教师队伍

​蒋宁俊

时间:2022-09-20浏览:6385


基本信息:

蒋宁俊、博士、教授、博士生导师,31399金沙娱场城地下工程系教师

所属团队:环境岩土工程

办公地点:东南大学九龙湖校区31399金沙娱场城大楼607

联系电话:13914597645

联系方式:jiangn@seu.edu.cn

蒋宁俊是东南大学青年首席教授,国家级青年人才项目入选人,东南大学岩土工程研究所所长助理。现为岩土领域国际重要SCI 学术期刊Soils and FoundationsEnvironmental Geotechnics编委、国际土协TC213技术委员会委员、美国土木工程师协会岩土分会技术委员会委员、日本岩土工程学会和美国土木工程师协会正会员、江苏省岩土力学与工程学会理事、中国岩石力学与工程学会环境岩土分会青委会委员,并兼任美国国家科学基金会、新加坡国家研究基金会、新加坡国家环保署等多个机构评审专家。已发表学术论文50余篇,获发明专利授权4项。2022年获日内瓦发明奖银奖,2020年获Acta Geotechnica最佳论文奖,2019年获加拿大岩土工程学会Fredlund Award。目前已主持和参与中组部、国家自然科学基金、江苏省自然科学基金、美国夏威夷州交通部等国内外多项科研项目。曾受邀在全国微生物岩土与材料工程学术研讨会、全国岩土工程青年学者论坛、全国环境岩土力学与工程青年学术论坛等学术会议上做大会报告和特邀报告。

研究方向:

l   基于微生物作用的土体改良加固技术

l   基于深度学习和计算机视觉的岩土工程应用

l   基于工业废弃物的新型绿色地基处理材料


教育经历:

2012.10 – 2016.10     英国剑桥大学   岩土工程       博士

2011.08 – 2012.06      南大学    岩土工程      本科直博

2007.08 – 2011.06      南大学  道路桥梁与渡河工程   本科

 

工作经历:

2021.04 – 至今         东南大学        青年首席教授

2017.01 – 2021.03  美国夏威夷大学马诺阿分校    助理教授

2016.07 – 2016.12     英国剑桥大学       博士后研究员

 

科研项目:

1.  江苏省重点研发计划“长三角挥发性有机污染场地多元协同低碳覆盖阻隔关键技术研究”,2022.06-2025.06,项目骨干

2.  国家自然科学基金青年科学基金,原位激发微生物矿化处理重金属污染砂土的机理和应用研究,2021.01-2023.12,主持

3.  江苏省基础研究计划(自然科学基金)青年基金,基于微生物矿化作用的人为坡面抗侵蚀控制及机理研究,2017.07-2020.06,主持

4.     夏威夷州交通部(Hawaii DOT),Sustainable low viscosity cement grouts for permeation grouting in erodible calcareous and coral sands2020.01-2021.12,主持

5.     印美科学技术论坛(IUSSTF)Indo-US Joint Center of Development of Sustainable Materials for Soil Remediation2019.05-2021.05,美方排名第2

6.     日本学术振兴会(JSPS),Systematization of the Biological soil mechanics focused on the maintenance of infrastructure and the support for newly energy resources (Fostering Joint International Research)2017.04-2019.03,排名第5

 

奖励及荣誉:

1.     2022Soils and Foundations Editorial Board Member Award

2.     2022年日内瓦发明奖银奖

3.     2020年国家****青年项目入选人

4.     2020Acta Geotechnica Best Paper Award

5.     2019Fredlund Award

6.     2019Most Cited Articles Since 2016

7.     2017Publon Peer Review Award

8.     2011年茅以升科学技术奖-工程教育学生奖

 

学术任职:

1.     SCI期刊Soils and Foundations编委(2019年至2022年)

2.     SCI期刊Environmental Geotechnics编委(2017年至今)

3.     中国环境科学学会环境与岩土工程专业委员会委员(2022年至今)

4.     江苏省岩土力学与工程学会理事(2021年至今)

5.     中国土木工程学会土力学及岩土工程分会青委会委员(2022年至今)

6.     中国岩石力学与工程学会环境岩土分会青委会委员(2021年至今)

7.     国际土力学与岩土工程学会(ISSMGETC213 Scour and Erosion技术委员会委员(2020年至今)

8.     美国土木工程师协会(ASCE-GIGeotechnics of Soil Erosion技术委员会委员(2017年至今)

9.     日本岩土工程学会(JGS)国际会员(2017年至今)

10.  美国土木工程师协会(ASCE)正会员(2020年至今)

11.  美国自然基金会(NSF)、新加坡陆路运输局(LTA)、新加坡国家研究基金会(National Research Foundation)、新加坡国家环保署(National Environmental Agency)、Mitacas公司、印度理工(IIT INDORE分校项目评审专家

 

学术成果:

²  专著章节:

1.     Du, Y., and Jiang, N. (2022).“Stabilization/solidification of contaminated soils: a case study.” Low Carbon Stabilization and Solidification of Hazardous Wastes, edited by Daniel C.W. Tsang and Lei Wang, Elsevier, 75-92.

²  期刊论文:

1.     Wang, Y., Jiang, N.(通讯作者), Han, X., Doygun, O., and Du, Y. (2022). Shear Behavior of Bio-Cemented Calcareous Sand Treated through Bio-Stimulation under the Direct Shear Condition. Bulletin of Engineering Geology and The Environment. doi: 10.1007/s10064-022-02907-5.

2.     Wang, Y., Jiang, N.(通讯作者), Han, X., and Du, Y. (2022). The Shear Behavior of Biochar-Amended Bio-Cemented Calcareous Sand Treated by Bio-Stimulation. International Journal of Geomechanics. doi: 10.1061/(ASCE)GM.1943-5622.0002634.

3.     Wang, Y., Jiang, N.(通讯作者), Clara Saracho, A., Doygun, O., Du, Y., and Han, X. (2022). Compressibility Characteristics of Bio-Cemented Calcareous Sand Treated through the Bio-stimulation Approach. Journal of Rock Mechanics and Geotechnical Engineering. doi: 10.1016/j.jrmge.2022.05.007.

4.     Han, X., Jiang, N. (通讯作者), Jin, F., Reddy, K.R., Wang, Y., Liu, K., and Du, Y. (2022). Effects of Biochar-Amended Alkali-Activated Slag on the Stabilization of Coral Sand in Coastal Areas. Journal of Rock Mechanics and Geotechnical Engineering. doi: 10.1016/j.jrmge.2022.04.010.

5.     Wang, Y., Jiang, N.(通讯作者), Han, X., Liu, K., and Du, Y. (2022). Biochemical, Strength and Erosional Characteristics of Coral Sand Treated by Bio-Stimulated Microbial Induced Calcite Precipitation. Acta Geotechnica. doi: 10.1007/s11440-022-01491-y.

6.     Goli, V.S.N.S., Paleologos, E., Farid, A., Mohamed, A.-M., O’Kelly, B.C., El Gamal, M.M., Vaverková, M.D., Jiang, N., Wang, J.J., Xiao, L., Singh, P., Han, X., Shi, Y., Li, D., Sengupta, A., Kayali, S.L., Singh, Y., Mohammad, A., Singh, D.N. (2022). Extraction and Characterization of Microplastics from Organic Solid Matrices and their Remediation. Environmental Geotechnics. doi: 10.1680/jenge.21.00072.

7.     Wang, M., Wen, J., Huang, H., Zhuang, H., Xia. W., Jiang, N., and Du, Y. (2022). Screening Additives for Amending Compacted Clay Covers to Enhance Diffusive Barrier Properties and Hydraulic Performance. Applied Sciences. 12: 7341.

8.     Han, X., Jiang, N.(通讯作者), Yang, F., Choi, J., Singh, D.N., Beta, P., Du, Y., and Wang, Y. (2022). Deep Learning Based Approach for the Instance Segmentation of Clayey Soil Desiccation Cracks. Computers and Geotechnics. 146: 104733.

9.     Choi, J., Toumanidis, L., Yeum, C.M., Charalampos, P., Lenjani, A., Liu, X., Kasnesis, P., Ortiz, R., Jiang, N., Dyke, S.J. (2022). Automated Graffiti Detection: A Novel Approach for Maintaining Historical Architectures in Community. Applied Sciences. 12(6): 2983.

10.  Jiang, N.(通讯作者), Wang, Y., Chu, J., Kawasaki, S., Tang, C., Cheng, L., Du, Y., Shashank, B.S., Singh, D.N., Han, X., and Wang Y. (2022). Bio-Mediated Soil Improvement: An Introspection into Processes, Materials, Characterization, and Applications. Soil Use and Management. 38(1): 68-93.

11.  Hata, T., and Jiang, N. (2021). Proposal for An Initial Screening Method for Identifying Microplastics in Marine Sediments. Scientific Reports.11: 20651.

12.  Shashank, B., Kuntikana, G., Jiang, N., and Singh D.N. (2021). Investigations on Biosorption & Biogenic Calcite Precipitation in Sands. Soil Use and Management. 37(4): 772-789

13.  Liu, B., Xie, Y., Tang, C., Pan, X., Jiang, N., Singh, D.N., Cheng, Y., and Shi, B. (2021). Bio-mediated Method for Improving Surface Erosion Resistance of Clayey Soils. Engineering Geology. 293: 106295.

14.  Konstantinou, C., Biscontin, G., Jiang, N., and Soga, K. (2021). Application of Microbially Induced Carbonate Precipitation (MICP) to Form Bio-cemented Artificial Sandstone. Journal of Rock Mechanics and Geotechnical Engineering. 13(3): 579-592.

15.  Mohamed, A.-M.O., Paleologos, E.K., and Jiang, N. (2021). Editorial. Environmental Geotechnics. 8(3): 170-171.

16.  Jiang, N.(通讯作者), Hanson, J.L., Della Vecchia, G., Zhu, C., Yi, Y., Arnepalli, D.N., Courcelles, B., He, J., Horpibulsuk, S., Hoy, M., Takahashi, A., Arulrajah, A., Lin, C., Dowoud, O., Li, Z., Gao, Z., Hata, T., Zhang, L., Du, Y., Goli, V.S.N.S., Mohammad, A., Singh, P., Kuntikana, G., and Singh, D.N. (2021). Geotechnical and Geoenvironmental Engineering Education During the Pandemic. Environmental Geotechnics. 8(3): 233-243.

17.  Tang, C., Paleologos, E.K., Vitone, C., Du, Y., Li, J., Jiang, N., Deng, Y., Chu, J., Shen, Z., Koda, E., Dominijanni, A., Fei, X., Vaverkova, M.D., Osinski, P., Chen, X., Asadi, A., Takeuchi, M.R.H., Bo, M.W., Abuel-Naga, H., Leong, E.C., Farid, A., Baser, T., O’Kelly B.C., Jha, B., Goli, V.S.N.S., and Singh, D.N. (2020). Environmental Geotechnics: Challenges and Opportunities in the Post COVID-19 World. Environmental Geotechnics. 8(3): 172-192.

18.  Du, J., Liu, B., Wang, Z., Zheng, G., Jiang, N.(通讯作者), Zhou, M., and Zhou, H. (2021). Dynamic Behavior of Cement-Stabilized Organic-Matter-Disseminated Sand under Cyclic Triaxial Condition. Soil Dynamics and Earthquake Engineering. 147: 106777.

19.  Jiang, N. (通讯作者) (2021). Discussion of “About Calcium Carbonate Precipitation on Sand Biocementation” by Rafaela Cardoso, Rita Pedreira, Sofia O.D. Duarte, and Gabriel A. Monteiro. Engineering Geology. 282105726.

20.  Liu, K., Jiang, N. (通讯作者), Qin, J., Wang, Y., Tang, C., and Han X. (2021). An Experimental Study of Mitigating Coastal Sand Dune Erosion by Microbial- and Enzymatic-Induced Carbonate Precipitation. Acta Geotechnica. 16(2): 467-480.

21.  Du, J., Zheng, G., Liu, B., Jiang, N.(通讯作者), and Hu, J. (2021). Triaxial Behavior of Cement-Stabilized Organic-Matter–Disseminated Sand. Acta Geotechnica. 16(1): 211-220.

22.  Xiao, Y., Chen, H., Stuedlein, A.W., Evans, T.M., Chu, J., Cheng, L., Jiang, N., Lin, H., Liu, H., and Aboel-Naga, H.M. (2020). Restraint of Particle Breakage by Biotreatment Method. Journal of Geotechnical and Geoenvironmental Engineering. 146(11): 04020123.

23.  Liu, K., Wang, Y., Jiang, N. (通讯作者), Wang, A., Sun, D., and Chen, X. (2020). Effect of Aluminate Content in Cement on the Long-Term Sulfate Resistance of Cement Stabilized Sand. Marine Georesources & Geotechnology, 38(7): 844-853.

24.  Jiang, N.(通讯作者), Tang, C., Hata, T., Courcelles, B., Dawoud, O., and Singh, D.N. (2020). Bio-mediated Soil Improvement: The Way Forward. Soil Use and Management, 36(2): 185-188.

25.  Tang, C., Yin, L., Jiang, N., Zhu, C., Zeng, H., Li, H., and Shi, B. (2020). Factors affecting the performance of Microbial Induced Carbonate Precipitation (MICP) treated soil: a review. Environmental Earth Sciences, 79(5): 94.

26.  Wang, Y., Han, X., Jiang, N. (通讯作者), Wang, J., and Feng, J. (2020). The Effect of Enrichment Media on the Stimulation of Native Ureolytic Bacteria in Calcareous Sand. International Journal of Environmental Science and Technology, 17(3): 1795-1808.

27.  Du, Y., Wu, J., Bo, Y., and Jiang, N. (通讯作者) (2020). Effects of Acid Rain on Physical, Mechanical and Chemical Properties of GGBS-MgO Solidified/Stabilized Pb-Contaminated Clayey Soil. Acta Geotechnica, 15(4): 923-932.

28.  Jiang, N., Liu R., Du, Y., and Bi, Y. (2019). Microbial Induced Carbonate Precipitation for Immobilizing Pb Contaminants: Toxic Effects on Bacterial Activity and Immobilization Efficiency. Science of The Total Environment, 672: 722-731.

29.  Jiang, N. (通讯作者) and Soga, K. (2019). Erosional Behavior of Gravel-Sand Mixtures Stabilized by Microbially Induced Calcite Precipitation (MICP). Soils and Foundations, 59(3): 699-709.

30.  Jiang, N., Tang, C., Yin, L., Xie, Y., and Shi, B. (2019). Applicability of Microbial Calcification Method for Sandy-Slope Surface Erosion Control. Journal of Materials in Civil Engineering, 31(11): 04019250.

31.  Jiang, N., Du, Y., and Liu, K. (2018). Durability of Lightweight Alkali-Activated Ground Granulated Blast Furnace Slag (GGBS) Stabilized Clayey Soils Subjected to Sulfate Attack. Applied Clay Science, 161: 70-75.

32.  Jiang, N. (通讯作者), Soga, K., and Kuo, M. (2017). Microbially Induced Carbonate Precipitation for Seepage-Induced Internal Erosion Control in Sand-Clay Mixtures. Journal of Geotechnical and Geoenvironmental Engineering, 143(3): 04016100.

33.  Jiang, N. (通讯作者) and Soga, K. (2017). The Applicability of Microbially Induced Calcite Precipitation (MICP) for Internal Erosion Control in Gravel-Sand Mixtures. Géotechnique, 67(1): 42-55.

34.  Wirth, X., Jiang, N. (通讯作者), da Silva, T., Della Vecchia, G., Evans, J., Romero, E., and Bhatia, S. K. (2017). Undergraduate Geotechnical Engineering Education of the 21st Century. Journal of Professional Issues in Engineering Education and Practice, 143(3): 02516002.

35.  Du, Y., Yu, B., Liu, K., Jiang, N. (通讯作者), and Liu, M.D. (2017). Physical, Hydraulic, and Mechanical Properties of Clayey Soil Stabilized by Lightweight Alkali-Activated Slag Geopolymer. Journal of Materials in Civil Engineering, 29(2): 04016217.

36.  Jiang, N. (通讯作者), Yoshioka, H., Yamamoto, K., and Soga, K. (2016). Ureolytic Activities of a Urease-Producing Bacterium and Purified Urease Enzyme in the Anoxic Condition: Implication for Subseafloor Sand Production Control by Microbially Induced Carbonate Precipitation (MICP). Ecological Engineering, 90: 96-104.

37.  Du, Y., Jiang, N. (通讯作者), Liu, S., Horpibulsuk, S., and Arulrajah, A. (2016). Field Evaluation of Soft Highway Subgrade Soil Stabilized with Calcium Carbide Residue. Soils and Foundations, 56(2): 301-314.

38.  Jiang, N., Du, Y., Liu, S., Wei, M., Horpibulsuk, S., and Arulrajah, A. (2016). Multi-Scale Laboratory Evaluation of the Physical, Mechanical and Microstructural Properties of Soft Highway Subgrade Soil Stabilized with Calcium Carbide Residue. Canadian Geotechnical Journal, 53(3): 373-383.

39.  Jiang, N., Du, Y., Liu, S., and Zhu, J. (2014). Experimental Investigation of the Compressibility Behaviour of Cement-Solidified/Stabilised Zinc-Contaminated Kaolin Clay. Géotechnique Letters, 4(1): 27-32.

40.  Du, Y., Jiang, N., Liu, S., Jin, F., Singh, D.N., and Puppala, A.J. (2014). Engineering Properties and Microstructural Characteristics of Cement-Stabilized Zinc-Contaminated Kaolin. Canadian Geotechnical Journal, 51(3): 289-302.

41.  Du, Y., Jiang, N., Shen, S., and Jin, F. (2012). Experimental Investigation of Influence of Acid Rain on Leaching and Hydraulic Characteristics of Cement-Based Solidified/Stabilized Lead Contaminated Clay. Journal of Hazardous Materials, 225-226: 195-201.

42.  Zhu, H., Garg, A., Thakur, V., and Jiang, N. (2020). Special Issue on “Materials and Processes for Ground Engineering Infrastructure”. International Journal of Geosynthetics and Ground Engineering, 6(2): 32. (EI)

43.  李双杰,伍浩良,傅贤雷,蒋宁俊,万佳磊,李江山,杜延军.(2022). 氧化镁碱激发矿粉-膨润土-土竖向屏障材料阻隔铅污染物的化学渗透膜效应.岩土工程学报, 44(6): 1078-1086.

44.  尹黎阳,唐朝生,谢约翰,吕超,蒋宁俊,施斌. (2019). 微生物矿化作用改善岩土材料性能的影响因素. 岩土力学, 40(7): 2525-2546. (EI)

45.  谢约翰,唐朝生,尹黎阳,吕超,蒋宁俊,施斌. (2019). 纤维加筋微生物固化砂土的力学特性. 岩土工程学报, 41(4): 675-682. (EI)

46.  谢约翰,唐朝生,刘博,程青,尹黎阳,蒋宁俊,施斌. (2019). 基于微生物诱导碳酸钙沉积技术的黏性土水稳性改良. 浙江大学学报(工学版),53(8): 1438-1446. (EI)

47.  刘兆鹏,杜延军,刘松玉,蒋宁俊,朱晶晶. (2014). 淋滤条件下水泥固化铅污染高岭土的强度及微观特性的研究. 岩土工程学报, 36(3): 547-554. (EI)

48.  刘兆鹏,杜延军,蒋宁俊,朱晶晶. (2013). 基于半动态淋滤试验的水泥固化铅污染黏土溶出特性研究. 岩土工程学报, 35(12): 2212-2218. (EI)

49.  蒋宁俊,杜延军,刘松玉,李晨阳,李文涛. (2013). 酸雨入渗对水泥固化铅污染土淋滤特性的影响研究. 岩土工程学报, 35(4): 739-744. (EI)

50.  杜延军,蒋宁俊,王乐,魏明俐. (2012). 水泥固化锌污染高岭土强度及微观特性研究. 岩土工程学报, 34(11): 2114-2120. (EI)


地址

江苏省南京市江宁区东南大学路2号

邮编

211189

二维码

XML 地图