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    张凤蛟
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    ( 副教授 )

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    的个人主页 https://teachers.jlu.edu.cn/ZFJ8/zh_CN/index.htm

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  •   副教授
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, 205

2Zhang, 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. 182-194

5Zhang, 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. 1439-1463

8Sun, 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. 1317-1333

10Shijun Cheng, L.H., Longjiang Yu, Fengjiao Zhang: ‘Seismic data denoising based on improved K-SVD dictionary learning method’, Global Geology, 2018, 37, (2), pp. 628-634

11Huang, 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. 62-84

12Emil 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 FUEL

AND 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. Pages

14Zhang, 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. 91-108

15Zhang, 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. Pages

16Yang, 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. 1029-1042

17Xu, 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. 120-140

18Huang, 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. 523-543

19Hu, 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. 195-210

20Hu, 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. Pages

21C. 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. 561-585

22Behrendt, 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. Pages

23Zhang, 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. 134-141

24Huang, 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. 160-173

25Bergmann, 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. 112-136

26Malehmir, 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-B192

27Huang, 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. 66-77

28Zhang, 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. 90-96

29Zhang, 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. 1106-1122

30Brojerdi, 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. 709-720

31Zhang, 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. 284-299

32Zhang, 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. 629-646

33Lüth, 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 :
  • [2] QQ :
地址:吉林省长春市前进大街2699号
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