基本信息:
王菲,博士,教授,硕/博士生导师,交通学院地下工程系教师
所属团队: 环境岩土工程
办公地点:东南大学九龙湖校区交通学院大楼815室
联系方式:feiwang@seu.edu.cn
王菲,女,东南大学交通学院城市地下空间工程系副教授,博士生导师。博士毕业于剑桥大学环境岩土工程专业,主要从事环境岩土方向的教学、研究工作。研究方向:1)污染土壤与地下水修复技术;2)尾矿等废弃物的资源化再利用;3)软土加固。2017年入选江苏省“双创博士”,2019年入选东南大学至善学者A层次,2022年入学江苏省青蓝工程优秀青年骨干教师。主持国家自然科学基金2项,发表论文30余篇,是江苏省建设用地土壤风险评估、风险管控和修复效果评估报告评审专家,南京市重点行业企业用地土壤污染状况调查专家;现任英文期刊《Water》、《International Journal of Environmental Research and Public Health》客座编辑,担任以《Geotechnique》、《Journal of Hazardous Materials》、《 Science of the Total Environment》为代表的多家国际知名期刊审稿人。
研究方向:
l 污染土壤和地下水的可持续修复技术
l 污染物在土壤和地下水中的迁移特性
l 地基处理加固技术
l 环境政策与环境管理对污染场地修复的影响
教育经历:
2011.09-2015.09剑桥大学 工学院 岩土与环境工程专业 博士
2009.09-2010.11香港科技大学 工学院 土木与环境工程专业 硕士
2005.09-2009.06扬州大学 环境科学与工程学院 环境工程专业 学士
工作经历:
2022至今,东南大学,教授
2015-2022,东南大学,副教授
2018.08-2018.12,田纳西大学,访问学者
科研项目:
[1]国家自然科学基金-面上基金:高性能可渗透反应墙修复污染场地氯代烃的机理及服役性能研究(项目批准号:51978157),项目负责人
[2]国家自然科学基金-青年基金:温度对重金属污染土固化稳定长期性能影响机理与控制研究(项目批准号:51608113),项目负责人
[3]国家重点基础研究发展规划项目:高浓度农药污染场地高效快速氧化技术遴选与研发(2018YFC1803102),子课题负责人
[4]江苏省科技厅项目-省支撑计划(社会发展):改性膨润土竖向阻隔污染场地的关键技术应用研究,子课题负责人
[5]江苏省环保科研课题:复合重金属污染场地修复技术研发及应用示范(课题编号:2016031),子课题负责人
学术成果:
专著:
[1] Yunhui Zhang, Fei Wang, Quanzhi Tian, Zhengtao Shen. Book: Low carbon stabilization and solidification of hazardous wastes. Chapter: Natural or engineered clays for stabilization/solidification. 2021: 31-48.
期刊论文:
[1] Yunhui Zhang, Benyi Cao, Hailong Yin, Lite Meng, Wei Jin, Fei Wang*, Jian Xu, Abir Al-Tabbaa. (2022) Application of zeolites in permeable reactive barriers (PRBs) for in-situ groundwater remediation: A critical review. Chemosphere. 308(1), 136290.
[2] Fei Wang, Jian Xu, Hailong Yin, Yunhui Zhang, et al. (2021) Sustainable stabilization/solidification of the Pb, Zn, and Cd contaminated soil by red mud-derived binders. Environmental Pollution. 284:117178.
[3] Fei Wang, Jian Xu, Yunhui Zhang, Zhengtao Shen, Abir Al-Tabba, et al. (2021) MgO-GGBS Binder–Stabilized/Solidified PAE-Contaminated Soil: Strength and Leachability in Early Stage. Journal of Geotechnical and Geoenvironmental Engineering. 147(8):04021059.
[4] Fei Wang, Hao Pan, Jian Xu (2020) Evaluation of red mud based binder for the immobilization of copper, lead and zinc, Environmental Pollution, 263(Pt A):114416.
[5] Fei Wang, Wangqi Xu, Zhaochen Xu, Haoyu Liu (2020) CTMAB-Modified Bentonite–Based PRB in Remediating Cr(VI) Contaminated Groundwater, Water Air Soil Pollut., 231:20,2020.
[6] Fei Wang, Zhengtao Shen, Rongqin Liu, Yunhui Zhang, Jian Xu, Abir Al-Tabbaa (2020) GMCs stabilized/solidified Pb/Zn contaminated soil under different curing temperature: Physical and microstructural properties. Chemosphere. 239:124738.
[7] Fei Wang, Yunhui Zhang, Zhengtao Shen, Hao Pan, Jian Xu, Abir Al-Tabbaa (2019) GMCs Stabilized/Solidified Pb/Zn Contaminated Soil under Different Curing Temperature: Leachability and Durability. Environmental Science and Pollution Research., 2019, 26(26):26963-26971.
[8] M. Fisonga, F. Wang*, V. Mutambo (2019) Sustainable utilization of copper tailings and tyre-derived aggregates in highway concrete traffic barriers. Construction and Building Materials. 216, 29-39.
[9] F. Wang, Z. Cai, J. Xu (2020). Effects of curing temperature and dosage on the performance of GGBS-MgO-CaO in stabilizing/solidifying heavy metal contaminated site soil. Journal of Testing and Evaluation. 48(5), 3515-3524.
[10] F. Wang, Z. Shen, A. Al-Tabbaa (2018) PC-based and MgO-based binder stabilised/solidified heavy metal contaminated model soil: Strength and heavy metal speciation in early stage. Géotechnique. 68(11), 1025-1030.
[11] F. Wang, Z. Shen, H. Wang, (2018) The performance of cement stabilised/solidified contaminated site soils, Chinese Journal of Geotechnical Engineering. 40(3), 540-545.
[12] F. Wang, Z. Shen, A. Al-Tabbaa (2018) An evaluation of stablised/solidified contaminated model soil using PC-based and MgO-based binders under semi-dynamic leaching conditions. Environmental Science and Pollution Research. 25(16), 16050-16060.
[13] F. Wang, F. Jin, A. Al-Tabbaa (2016) Three-year performance of in-situ mass stabilized contaminated site soils using MgO-bearing binders, Journal of Hazardous Materials. 318, 302-307.
[14] F. Wang, Z. Shen, F. Jin (2016) Strength and leaching performances of in-situ stabilized/solidified (S/S) contaminated site soils under different depth, Journal of Southeast University (Natural Science Edition). 46, 105-110.
[15] F. Wang, H. Wang, A. Al-Tabbaa (2015) Time-dependent performance of soil mix technology stabilised/ solidified contaminated site soils, Journal of Hazardous Materials. 286, 503-508.
[16] F. Wang, H. Wang, F. Jin, A. Al-Tabbaa (2015) The performance of blended conventional and novel binders in the in-situ stabilisation/solidification of a contaminated site soil, Journal of Hazardous Materials. 285, 46-52
[17] F. Wang, H. Wang, A. Al-Tabbaa (2014) Leachability and heavy metal speciation of 17-year oldstabilised/solidified contaminated site soils, Journal of Hazardous Materials. 278, 144–151.
[18] 王菲, & 徐汪祺. (2020). 固化/稳定化和软土加固污染土的强度和浸出特性研究. 岩土工程学报, 42(10):7.
[19] Xu, J., Wang, F. *, Sun, C., Zhang, X., & Zhang, Y. (2019). Gas thermal remediation of an organic contaminated site: field trial. Environmental Science and Pollution Research. 26: 6038-6047.
[20] Xu, J., Zhang, X., Sun, C., Wan, J., He, H., & Wang, F.*, et al. (2018) Insights into removal of tetracycline by persulfate activation with peanut shell biochar coupled with amorphous Cu-doped FeOOH composite in aqueous solution[J]. Environmental Science and Pollution Research, 26(3): 2820-2834.
[21] Z. Shen, Y. Zhang,F. Jin,D.S. Alessi, Y. Zhang, F. Wang*, O. McMillan, A. Al-Tabbaa, (2018) Comparison of nickel adsorption on biochars produced from mixed softwood and Miscanthus, straw. Environmental Science & Pollution Research. 25(15):1-10.
[22] Du, Y. J. , Yang, Y. L. , Fan, R. D. , & Wang, F. . (2016). Effects of phosphate dispersants on the liquid limit, sediment volume and apparent viscosity of clayey soil/calcium-bentonite slurry wall backfills. KSCE Journal of Civil Engineering, 20(2), 1-9.
[23] 郭明帅,潘浩,王菲(2021)赤泥基固化剂固化/稳定铅锌镉污染土的强度及浸出特性研究,岩石力学与工程学报.40(S01):8
[24] M. Guo, F. Wang, X. Zhang, J. Xu (2020) Research on removal mechanism of benzene and chlorobenzene in water by iron salt modified biochar activates persulfate. China Environmental Science. 40(12):5280-5289.
[25] Cao, B., Xu, J., Wang, F., Zhang, Y., & O’Connor, D. (2021). Vertical Barriers for Land Contamination Containment: A Review. International Journal of Environmental Research and Public Health, 18(23), 12643.
[26] Cao, B., Ribeiro De Souza, L., Wang, F., XU, J., LITINA, C., & Al-Tabbaa, A. (2021). The first microcapsule-based self-healing cement–bentonite cut-off wall materials. Géotechnique, 1–10.
[27] Cao, B., Souza, L., Xu, J., Mao, W., Wang, F., Al-Tabbaa, A. (2021). Soil mix cut-off wall materials with microcapsule-based self-healing grout. Journal of Geotechnical and Geoenvironmental Engineering, 147(11), 04021124.
[28] Y. Zhang, F. Wang, B. Cao, H. Yin, A. Al-Tabbaa (2022) Simultaneous removal of Pb and MTBE by mixed zeolites in fixed-bed column tests. Journal of Environmental Sciences, 122:41-49.
[29] Y Chu, S Liu, F Wang, H Bian, G Cai (2018) Electric conductance response on engineering properties of heavy metal polluted soils. Journal of Environmental Chemical Engineering 6 (4), 5552-5560.
[30] S. Y. Liu, G. H. Cai, J. J. Cao, F. Wang (2017) Influence of soil type on strength and microstructure of carbonated reactive magnesia-treated soil. European Journal of Environmental & Civil Engineering, 1-19.
[31] Y. Chu, S. Liu, F. Wang, G. Cai, H. Bian (2017) Estimation of heavy metal-contaminated soils’ mechanical characteristics using electrical resistivity. Environmental Science and Pollution Research. 24 (15): 13561-13575
[32] H.L. Wu, Y.J. Du, F. Wang, M.L. Wei, Y.S. Feng (2017) Study on the Semi-Dynamic Leaching Characteristics of CD Contaminated Soils Solidified/Stabilized with Phosphate under the Condition of Acid Rain. Geotechnical Frontiers, 414-422
[33] Yunhui Zhang, Fei Jin, Zhengtao Shen, Fei Wang, Rod Lynch, AbirAl-Tabbaa, Adsorption of methyl tert-butyl ether (MTBE) onto ZSM-5 zeolite: Fixed-bed column tests, breakthrough curve modelling and regeneration, Chemosphere, 220: 422-431.
[34] F. Jin, F. Wang, A. Al-Tabbaa, (2016) Three-year performance of in-situ solidified/stabilizedsoilusing novel MgO-bearing binders, Chemosphere. 144, 681-688.
[35] Z. Shen, A.M. Som, F. Wang, F. Jin, O. McMillan, A. Al-Tabbaa (2015) Long-term impact of biochar on the immobilisation of nickel (II) and zinc (II) and the revegetation of a contaminated site, Science of The Total Environment. 542, 771-776.
[36] Z. Shen, F. Jin, F. Wang, O. McMillan, A. Al-Tabbaa, (2015) Sorption of lead by Salisbury biochar produced from British broadleaf hardwood, Bioresource Technology. 193, 553-556.
[37] I. M. C. Lo, D.C.W. Tsang, T.C.M. Yip, F. Wang, and W. Zhang, (2011) Significance of Metal Exchange in EDDS-flushing Column Experiments, Chemosphere.83, 7-13.
[38] I. M. C. Lo, D.C.W. Tsang, T.C.M. Yip, F. Wang, and W. Zhang, (2011) Influence of injection conditions on EDDS-flushing of metal-contaminated soil, Journal of Hazardous Materials 192,667– 675.
