导师风采
蒋宁俊
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个人信息

Personal Information

  • 教授
  • 导师类别:硕,博士生导师
  • 性别: 男
  • 学历:博士研究生
  • 学位:博士

联系方式

Contact Information

  • 所属院系:交通学院
  • 所属专业: 岩土工程
  • 邮箱 : jiangn@seu.edu.cn
  • 工作电话 : -

个人简介

Personal Profile

蒋宁俊,博士、东南大学青年首席教授、博士生导师、国家级青年人才,研究生院挂职副处长,地下工程系教师党支部书记。长期从事污染场地风险管控与修复技术、微生物岩土工程技术等方面研究。2011年获东南大学学士学位,2016年获英国剑桥大学博士学位。主持国家自然科学基金项目、江苏省重点研发计划项目、国家重点研发计划项目子课题等多项国家和省部级研究课题。现担任Biogeotechnics期刊执行副主编、国际土协技术委员会委员、江苏省岩土力学与工程学会理事等。已发表国内外高水平学术论文80余篇,授权发明专利10项。曾获中国岩石力学与工程学会科技进步一等奖、江苏自然科学百篇优秀学术成果论文、英国土木工程师学会75th Géotechnique Anniversary Early Career 奖、加拿大岩土工程学会Fredlund奖等国内外学术奖项,入选全球前2%顶尖科学家榜单。


  • 研究方向Research Directions
环境岩土工程,微生物岩土工程,固废资源化利用技术
科研项目

1. 国家重点研发计划项目“长三角精细化工园区场地复合污染协同修复技术集成及示范”,2024-2027,子课题负责人

2. 国家自然科学基金面上项目“微生物矿化改性钙基膨润土-原位土竖向阻隔屏障机理与服役性能研究”,2024-2027,主持

3. 江苏省重点研发计划社会发展面上项目“城市工业遗留污染场地微生物改性膨润土竖向阻隔关键技术研究”,2023-2026,主持

4. 安徽省重点研究与开发计划社会发展专项项目“城市工业污染场地修复和风险管控绿色低碳材料与关键技术研究”,2023-2026,项目骨干

5. 镇江市重点研发计划社会发展项目“多固废协同制备路基材料关键技术和应用研究”,2023-2026,项目骨干

6. 江苏省水利科技项目“生物质-淤泥-固废复合绿色低碳河道护坡材料研究及应用”,2022.11-2024.12,主持

7. 南京留学人员科技创新项目“城市工业污染场地低碳修复材料与环境治理关键技术研究”,2022-2023,主持

8. 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”,2022-2025,项目骨干

9. 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, 2021-2023,主持

10. 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,2017-2020,主持

11. 夏威夷州交通部(Hawaii DOT),Sustainable low viscosity cement grouts for permeation grouting inerodible calcareous and coral sands,2020-2021,主持

12. 印美科学技术论坛(IUSSTF),Indo-US Joint Center of Development of Sustainable Materials forSoil Remediation,2019-2021,项目骨干

13. 日本学术振兴会(JSPS),Systematizationof the Biological soil mechanics focused on the maintenance of infrastructureand the support for newly energy resources (Fostering Joint InternationalResearch),2017-2019,项目骨干


学术论文

 英文期刊论文:

1.   Mishra,P.N., Jain, S., Bore, T., Chang, I., Kwon, Y., Wang, Y., Dash, H.R., Kumar, A.,Tiwari, S., Jiang, N., Das, S.K., and Scheuerman, A. (2023). BiologicalPerspectives in Geotechnics: Application and Monitoring. Journal of RockMechanics and Geotechnical Engineering. doi: 10.1016/j.jrmge.2023.10.007

2.   Mohammad,A., Paleologos, E., Ogrodnik, P., Koda, E., Osinski, P., Podlasek, A., Vaverková., M., Siva Naga Sai Goli, V., Singh, P.,Wang, K., Chen, X., Ding, A., Jiang, N., Wang, Y., and Singh, D.N.(2022). Occurrence and Ecotoxicological Effects of Fires at Municipal SolidWaste Landfills. Environmental Geotechnics. doi: 10.1680/jenge-2022-100

3.   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 OrganicSolid Matrices and their Remediation. Environmental Geotechnics. doi:10.1680/jenge.21.00072.

4.   Wang,Q., Hu, X., Zhao, Y., Jiang, N., Yu, X., Feng, y., and Zhang, J. (2024).Microscopic Deposition-Property Relationships in Microbial-InducedConsolidation of Coal Dusts. Environmental Research. 244: 117956.

5.   Wang,Y., Chen, W., Yin, J., Han, X., Zhang, Y., Du, Y., and Jiang, N. (通讯作者). (2024). Role of Biochar in Drained Shear StrengthEnhancement and Ammonium Removal of Biostimulated MICP-Treated Calcareous Sand.Journal of Geotechnical and Geoenvironmental Engineering. 150(2):04023140.

6.   Jain,S., Mishra, P.N., Tiwari, S., Wang, Y., Jiang, N., Dash, H.R., Chang,I., Kumar, A., Das, S.K., Scheuermann, A., and Bore, T. (2023). BiologicalPerspectives in Geotechnics: Theoretical Developments. Reviews inEnvironmental Science and Bio/Technology. 22: 1093-1130.

7.   Fu, X.,Ni, H., Zhou, A., Jiang, Z., Jiang, N., and Du, Y. (2023). An integratedFuzzy AHP and Fuzzy TOPSIS Approach for Screening Backfill Materials forContaminant Containment in Slurry Trench Cutoff Walls. Journal CleanerProduction. 419: 138242.

8.   Yu, X., Jiang,N., Yang, Y., Liu, H., Gao, X., and Cheng, L. (2023). Heavy MetalsRemediation through Bio-Solidification: Potential Application in EnvironmentalGeotechnics. Ecotoxicology and Environmental Safety. 263: 115305.

9.   Li, B., Jiang,N.(通讯作者), and Han, X. (2023). Denoising of Brillouin Gain SpectrumImages for Improved Dynamic Measurements of BOTDR. IEEE Photonics Journal.15(4): 6801808.

10.Zhang,K., Tang, C., Jiang, N., Pan, X,Liu, B., Wang, Y., and Shi, B. (2023). Microbial‑induced Carbonate Precipitation (MICP) Technology: A Review on theFundamentals and Engineering Applications. Environmental Earth Sciences.82: 229.

11.Zhang,Y., Hu, X., Wang, Y., and Jiang, N. (通讯作者) (2023).A Critical Review of Biomineralization in Environmental Geotechnics:Applications, Trends, and Perspectives. Biogeotechnics. 1(1): 100003.

12.Fu, X.,Zhuang, H., Reddy, K.R., Jiang, N.,Du, Y. (2023). Novel Composite Polymer-Amended Bentonite for EnvironmentalContainment: Hydraulic Conductivity, Chemical Compatibility, Enhanced Rheologyand Polymer Stability. Construction and Building Materials. 378: 131200.

13.Han, X.,Jiang, N. (通讯作者), Jin, F., Reddy, K.R., Wang, Y., Liu, K., and Du, Y.(2023). Effects of Biochar-Amended Alkali-Activated Slag on the Stabilizationof Coral Sand in Coastal Areas. Journal of Rock Mechanics and GeotechnicalEngineering. 15(3): 760-772.

14. Wang, Y., Jiang, N.(通讯作者), ClaraSaracho, A., Doygun, O., Du, Y., and Han, X. (2023).     Compressibility Characteristics ofBio-Cemented Calcareous Sand Treated through the Bio-stimulation Approach.Journal of Rock Mechanics and Geotechnical Engineering. 15(2): 510-522.

15.Li, B., Jiang,N.(通讯作者), and Han, X. (2023). Denoising of BOTDR Dynamic StrainMeasurement Using Convolutional Neural Networks. Sensors. 23(4): 1764.

16.Han, X.,Jiang, N.(通讯作者), Hata, T., Choi, J., Du, Y., and Wang, Y. (2023). DeepLearning Based Approach for Automated Characterization of Large MarineMicroplastic Particles. Marine Environmental Research. 183: 105829.

17.Wang,Y., Jiang, N.(通讯作者), Han, X., and Du, Y. (2023). Shear Behavior ofBiochar-Amended Biocemented Calcareous Sand Treated by Biostimulation.International Journal of Geomechanics. 23(1):04022260.

18.Wang,M., Fu, X., Jiang, Z., Che, C., Jiang, N., and Du, Y. (2022). SwellingBehavior and Flow Rates of A Novel Hydrophilic Gasket Used in CompositeGeomembrane Vertical Cutoff Walls and Infrastructures Exposed to ContaminatedGroundwater. Buildings. 12(12): 2207.

19.Liu, K.,Ouyang, J., Sun, D., Jiang, N., Wang, A., Liang, P., and Huang, N.(2022). Enhancement Mechanism of Different Recycled Fine Aggregates byMicrobial Induced Carbonate Precipitation. Journal of Cleaner Production. 379:134783.

20.Feng,Y., Zhou, S., Zhou, A., Jiang, N., Xia, W., Wang, S., and Du, Y. (2022).Environmental Performance of Reusing a Contaminated Soil Solidified/stabilizedby a Low-carbon Binder as Roadway Subgrade Material. Journal of CleanerProduction. 375: 134125.

21.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-StimulatedMicrobial Induced Calcite Precipitation. Acta Geotechnica. 17(9): 4217-4229.

22.Wang,Y., Jiang, N.(通讯作者), Han, X., Doygun, O., and Du, Y. (2022). Shear Behavior ofBio-Cemented Calcareous Sand Treated through Bio-Stimulation under the DirectShear Condition. Bulletin of Engineering Geology and The Environment. 81(10):413.

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

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

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

26.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 SoilImprovement: An Introspection into Processes, Materials, Characterization, andApplications. Soil Use and Management. 38(1): 68-93.

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

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

29.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 ofClayey Soils. Engineering Geology. 293: 106295.

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

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

32.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 thePandemic. Environmental Geotechnics. 8(3): 233-243.

33.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-19World. Environmental Geotechnics. 8(3): 172-192.

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

35.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 GabrielA. Monteiro. Engineering Geology. 282:105726.

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

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

38.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 byBiotreatment Method. Journal of Geotechnical and Geoenvironmental Engineering.146(11): 04020123.

39.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 theLong-Term Sulfate Resistance of Cement Stabilized Sand. MarineGeoresources & Geotechnology, 38(7): 844-853.

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

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

42.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.

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

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

45.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 ofThe Total Environment, 672: 722-731.

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

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

48.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 ClayScience, 161: 70-75.

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

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

51.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 ofthe 21st Century. Journal of Professional Issues in Engineering Education andPractice, 143(3): 02516002.

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

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

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

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

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

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

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

中文期刊论文

1. 张宇, 张庆, 王逸杰, 蔡国军, 董晓强, 杜延军, 蒋宁俊(通讯作者).(2024). 原位激发微生物矿化处理铅污染土的工程特性与环境安全性研究. 岩土工程学报. DOI: 10.11779/CJGE20230749.

2. 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.

3.   王逸杰,蒋宁俊(通讯作者).(2021). 原位激发微生物成矿加固钙质砂的剪切与压缩特性研究. 高校地质学报,27(6):662-669.

4.   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.

5.   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.

6.     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.

7.     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.

8.     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.

9.     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.

10.  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.

   会议论文:

1.      Han, X., Jiang, N. (通讯作者), Wang, Y., and Guo, K. (2023).Desiccation Crack Characterization in Clay Using Deep Learning Based VideoInstance Segmentation Method. Proceedings of 17th Asian Regional Conference onSoil Mechanics and Geotechnical Engineering, Astana, Kazakhstan. 2013-2021.

2.      Wang, Y., Han, X., Zhang, Y., and Jiang,N. (通讯作者) (2023). APreliminary Study on the Enrichment of Indigenous Ureolytic and NitrifyingBacteria in Beach Sand: Implication for Coastal Erosion Control. Proceedings of9th International Congress on Environmental Geotechnics, Chania, Greece. 5:39-45.

3.      Fu, X., Du, Y., Shen, S., Jiang,N., Yang, Y. (2023). Chemical Compatibility of Sand-Bentonite BackfillsAmended with Biopolymer in Vertical Barriers. Proceedings of 9th InternationalCongress on Environmental Geotechnics, Chania, Greece. 1: 269-275.

4.      Jiang, N. (通讯作者), Han, X., Wang, Y., and Du Y.(2022). Shear strength behavior of bio-cemented carbonate sand treated bybiochar-enhanced bio-stimulation approach. Proceedings of 20th InternationalConference on Soil Mechanics and Geotechnical Engineering, Sydney, Australia.2895-2900.

5.      Wang, Y., Jiang, N. (通讯作者) and Han, X. (2021). A PreliminaryStudy of Carbonate Sand Stabilization by Bio-Stimulation Based MICP Method.Proceedings of Third International Symposium on Coupled Phenomena inEnvironmental Geotechnics, Kyoto, Japan. 282-286.

6.      Han, X., Jiang, N. (通讯作者) and Wang, Y. (2021). A LaboratoryInvestigation of Sand Stabilization Using Biochar-Enhanced Alkali-ActivatedSlag. Proceedings of Third International Symposium on Coupled Phenomena inEnvironmental Geotechnics, Kyoto, Japan. 292-295.

7.      Han, X., Jiang, N. (通讯作者) and Wang, Y. (2020).Stabilization of Calcareous Sand by Applying the Admixture of Alkali-ActivatedSlag (AAS) and Biochar. Proceedings of Geo-Congress 2020, Minneapolis, MN, USA.469-475.

8.      Wang, Y., Han, X., and Jiang,N. (通讯作者). (2019).Enriching Indigenous Ureolytic Bacteria in Coastal Beach Sand. Proceedings ofICEG 2018, Hangzhou, China. 340-347.

9.      Jiang, N. (通讯作者), Soga, K., and Yamamoto, K.(2018). A High-Pressure Plane-Strain Testing System to Investigate MicrobiallyInduced Calcite Precipitation for Near-Wellbore Sand Production Control.Proceedings of GeoShanghai 2018 International Conference: Geoenvironment andGeohazard, Shanghai, China. 499-506.

10.   Wang, Y., Soga, K., and Jiang,N. (2017). Microbial Induced Carbonate Precipitation (MICP): The Case forMicroscale Perspective. Proceedings of 19th International Conference on SoilMechanics and Geotechnical Engineering, Seoul, South Korea. 1099-1102.

11.   Jiang, N.and Soga, K. (2014). Seepage-Induced Erosion Control by Microbially InducedCalcite Precipitation: An Experimental Investigation. Proceedings of 7thInternational Congress on Environmental Geotechnics, Bouazza, et al. (Eds.),Engineers Australia, Melbourne, 1113–1120.

12.   Jiang, N. (通讯作者), Soga, K., and Dawoud, O. (2014).Experimental Study of the Mitigation of Soil Internal Erosion by MicrobiallyInduced Calcite Precipitation. Proceedings of Geo-Congress 2014:Geo-Characterization and Modeling for Sustainability, Abu-Farsakh et al. (Eds.),American Society of Civil Engineers, Atlanta, Georgia, USA. 1586-1595.

13.   Jiang, N.,Du, Y., Liu, S., and Zhu, J. (2013). On the Compressibility of CementStabilized Zinc-Contaminated Kaolin Clay. Proceedings of the 2nd InternationalConference on Geotechnical and Earthquake Engineering: Challenges and RecentAdvances in Geotechnical and Seismic Research and Practice, Hu et al. (Eds.),American Society of Civil Engineers, Chengdu, China. 659-668.

14.   Jiang, N.,Du, Y., Li, C., Lu, K., Liu, S., and Wei, M. (2012). Effect of Acid Rain onChemical and Hydraulic Properties of Cement Solidified/Stabilized LeadContaminated Marine Soft Clay. Proceedings of GeoCongress 2012: State of theArt and Practice in Geotechnical Engineering, Hryciw et al. (Eds.), AmericanSociety of Civil Engineers, Oakland, California, USA. 4015-4023.

15.   Wei, M., Du, Y., and Jiang, N.(2012). Compression Behavior of Zinc Contaminated Clayey Soils Solidified withCement. Proceedings of GeoCongress 2012: State of the Art and Practice inGeotechnical Engineering, Hryciw et al. (Eds.), American Society of CivilEngineers, Oakland, California, USA. 4042-4049.

 


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