环境岩土工程、非饱和土宏微观渗流

李光耀，博士，现为北京工业大学城市建设学部教师、博士后。2014年获四川大学水利水电工程学士学位，2017-2018年获国家公派赴美国佐治亚理工学院（Georgia Tech）联合培养，2020年获浙江大学岩土工程博士学位，博士论文题目为《毛细阻滞型覆盖层微观-宏观水气传导特性及服役性能》。研究方向为环境岩土工程及非饱和土宏微观渗流。主持或参与科研项目5项，其中国家973计划项目子课题1项、国家杰出青年科学基金项目1项。近5年在《Geophysical Research Letters》、《Canadian Geotechnical Journal》、《Science of the Total Environment》等岩土、环境领域国际期刊及会议发表学术论文8篇，累计影响因子逾20。受邀担任岩土领域国际顶级期刊《Géotechnique》、环境领域国际会议The Fifth International Conference on Energy Engineering and Environmental Protection (EEEP2020) 审稿人。

2010/09-2014/07  四川大学  水利水电工程  学士

2014/09-2020/09  浙江大学  岩土工程  博士

2017/09-2018/09  美国佐治亚理工学院（Georgia Tech） CSC国家公派联合培养

2020/11-至今  北京工业大学  教师/博士后  合作导师：杜修力教授

国际期刊《Géotechnique》审稿人

国际会议The Fifth International Conference on Energy Engineering and Environmental Protection (EEEP2020) 审稿人

2017/01-2020/10  国家杰出青年科学基金  环境岩土工程  参与

2014/09-2016/12  国家973计划项目子课题   覆盖系统水气传导与填埋气污染控制  参与

2017/09-2018/09  CSC联合培养博士生项目  土质覆盖屏障水-气运移的非均匀特性研究 主持

2016/01-2019/12  浙江省重点研发计划项目  非正规垃圾填埋场灾害治理及污染防控技术  参与

2017/06-2019/10  企事业委托项目  苏尼特金曦黄金尾矿库覆盖层防渗及保水功能设计  参与

1. Li, G. Y., Zhan, L. T., Yun, T. S., & Dai, S.*, Pore‐scale controls on the gas and water transport in hydrate‐bearing sediments. Geophysical Research Letters, e2020GL086990. ( SCI)

2. Zhan, L. T., Li, G. Y.*, Jiao, W. G., Lan, J. W., Chen, Y. M., & Shi, W. (2020) Performance of a Compacted Loess/Gravel Cover as a Capillary Barrier and Landfill Gas Emission Controller in Northwest China. Science of the Total Environment, 137195. (SCI)

3. Li, G. Y., Dai, S., Zhan, L. T.*, & Chen, Y. M. (2019) A pore-scale numerical investigation of the effect of pore characteristics on flow properties in soils. Journal of Zhejiang University SCIENCE-A, 20(12), 961-978. (SCI)

4. Zhan, L. T.*, Li, G. Y., Jiao, W. G., Wu, T., Lan, J. W., & Chen, Y. M. (2016). Field measurements of water storage capacity in a loess–gravel capillary barrier cover using rainfall simulation tests. Canadian Geotechnical Journal, 54(11), 1523-1536. (SCI)

5. Zhan, L. T., Wu, T., Feng, S.*, Li, G. Y. & Chen, Y. M. (2020). Full-scale experimental study of methane emission in a loess-gravel capillary barrier cover under different seasons. Waste Management. 107, 54-65. (SCI)

6. Li, G. Y., Zhan, L. T.*, Hu, Z., & Chen, Y. M., Effects of particle gradation and geometry on the pore characteristics and water retention curves of granular soils: a combined DEM and PNM investigation. Granular Matter. (SCI)

7. Li, G. Y.*, Zhan, L. T., & Dai, S., Influence of pore distribution characteristics on relative hydraulic conductivity in soil covers—a pore-scale numerical investigation. The 8th International Congress on Environmental Geotechnics, Hangzhou, 2018. (EI)

8. Li, G. Y.*, Zhan, L. T., & Xu, W. J., Influence of thermal gradient and vapor content of landfill gas on water storage in the loess-gravel cover. Proceedings of the 7th International Conference on Unsaturated Soils, Hong Kong, 2018

9. Zhan, L. T.*, Qiu, Q. W.，Li, G. Y.，Xu, W. J., Performance of a compacted loess/gravel cover as a capillary barrier and landfill gas emission controller in Northwest China. Keynote lecture, 1st International Conference on Geo-Energy and Geo-Environment, Hong Kong, China, 2015.12