张凤蛟科研成果

张凤蛟 ( 副教授 ) 赞17 的个人主页 https://teachers.jlu.edu.cn/ZFJ8/zh_CN/index.htm   副教授 性别 : 男 毕业院校 : 瑞典乌普萨拉大学 学历 : 博士研究生毕业 学位 : 博士 在职信息 : 在职 所在单位 : 地球探测科学与技术学院 办公地点 : 地质宫527室 个人简介 张凤蛟，男，吉林大学地球探测科学与技术学院，副教授，硕士生导师。2013年博士毕业于瑞典乌普萨拉大学，曾任乌普萨拉大学助理研究员，博士后(2014-2016)，主要研究重点包括时移地震数据处理，地震全波形反演方法与应用，多源地震成像，地质固碳地震监测等方面。主持国家自然科学基金青年基金项目“多源时移地震全波形反演方法”（41404092，结题）和面上项目“基于多源数据的时移地震监测方法研究”（41974138，在研），以及国家重点研发计划子课题1项，横向项目2项。同时还参加了国家“863”计划重点项目“金属矿地震勘探关键技术与装备”数据处理课题、自然科学基金面上项目“多震源多分量混采数据全波场重构与联合成像研究”和自然科学基金重点项目“主动源与被动源数据联合驱动的多震源地震勘探理论方法研究”的研究。发表SCI/EI检索学术论文30余篇。并担任Geophysics，Geophysical Journal International, Geophysical Prospecting，Journal of Applied Geophysics, Act Geophysica,等杂志审稿人。主持项目[1]二氧化碳地质封存多源时移地震监测方法, 科技部国合专项, 2021/01/01-2022/12/01；[2] 深层城市地下管线高分辨率地震勘探成像技术, 横向项目， 2019/11/01-2020/11/01；[3] 浅层城市地下管线探地雷达高分辨率成像技术, 横向项目， 2019/11/01-2020/11/01；[4] 提高纵向分辨率的鬼波压制技术研究, 国家重点研发计划，子课题任务，2017/07/01-2020/12/01；[5] 多源时移地震全波形反演方法研究, 国家自然科学基金, 青年基金， 2015/01/01-2017/12/01；[6] 基于多源数据的时移地震监测方法研究, 国家自然科学基金, 面上项目，2020/01/01-2023/12/01。发表论文列表1Zhang, F., Xu, Z., Juhlin, C., Ivandic, M., Han, L., and Zhang, P.: ‘Passive seismic interferometry imaging: An example from the Ketzin pilot CO2 geological storage site’, Journal of Applied Geophysics, 2022, 2052Zhang, F., and Ivandic, M.: ‘Editorial for the Special Issue: “Studies of Seismic Reservoir Characterization”’, Minerals-Basel, 2022, 12, (9)3Xu, Z., Zhang, F., Juhlin, C., Gong, X., Han, L., Cosma, C., and Lueth, S.: ‘Time-Lapse Cross-Well Monitoring of CO2 Sequestration Using Coda Wave Interferometry’, Remote Sensing, 2022, 14, (24)4Atta Ullah, F.Z.a.L.H.: ‘Petrophysical evaluation for reservoir properties of Lower Cretaceous sands in Sawan gas field, central Indus Basin, Pakistan’, Global Geology, 2022, 25, (3), pp. 182-1945Zhang, P., Han, L., Zhang, F., Feng, Q., and Chen, X.: ‘Wavefield Decomposition-Based Direct Envelope Inversion and Structure-Guided Perturbation Decomposition for Salt Building’, Minerals-Basel, 2021, 11, (9)6Zhang, F., Zhang, P., Xu, Z., Gong, X., and Han, L.: ‘Multisource Seismic Full Waveform Inversion of Metal Ore Bodies’, Minerals-Basel, 2021, 12, (1)7Xu, Z., Zhang, F., Juhlin, C., Lund, B., Ask, M., and Han, L.: ‘Extrapolated supervirtual refraction interferometry’, Geophys J Int, 2021, 227, (2), pp. 1439-14638Sun, Z., Liu, Y., Han, F., Zhang, F., Ou, X., Cao, M., Lei, A., Yang, S., Liu, M., and Gao, Z.: ‘Study on the 3D Sedimentary Characteristics of Sandstone Type Uranium Reservoir Based on 3D Seismic Attribute’, Minerals-Basel, 2021, 11, (10)9Zhang, P., Han, L., Gao, R., Zhang, F., and Xing, Z.: ‘Frequency extension and robust full-waveform inversion based on nth power operation’, Acta Geophysica, 2020, 68, (5), pp. 1317-133310Shijun Cheng, L.H., Longjiang Yu, Fengjiao Zhang: ‘Seismic data denoising based on improved K-SVD dictionary learning method’, Global Geology, 2018, 37, (2), pp. 628-63411Huang, F., Bergmann, P., Juhlin, C., Ivandic, M., Lüth, S., Ivanova, A., Kempka, T., Henninges, J., Sopher, D., and Zhang, F.: ‘The first post-injection seismic monitor survey at the Ketzin pilot CO2storage site: results from time-lapse analysis’, Geophys Prospect, 2018, 66, (1), pp. 62-8412Emil Lundberg, C.J., Fengjiao Zhang, Ruth Behrendt: ‘Seismic reflection, refraction and tomography results from 3D seismic data, Forsmark’, in Editor (Ed.)^(Eds.): ‘Book Seismic reflection, refraction and tomography results from 3D seismic data, Forsmark’ (SWEDISH NUCLEAR FUELAND WASTE MANAGEMENT CO, 2018, edn.), pp. 13Zhang, P., Han, L., and Zhang, F.: ‘Seismic ambient noise reconstruction based on the multi-taper spectral method: Application to the seismic full waveform inversion’. Proc. 2017 IEEE Global Conference on Signal and Information Processing (GlobalSIP)2017 pp. Pages14Zhang, P., Han, L., Xu, Z., Zhang, F., and Wei, Y.: ‘Sparse blind deconvolution based low-frequency seismic data reconstruction for multiscale full waveform inversion’, Journal of Applied Geophysics, 2017, 139, pp. 91-10815Zhang, F.J., Juhlin, C., Huang, F., Han, L., Zhuo, X., and Luth, S.: ‘Cross-correlation or Autocorrelation - A Passive Seismic Interferometry Example from Ketzin CO2 Geological Storage Site’. Proc. 79th EAGE Conference and Exhibition 20172017 pp. Pages16Yang, H., Long, Y., Lin, J., Zhang, F., and Chen, Z.: ‘A seismic interpolation and denoising method with curvelet transform matching filter’, Acta Geophysica, 2017, 65, (5), pp. 1029-104217Xu, Z., Juhlin, C., Han, L., and Zhang, F.: ‘Reconstruction of surface waves using super virtual interferometry: an example from the Forsmark site, Sweden’, Geophys J Int, 2017, 211, (1), pp. 120-14018Huang, F., Juhlin, C., Han, L., Sopher, D., Ivandic, M., Norden, B., Deng, W., Zhang, F., Kempka, T., and Lüth, S.: ‘Feasibility of utilizing wavelet phase to map the CO2plume at the Ketzin pilot site, Germany’, Geophys Prospect, 2017, 65, (2), pp. 523-54319Hu, Y., Han, L., Xu, Z., Zhang, F., and Zeng, J.: ‘Adaptive multi-step Full Waveform Inversion based on Waveform Mode Decomposition’, Journal of Applied Geophysics, 2017, 139, pp. 195-21020Hu, Y., Han, L., Jin, Z., Wei, Y., Zhang, F., and Sun, H.: ‘Single-frequency waveform-based multiscale wave-equation traveltime inversion’. Proc. SEG Technical Program Expanded Abstracts 20172017 pp. Pages21C. Duan, F.Z., L. Han, A. Chang, X. Yang and F. Huang: ‘Compressed FWI inversion with non-monotone line search LBFGS’, Journal of Seismic Exploration, 2017, 26, pp. 561-58522Behrendt, R., Lundberg, E., Juhlin, C., Zhang, F., and Lehtimäki, T.: ‘Bedrock Depth Estimations and Their Limitations - Comparison between Refraction Seismics and Geotechnical Investigations’. Proc. 23rd European Meeting of Environmental and Engineering Geophysics2017 pp. Pages23Zhang, F., Juhlin, C., Niemi, A., Huang, F., and Bensabat, J.: ‘A feasibility and efficiency study of seismic waveform inversion for time-lapse monitoring of onshore CO 2 geological storage sites using reflection seismic acquisition geometries’, Int J Greenh Gas Con, 2016, 48, pp. 134-14124Huang, F., Juhlin, C., Han, L., Kempka, T., Lüth, S., and Zhang, F.: ‘Quantitative evaluation of thin-layer thickness and CO2mass utilizing seismic complex decomposition at the Ketzin CO2storage site, Germany’, Geophys J Int, 2016, 207, (1), pp. 160-17325Bergmann, P., Diersch, M., Götz, J., Ivandic, M., Ivanova, A., Juhlin, C., Kummerow, J., Liebscher, A., Lüth, S., Meekes, S., Norden, B., Schmidt-Hattenberger, C., Wagner, F.M., and Zhang, F.: ‘Review on geophysical monitoring of CO2 injection at Ketzin, Germany’, Journal of Petroleum Science and Engineering, 2016, 139, pp. 112-13626Malehmir, A., Zhang, F., Dehghannejad, M., Lundberg, E., Döse, C., Friberg, O., Brodic, B., Place, J., Svensson, M., and Möller, H.: ‘Planning of urban underground infrastructure using a broadband seismic landstreamer — Tomography results and uncertainty quantifications from a case study in southwestern Sweden’, Geophysics, 2015, 80, (6), pp. B177-B19227Huang, F., Juhlin, C., Kempka, T., Norden, B., and Zhang, F.: ‘Modeling 3D time-lapse seismic response induced by CO2 by integrating borehole and 3D seismic data – A case study at the Ketzin pilot site, Germany’, Int J Greenh Gas Con, 2015, 36, pp. 66-7728Zhang, F., Juhlin, C., and Sopher, D.: ‘Passive Seismic Ambient Noise Correlation: An Example from the Ketzin Experimental CO2 Storage Site, Germany’, Energy Procedia, 2014, 59, pp. 90-9629Zhang, F., and Juhlin, C.: ‘Full waveform inversion of seismic reflection data from the Forsmark planned repository for spent nuclear fuel, eastern central Sweden’, Geophys J Int, 2014, 196, (2), pp. 1106-112230Brojerdi, F.S., Zhang, F., Juhlin, C., Malehmir, A., Lehtimäki, T., Mattsson, H., and Curtis, P.: ‘High resolution seismic imaging at the planned tunnel entrance to the Forsmark repository for spent nuclear fuel, central Sweden’, Near Surface Geophysics, 2014, 12, (6), pp. 709-72031Zhang, F.J., Juhlin, C., Ivandic, M., and Luth, S.: ‘Application of seismic full waveform inversion to monitor CO2 injection: modelling and a real data example from the Ketzin site, Germany’, Geophys Prospect, 2013, 61, pp. 284-29932Zhang, F., Juhlin, C., Cosma, C., Tryggvason, A., and Pratt, R.G.: ‘Cross-well seismic waveform tomography for monitoring CO2 injection: a case study from the Ketzin Site, Germany’, Geophys J Int, 2012, 189, (1), pp. 629-64633Lüth, S., Bergmann, P., Cosma, C., Enescu, N., Giese, R., Götz, J., Ivanova, A., Juhlin, C., Kashubin, A., Yang, C., and Zhang, F.: ‘Time-lapse seismic surface and down-hole measurements for monitoring CO2 storage in the CO2SINK project (Ketzin, Germany)’, Energy Procedia, 2011, 4, pp. 3435-3442 教育经历 [1] 2000.9 -- 2004.6 上海交通大学       电气工程及自动化       本科毕业       学士 [2] 2008.9 -- 2013.2 Uppsala University       固体地球物理学       博士研究生毕业       博士 [3] 2005.9 -- 2007.6 吉林大学       其他 工作经历 [1] 2013.3 -- 2013.8 Uppsala University      Department of Earth Sciences      助理研究员 [2] 2014.4 -- 2016.8 Uppsala University      Department of Earth Sciences      博士后      博士后研究 [3] 2013.12 -- 2016.9 吉林大学      地球探测科学与技术学院      讲师 [4] 2016.9 -- 至今 吉林大学      地球探测科学与技术学院      副教授 社会兼职 [1] 2021.6 -- 2021.12 Minerals 客座编辑 Special Issue "Studies of Seismic Reservoir Characterization" 研究方向 [1] 城市地下空间探测 [2] 地质固碳地震监测 [3] 主被动源联合地震成像 [4] 地震全波形反演方法与应用 [5] 时移地震数据处理 教师其他联系方式 [1] Email : zhangfengjiao@jlu.edu.cn [2] QQ : 15185931