• 潘哲君
  • 发布人: 发布日期:[2019-01-08] 点击次数:[1621]
  • 潘哲君教授是非常规天然气开发领域的国际知名专家,现任澳大利亚联邦科学与工业研究院非常规天然气储层工程实验室主任,东北大学特聘教授,天然气研究国际权威SCI期刊Journal of Natural Gas Science and Engineering的执行副主编。他在非常规天然气实验及理论研究方面开展了大量深入的工作,共发表SCI期刊论文120余篇,SCI总被引4000次左右,其中11篇论文曾入选ESI1%高被引论文;所研发的非常规天然气渗流的实验方法被国际同行广泛参考;开发的研究页岩渗透率各向异性实验方法及裂隙导流能力与支撑剂关系方法及成果受到了工业界与学术界的重视;宏观及微观相结合研究了水与含气页岩的反应及岩石力学特性变化;开发了页岩气生产的储层模拟计算软件。

    潘哲君教授为促进中国与澳大利亚的学术交流做出了重要的贡献。指导了15名联合培养的中国博士生及7位中国访问学者;邀请与接待了十余次中国企业与学术界研究人员到澳大利亚联邦科学与工业研究院进行交流合作;与中国油气企业包括中石油、中石化及中海油建立了良好的合作关系,并在这些企业以及各个相关大学开设学术讲座及英文论文写作讲座;多次应邀参加在中国召开的国际国内学术会议并做主题报告。

    近五年发表主要论文如下,

    1)Chen, T., Feng, X.-T., Cui, G., Tan, Y., Pan, Z., 2019. Experimental study of permeability change of organic-rich gas shales under high effective stress. Journal of Natural Gas Science and Engineering. 64, 1-14.

    2)Tan, Y., Pan, Z.Feng, X.-T., Zhang, D., Connell, L.D., Li, S., 2019. Laboratory characterisation of fracture compressibility for coal and shale gas reservoir rocks: A review. International Journal of Coal Geology. 204, 1-17.

    3)Chen, T., Feng, X.-T.Pan, Z., 2018. Experimental study on kinetic swelling of organic-rich shale in CO2, CH4 and N2. Journal of Natural Gas Science & Engineering. 55, 406-417.

    4)Tan, Y., Pan, Z., Liu, J., Feng, X.-T., Connell, L.D., 2018. Laboratory study of proppant on shale fracture permeability and compressibility. Fuel. 222, 83-97.

    5)Li, Y., Wang, Z., Pan, Z., Niu, X., Yu, Y., Meng, S., 2019. Pore structure and its fractal dimensions of transitional shale: A cross-section from east margin of the Ordos Basin, China. Fuel. 241, 417-431.

    6)Yao, Y., Liu, J., Liu, D., Chen, J., Pan, Z., 2019. A new application of NMR in characterization of multiphase methane and adsorption capacity of shale. International Journal of Coal Geology. 201, 76-85.

    7)Peng, Y., Liu, J., Pan, Z., Qu, H., Connell, L.D., 2018. Evolution of shale apparent permeability under variable boundary conditions. Fuel. 215, 46-56.

    8)Wan, Y., Zhang, S., Tang, S., Pan, Z., Wu, W., 2018. A comparative study of characterization of lower Palaeozoic Niutitang shale in northwestern Hunan, China. Journal of Natural Gas Science and Engineering. 53, 284-300.

    9)Tan, Y., Pan, Z.*, Liu, J., Wu, Y., Haque, A., Connell, L.D., 2017. Experimental study of permeability and its anisotropy for shale fracture supported with proppant. Journal of Natural Gas Science and Engineering. 44, 250-264.

    10)Lu, M., Pan, Z., Connell, L.D., Lu, Y., 2017. A coupled, non-isothermal gas shale flow model: Application to evaluation of gas-in-place in shale with core samples. Journal of Petroleum Science and Engineering. 158, 361-379.

    11)Sander, R., Pan, Z.*, Connell, L.D., 2017. Laboratory measurement of low permeability unconventional gas reservoir rocks: A review of experimental methods. Journal of Natural Gas Science and Engineering. 37, 248-279. ESI 论文)

    12)Chen, D., Ye, Z., Pan, Z., Zhou, Y., Zhang, J., 2017. A permeability model for the hydraulic fracture filled with proppant packs under combined effect of compaction and embedment. Journal of Petroleum Science and Engineering. 149, 428-435.

    13)Qu, H., Pan, Z., Peng, Y., Zhou, F., 2016. Controls on matrix permeability of shale samples from Longmaxi and Niutitang formations, China. Journal of Natural Gas Science and Engineering. 33, 599-610.

    14)Ma, Y., Pan, Z.*, Zhong, N., Connell, L.D., Down, D.I., Lin, W., Zhang, Y., 2016. Experimental study of anisotropic gas permeability and its relationship with fracture structure of Longmaxi Shales, Sichuan Basin, China. Fuel. 180, 106-115.ESI 论文)

    15)Ye, Z., Chen, D., Pan, Z., Zhang, G., Xia, Y., Ding, X., 2016. An improved Langmuir model for evaluating methane adsorption capacity in shale under various pressures and temperatures. Journal of Natural Gas Science and Engineering. 31, 658-680.

    16)Chen, D., Pan, Z., Ye, Z., Hou, B., Wang, D., Yuan, L., 2016. A unified permeability and effective stress relationship for porous and fractured reservoir rocks. Journal of Natural Gas Science and Engineering. 29, 401-412.

    17)Peng, Y., Liu, J., Pan, Z., Connell, L.D., 2015. A sequential model of shale gas transport under the influence of fully coupled multiple processes. Journal of Natural Gas Science and Engineering. 27, 808-821.

    18)Li, S., Tang, D., Xu, H., Pan, Z., Huang, W., Zhu, X., 2015. Comparative analysis on water movability in pores of different reservoir rocks by nuclear magnetic resonance. Energy, Exploration & Exploitation. 33 (5), 689-705.

    19)Pan, Z.*, Ma, Y., Connell, L.D., Down, D.I., Camilleri, M., 2015. Measuring anisotropic permeability using a cubic shale sample in a triaxial cell. Journal of Natural Gas Science and Engineering. 26, 336-344.

    20)Ye, Z., Chen, D., Pan, Z., 2015. A unified method to evaluate shale gas flow behaviours in different flow regions. Journal of Natural Gas Science and Engineering. 26, 205-215.

    21)Wan, Y., Pan, Z.*, Tang, S., Connell, L.D, Down, D., Camilleri, M., 2015. An experimental investigation of diffusivity and porosity anisotropy of a Chinese gas shale. Journal of Natural Gas Science and Engineering. 23, 70-79.

    22)Pan, Z.*, Connell, L., 2015. Reservoir simulation of free and adsorbed gas production from shale.  Journal of Natural Gas Science and Engineering. 22, 359-370.ESI 论文)

    23)Ma, Y., Zhong, N., Li, D., Pan, Z., Cheng, L., Liu, K., 2015. Organic matter/clay mineral intergranular pores in the Lower Cambrian Lujiaping Shale in the north-eastern part of the upper Yangtze area, China: A possible microscopic mechanism for gas preservation. International Journal of Coal Geology. 137, 38-54.ESI 论文)

    24)Chen, D., Pan, Z.*, Ye, Z., 2015. Dependence of gas shale fracture permeability on effective stress and reservoir pressure: Model match and insights. Fuel. 139, 383-392.ESI 论文)

    25)Yuan, W., Li, X., Pan, Z*, Connell, L.D., Li, S., He, J., 2014. Experimental investigation of interactions between water and a lower Silurian Chinese shale. Energy and Fuels. 28 (8), 4925-4933.

    26)Yuan, W., Pan, Z.*, Li, X., Yang, Y., Zhao, C., Connell, L.D., Li, S., He, J., 2014. Experimental study and modelling of methane adsorption and diffusion in shale. Fuel. 117, 509-519. ESI 论文)

    研究生招生专业:岩土工程、矿业工程。每年招收博士生1~2名、硕士生2~3名。欢迎基础知识扎实、性格乐观开朗、有志从事科研的学生报考研究生。将根据工作态度和研究成绩进行资助。表现优异者可送至澳大利亚联邦科学与工业研究院非常规天然气储层工程实验室进行联合培养。

    校内联系人:陈天宇老师,电话15802405726,邮箱 chentianyu@mail.neu.edu.cn