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费文斌

教授 / 博士生导师

所属单位 湖南大学 土木工程学院
研究方向 压气(空气、氢气)储能,新能源工程基础结构
电子邮箱 wenbinfei@hnu.edu.cn

个人简介

费文斌, 岩土与地下工程系教授,博士生导师,国家高层次青年人才,湖南大学岳麓学者,青矩学者;墨尔本大学荣誉研究员; 曾于中铁第四勘察设计院集团有限公司任多个项目的地质路基路面专业负责人; 费文斌博士主要从事"多孔介质的多尺度多物理场研究及其在能源岩土工程中的应用",包括: 颗粒/孔隙尺度上岩土材料的基础理论研究 通过先进的试验、模拟技术(CT成像、图像处理、离散元、有限元及网络模型)和统计方法(复杂网络理论和机器学习)建立数据驱动型研究平台表征岩土体微观结构及预测其水-热-力-生-化等特性。 场地尺度上的工程应用研究 压缩空气储能、海上工程桩锚基础、地热工程、能源桩、能源隧道、二氧化碳地质封存。

教育与工作经历

  • 2023.12–至今:湖南大学土木工程学院,教授
  • 2023.08:加州理工学院,访问学者
  • 2023.07 – 2023.08:剑桥大学,访问学者
  • 2022.09 – 2023.12:墨尔本大学,Senior Research Fellow
  • 2022.05:沙特阿拉伯阿卜杜拉国王科技大学,访问学者
  • 2020.06 – 2022.08:墨尔本大学,Research Fellow
  • 2018.01 – 2020.11:澳大利亚Bamford Rock Testing Services (BRTS),岩土工程师
  • 2014.07 – 2016.11:中铁第四勘察设计院集团有限公司,岩土工程师

学术兼职

  • 国际土力学与岩土工程学会(ISSMGE)-TC308能源岩土,地下能源储存方向负责人
  • 中国岩石力学与工程学会-深地储能分会,理事
  • 湖南省岩石力学与工程学会,副理事长
  • Journal of Rock Mechanics and Geotechnical Engineering 科学编辑
  • Frontiers in Materials 特刊客座主编
  • 国际土力学与岩土工程学会会员
  • 多孔介质国际学会会员
  • Australian Geomechanics Society Victoria Chapter 专委会委员(曾任)
  • Australian Association for Granular Media 秘书长(曾任)
  • 墨尔本大学 FEIT Early Career Academic Network 联合主席(曾任)
  • 墨尔本大学 FEIT Research Comittee 专委会委员(曾任)

科研项目

  • 岩土力学与工程安全全国重点实验室开放基金:排水系统对压气储能硐室稳定性影响及其最优化布置方法研究(2025-2026),主持
  • 国际合作项目:岩土材料在储热工程中的应用:微细观机理及性能预测(2024-2025),主持
  • 国家自然科学基金面上项目: 螺旋能源桩贯入及换热过程中桩-土接触带热-力特性研究(2025-2028), 资助率11.5%,主持
  • 国家海外高层次人才计划青年项目(2024 - ), 主持
  • 湖南大学科研启动经费(2024 - ), 主持
  • 墨尔本大学基础工程系-计算机学院联合基金: Recovering waste heat from data centres using thermal energy storage pile (2023-), 主持
  • 墨尔本大学 Early Career Researcher Grant: Harnessing geothermal energy from new quadruple-function piles (2022 - ), 主持
  • 墨尔本大学数据分析合作基金:Artificial intelligence-based image enhancement and segmentation (2022 –), 主持
  • 澳大利亚同步加速器基金: Effect of microstructure and inter-particle bond breakage on heat transfer in granular materials (2020), 主持
  • VENSO PTY LTD: Thermo-physical parameter measurements of solutions and coated seeds (2022), 主持
  • Hot Dry Rocks Pty Ltd: Modelling of open-loop coaxial ground heat exchangers for deep geothermal engineering (2020), 共同主持
  • 中铁第四勘察设计院集团有限公司: 地质调查辅助软件 (2016), 申请人

奖励与荣誉

  • 2022, 国家级青年人才项目入选者
  • 2023, 剑桥大学 Visiting Scholars Fund
  • 2022, 国家优秀自费留学生奖学金
  • 2021, 封面文章, Journal of Rock Mechanics and Geotechnical Engineering
  • 2020, Editor's Choice paper, Journal of Geotechnical and Geoenvironmental Engineering
  • 2017, 墨尔本大学 Melbourne Research Scholarship
  • 2016, 中铁第四勘察设计院集团有限公司,优秀师徒
  • 2015, 中铁第四勘察设计院集团有限公司, 文明建设先进班组
  • 2014, 中国科学院优秀毕业生

发表论文

  • T Wang, W Fei*, KA Ehinger, TW Drummond, GA Narsilio (2025). Improved level set method for particle reconstruction from X-ray computed tomography images. Powder Technology, 120743 (IF=4.5).
  • A Zhou, P Li, L Fan, Z Yi, X Tang, W Fei *(2025). Influence of drainage system on the stability of underground CAES gas storage under different lateral pressure coefficients. Tunnelling and Underground Space Technology 159, 106444 (IF: 6.7).
  • J Qi, W Fei*, G Narsilio. (2025). An LBM study on the local fluid flow in irregular monodisperse granular assemblies from DEM: Effects of particle shape. Computers and Geotechnics 177:106817 (IF=5.3)
  • Chen, T., Fei, W*. and Narsilio, G. (2024). Effective thermal conductivity of granular soils: a review of influencing factors and prediction models towards an investigation framework through multiscale characters. Canadian Geotechnical Journal. (IF: 3.73)
  • Xiao, T., Li, P., Fei, W. and Wang, J. (2024) Effects of vegetation roots on the structure and hydraulic properties of soils: A perspective review. Science of The Total Environment, 906: 167524. (IF: 8.2)
  • Sun, L., Li, P., Fei, W. and Wang, J. (2024) Influence of biochar on the soil-water retention behavior of compacted loess in man-made earth structures in loess regions. Journal of Soils and Sediments , 1-21. (IF: 3.54)
  • Bandeira Neto, L. A., Fei, W.* and Narsilio, G. A. (2024) Improving thermal performance of groups of energy screw piles with phase change materials. Appl. Therm. Eng. 121874. (IF: 6.1)
  • Fei, W.*, Neto, L., Dai, S., Cortes, D. & Narsilio, G. A. (2023) Numerical analysis of energy screw pile filled with phase change materials. Renewable Energy 202: 865-879. (IF: 8.63)
  • Fei, W., Cui, X., Santamarina, J., & Narsilio, G. A. (2023) Evolution of stress-induced thermal anisotropy in granular materials: A directed network perspective. Powder Technology 415: 118087. (IF: 5.64).
  • Cui, X., Li, J., Fei, W., Wen, T., Ding, S., He, S., & Fan, Y. (2022) Migration and deposition behavior of silica powder in saturated sand: coupled effects of temperature and flow rate, Granular Matter, 24:3 (IF: 3.151).
  • Fei, W., Ma, Q., Soga, K., & Narsilio, G. A. (2022) A graph-theory based directed network feature for thermal anisotropy. International Journal of Heat and Mass Transfer 194:122987 (IF: 5.584; Journal Ranking:1/125 in Fluid Flow and Transfer Processes in 2015, 2/139 in 2016-2020).
  • Li, Q., Fei, W., Ma, J., Jing, M. & Wei, X. (2022) Coupled CO2 Sequestration Simulation Using ABAQUS and ECLIPSE. Environmental Geotechnics9(3):149-158. (IF: 2.52).
  • Fei, W. & Narsilio, G. A. (2021) Estimation of thermal conductivity of cemented sands using thermal network models. Journal of Rock Mechanics and Geotechnical Engineering (IF:9.4; Cover article).
  • Fei, W., Narsilio, G. A., Van Der Linden, J. H., Tordesillas, A., Disfani, M. M. & Santamarina, J. C. (2021) Impact of particle shape on networks in sands. Computers and Geotechnics 137:104258. (IF:5.22)
  • Bidarmaghz, A., Makasis, N., Fei, W. & Narsilio, G. (2021) An efficient and sustainable approach for cooling underground substations. Tunnelling and Underground Space Technology 113:103986. (IF: 6.41).
  • Fei, W., Narsilio, G., Van Der Linden, J., Disfani, M., Miao, X., Yang, B. & Afshar, T. (2021) X-ray computed tomography images and network data of sands under compression. Data in Brief 36:107122.
  • Fei, W., Narsilio, G. A. & Disfani, M. M. (2021) Predicting effective thermal conductivity in sand using an artificial neural network with multi-scale microstructural parameters. International Journal of Heat and Mass Transfer 170:120997. (IF: 5.584; Journal Ranking:1/125 in Fluid Flow and Transfer Processes in 2015, 2/139 in 2016-2020).
  • Fei, W. & Narsilio, G. A. (2020) Network analysis of heat transfer in sands. Computers and Geotechnics 127:103773. (IF:5.22)
  • Fei, W., Narsilio, G. A., Van Der Linden, J. H. & Disfani, M. M. (2020) Network analysis of heat transfer in sphere packings. Powder Technology 362:790-804. (IF: 5.64)
  • Fei, W. & Narsilio, G. A. (2020) Impact of three-dimensional sphericity and roundness on coordination number. Journal of Geotechnical and Geoenvironmental Engineering DOI: 10.1061/(ASCE)GT.1943-5606.0002389. (IF: 4.49; Editor's Choice; Journal Ranking: 2/263 in Geotechnical Engineering and Engineering Geology in 2019-2020)
  • Fei, W., Narsilio, G. A., Van Der Linden, J. H. & Disfani, M. M. (2019) Quantifying the impact of rigid interparticle structures on heat transfer in granular materials using networks. International Journal of Heat and Mass Transfer 143:118514. (IF: 5.584; Journal Ranking:1/125 in Fluid Flow and Transfer Processes in 2015, 2/139 in 2016-2020).
  • Fei, W., Narsilio, G. A. & Disfani, M. M. (2019) Impact of three-dimensional sphericity and roundness on heat transfer in granular materials. Powder Technology 355:770-781. (IF: 5.64)
  • Fei, W. B., Li, Q., Wei, X. C., Song, R. R., Jing, M. & Li, X. C. (2015) Interaction analysis for CO2 geological storage and underground coal mining in Ordos Basin, China. Engineering Geology 196:194-209. (IF: 6.755; Journal Ranking:1/62 in Engineering, Geological in 2019, 2/62 in 2020).
  • Yang, Y., Fei, W., Yu, H.-S., Ooi, J. & Rotter, M. (2015) Experimental study of anisotropy and non-coaxiality of granular solids. Granular Matter 17(2):189-196. (IF: 3.151).
  • Li Q, Fei W*, Liu X, Wei X, Jing M, Li X. (2014) Challenging combination of CO2 geological storage and coal mining in the Ordos basin, China. Greenhouse Gases: Science and Technology 4:452-467.
  • Zhang M, Yang Y, Li Q, Jiang M, Fei W. (2013) Influence of stress paths including principal stress rotation on critical state of dense sand. Chinese Journal of Rock Mechanics and Engineering 32:2560-2565. (IF: 1.91).
  • Li Q, Wei Y-N, Liu G, Jing M, Zhang M, Fei W, Li X. (2013) Feasibility of the Combination of CO2 Geological storage and Saline Water Development in Sedimentary Basins of China. Energy Procedia 37:4511-4517.