China University of Petroleum – Beijing

2008-2009 Visiting Scientist, Colorado School of Mines, Golden, United States

2008-2009 Visiting Scientist, Stanford University, California, United States

2017.6-2017.9 Visiting Professor, University of Albert, Canada

1998-1999 Construction & Design Institute of Northeast Prospecting Corporation, Changchun, Jilin Province, China. Technician. Worked on Engineering prospecting and signal processing.

Awards & Honors

2015 The sixth Guang-ding Liu geophysical youth awards

2010 Chosen into "Cultivation and Subsidy Program for Excellent Talents in Beijing" by Organization Department of CPC Beijing Committee

2009 Chosen into "Science and Technology New Star Program in Beijing" by Beijing Municipal Science and Technology Commission

2009 Chosen into "Youth Committee of Chinese National Committee of World Petroleum Congress (WPC)"

2002 Japanese Government Scholarship

Journal Publications

[10] Fang Ouyang, Jian-guo Zhao*, Shikun Dai, and Shangxu Wang, “Seismic wave modeling in vertically varying viscoelastic media with general anisotropy”, Geophysics, Vol. 86 (4), 2021.

[11] Fang Ouyang, Jian-guo Zhao*, Shikun Dai, and Shangxu Wang, “Shape-function-based non-uniform Fourier transforms for seismic modeling with irregular grids”, Geophysics, Vol. 86 (4), 2021.

[29] J. G. Zhao and M. Sato, “A fully polarimetric borehole radar based numerical modelling：fully polarimetric response to synthetic natural fractures,” Progress in Electromagnetics Research Symposium (PIERS) ，pp. 66-70, July, 2010, Cambridge.

[30] Chao Sun, Geng-yang Tang, Jian-guo Zhao, Li-ming Zhao, and Shang-xu Wang, “Three-dimensional numerical modelling of the drained/undrained transition for frequency-dependent elastic moduli and attenuation, Geophysical Journal International, 2019, 219(1): 27-38.

[31] He, Yan Xiao, Wu, Xinyu, Wang, Shangxu, and Zhao, Jianguo, “Reflection dispersion signatures due to wave-induced pressure diffusion in heterogeneous poroelastic media, Exploration Geophysics, 2019, 50(5): 541-553.

[32] MA Xiao-yi, WANG Shang-xu, ZHAO Jian-guo, ZHAO Li-ming, LONG Teng. 2018. Laboratory study of rocks in multi-frequency band.Progress in Geophysics. 33(5): 1943-1950.doi: 10.6038/pg2018CC0144.

[33] Ma, XY., Wang, SX., Zhao, JG. et al. Velocity dispersion and fluid substitution in sandstone under partially saturated conditions. Appl. Geophys. 15, 188–196 (2018). https://doi.org/10.1007/s11770-018-0683-8.

[34] Wen-jun XING, Kai-long WU, Xin WU, Wen-hui XU, Teng LONG, Zhi-jun LIU, Bin XIONG, Jian-guo ZHAO. 2018. Multi-frequency laboratory measurement of rock physics property on sandstone.Progress in Geophysics. 33(4): 1609-1616.doi: 10.6038/pg2018BB0350.

[35] Xiao-Yi Ma, Shang-Xu Wang, Jian-guo Zhao, Han-Jun Yin, and Li-ming Zhao, “Velocity dispersion and fluid substitution in sandstone under partially saturated conditions”, Applied Geophysics, vol. 15, No.2, p. 188-196, 2018.

[36] Chao Sun, Geng-yang Tang, Jian-guo Zhao, Li-ming Zhao, and Shang-xu Wang, “An enhanced broad-frequency-band apparatus for dynamic measurement of elastic moduli and Poisson’s ratio of rock samples”, Review of Scientific Instruments, 89064503 (2018); https://doi.org/10.1063/1.5018152.

[37] Zhao, Liming, Tang, Genyang, Wang, Shangxu, Zhao, Jianguo, Wang, Xingmou, Liu, Haojie, Wei, Guohua, Sun, Chao, Li, Minlong, Li, Min, Laboratory study of oil saturation and oil/water substitution effects on a sandstone's : modulus dispersion and attenuation, Exploration Geophysics, 2019, 50(3): 324-335.

[38] Pan, JG., Deng, JX., Li, C. et al. Effects of micrite microtextures on the elastic and petrophysical properties of carbonate reservoirs. Appl. Geophys. 16, 399–413 (2019). https://doi.org/10.1007/s11770-019-0777-y

[39] ZHAO Liming, TANG Genyang, WANG Shangxu, DONG Chunhui, HE Yanxiao, ZHAO Jianguo, SUN Chao, HAN Xu. Low-frequency seismic rock physics measurement system improvement and experiments on tight sandstone. Petroleum Science Bulletin, 2019, 02: 111-122.

[40] Jian-xin Wei, Jian-guo Zhao, Shuai Da, Ping-bo Ding, Bang-rang Di, and Shu-yuan Qin, “Estimations of P- and S-wave velocities and anisotropy from measurements on artificial fractured samples”, Geophysics, 2018.

[41] Rong Peng, Bangrang Di, Jianxin Wei, Pinbo Ding, Jianguo Zhao, Xiao Pan, and Zichun Liu, “Experimental study of the seismoelectric interface response in wedge and cavity models”, Geophysical Journal International, Volume 210, Issue 3, 1 September 2017, Pages 1703–1720, https://doi.org/10.1093/gji/ggx253.

[42] Chai, X., S. Wang, S. Yuan, J. Zhao, L. Sun, and X. Wei, 2014, Sparse reflectivity inversion for nonstationary seismic data: Geophysics, 79, no. 3, V93-V105, doi: 10.1190/GEO2013-0313.1. [43] Cheng Jingyi, Jian-Guo Zhao, “Application of the nearly perfectly matched layer to seismic wave propagation modeling in elastic anisotropic media,” Bull. Seism. Soc. Am., Vol. 101, No.6, pp. 2866-2871, Dec. 2011.

[44] Hai-qiang Lan, Jing-yi Chen, Zhong-jie Zhang, You-shan Liu, Jian-guo Zhao, and Rui-qi Shi, “Application of a perfectly matched layer in seismic wavefield simulation with an irregular free surface”, Geophysical Prospecting, doi: 10.1111/1365-2478. 12260.

[45] WEI Xian, WANG Shang-Xu, ZHAO Jian-Guo, TANG Gen-Yang, DENG Ji-Xin. Laboratory study of velocity dispersion of the seismic wave in fluid-saturated sandstones[J]. Chinese Journal of Geophysics (in Chinese), 2015, 58(9): 3380-3388, doi: 10.6038/cjg20150930

[46] DENG Ji-Xin, ZHOU Hao, WANG Huan, ZHAO Jian-Guo, WANG Shang-Xu. The influence of pore structure in reservoir sandstone on dispersion properties of elastic waves[J]. Chinese Journal of Geophysics (in Chinese), 2015, 58(9): 3389-3400, doi: 10.6038/cjg20150931

[47] Wei Xian,Wang Shangxu,Zhao Jianguo,Deng Jixin. Laboratory investigation of influence factors on v_P and v_S in tight sandstone. Geophysical Prospecting for Petroleum, 2015, 54(1): 9-16.

[48] Shi Ruiqi, Wang Shangxu, Guo Rui, Zhao Jianguo. Finite-element numerical modeling of elastic wave on unstructured meshes. OGP, 2013, 48(6): 915-923.

[49] Can ozsoy, Jingyi Chen, Qunshan Zhang, Jian-guo Zhao, and Gulsah Metin, “Nearly perfectly matched layer boundary condition for second-order anisotropic acoustic wave equations”, Journal of seismic exploration, Vol. 22, pp. 489-500, 2013.

[50] Ji-xin Deng, Shang-xu Wang, Gen-yang Tang, Jian-guo Zhao, “The influence of mesoscopic flow on the P-wave attenuation and dispersion in a porous medium permeated by aligned fractures”, Studia Geophysica et Geodaetica, 2013, 57(3), 482-506.

[51] Chun-hui Dong, Shang-xu Wang, Jian-guo Zhao, and Genyang Tang, “Numerical experiment and analysis of the differential acoustic resonance spectroscopy for elastic property measurements”, Journal of Geophysics and Engineering, 2013, 10(5): doi:10.1088/1742-2132/10/5/054002.

[52] Ruiqi Shi, Shangxu Wang, and Jian-Guo Zhao, “An unsplit complex-frequency-shifted PML based on matched Z-transform for FDTD modeling of seismic wave equations,” Journal of Geophysics and Engineering, Vol.9, No.2, pp. 218-229, 2012.

地质与地球物理研究所

赵建国 教授，博士生导师

赵建国教授，博士生导师