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李启杰

职称:Research Associate

邮箱:Qijie.Li@whu.edu.cn

个人网站:

https://www.researchgate.net/profile/Qijie-Li

研究领域:

研究领域:城市水利、水力学及河流动力学、流体力学

研究方向:城市水系统与水安全、城市水过程模拟与实验、城市水循环与洪涝致灾机理、城市地下空间防洪与安全、城市水资源与水环境、流域城市群洪水风险管理、城市韧性与智慧水利

教育背景:

2008.09-2012.06 华中科技大学,船舶与海洋工程专业,本科

2008.09-2012.06 华中科技大学,德语专业,本科

2012.09-2015.09 海军工程大学,动力工程及工程热物理专业,硕士

2015.10-2019.04 卡迪夫大学(Cardiff University,UK),Civil Engineering,博士

工作经历:

2021.08-2023.08 武汉大学,水利水电学院,博士后

2023.08-至今 剑桥大学(University of Cambridge,UK), Research Associate

开设课程:

《港口规划与平面布置》(本科生)

《计算水动力学》(研究生)

代表性科研项目:

国家自然科学基金青年科学基金项目:城市典型地下空间洪涝致灾的水动力学机理及模拟技术(2023~2025,主持)

中国博士后科学基金特别资助项目:变化环境下城市暴雨洪涝致灾的水动力学机理研究(2023~至今,主持)

中央高校青年教师资助项目:城市地下空间洪水演进模拟与风险评估(2022~2023,主持)

中国博士后科学基金面上项目:城市典型地下空间洪涝致灾的水动力学机理及风险评估(2022~至今,主持)

西北旱区生态水利国家重点实验室开放研究基金项目:变化环境下城市洪涝致灾机理与减灾对策研究(2024~2025,主持)

国家自然科学基金重点国际(地区)合作与交流项目:植物驱动下的河岸带物理生境演变机制与修复理论研究(2024-2028,参与)

国家自然科学基金联合基金项目:黄河中下游水沙产输预报与水库智能调度关键技术(2023~2026,参与)

国家自然科学基金牛顿高级学者基金项目:城市洪涝过程的水动力学机理与数值模拟研究(2020~2022,参与)

国家自然科学基金重大项目课题:长江中下游典型城市水问题成因与调控机理(2023,参与)

国家杰出青年科学基金:河流动力学 (2018-2022,参与)

The Royal Society of UK, Newton Advanced Fellowship: Studies on hydrodynamic mechanisms of urban floods and numerical modelling(2020-2023,参与)

The European Regional Development Fund (ERDF)(2016~2019, 参与)

学术兼职:

Member (Young Professionals), International Association of Hydro-environmental Engineering and Research (IAHR), 2022

Member (Young Professionals), International Water Association (IWA), 2023

奖励与荣誉:

Best Presentation Award for “Gregynog Conference”, UK, 2018

The First Prize of the 10th National Graduate Mathematics Modeling Competition (Team leader), 2013

National Scholarships of China, HUST, 2011

华中科技大学“校三好学生”,2011

代表性学术成果:

期刊论文:

Li, Qijie, Xia Junqiang*, Zhou Meirong, Deng Shanshan, Dong Boliang. (2024) Risk assessment on metro tunnel evacuation in devastating urban flooding events, Tunnelling and Underground Space Technology, 144, 105540.

Li, Qijie, Xia, Junqiang*, Dong, B., Liu, Y., Wang, X. (2023): Risk assessment of individuals exposed to urban floods. International Journal of Disaster Risk Reduction, 88, 103599.

Li, Qijie, Xia, Junqiang*, Dong, B., Zhou, M. (2022): Near-field flow dynamics of grate inlets during urban floods. Physics of Fluids, 34(8), 87111. Featured Article

Li, Qijie, Xia, Junqiang*, Xie, Z., Zhou, M., Deng, S. (2022): Hazard and vulnerability in urban inundated underground space: hydrodynamic analysis of human instability for stairway evacuation. International Journal of Disaster Risk Reduction, 2022,70, 102754.

Li, Qijie, Xia, Junqiang*, Zhou, M., Deng, S., Zhang, H., Xie, Z. (2022): Physical Modelling of Energy Losses at Surcharged Three-way Junction Manholes in Drainage System. Water Science and Technology, 85(4): 1011-1026.

Li, Jun, Liu, Yongbao, Li, Qijie*, (2022): Intelligent fault diagnosis of rolling bearings under imbalanced data conditions using attention-based deep learning method. Measurement, 189, 110500.

Li, Jun, Liu, Yongbao, Li, Qijie*, (2022): Generative Adversarial Network and Transfer Learning Based Fault Detection for Rotating Machinery with Imbalance Data Condition. Measurement Science and Technology, 33, 045103.

Li, Qijie, Xia, Junqiang*, Yokoi, K.*, Omar, S. (2021): Boundary variation diminished conservative semi-Lagrangian method for both compressible and incompressible flows. Physics of Fluids, 33(11), 117114.

Li, Qijie*, Yokoi, Kensuke*, Xie, Z., Omar, S., Xue, J. (2021): A fifth-order high-resolution shock-capturing scheme based on modified weighted essentially non-oscillatory method and total boundary variation diminishing algorithm for compressible flows and compressible two-phase flows. Physics of Fluids, 33(5), 056104.

Li, Qijie, Omar, S., Deng, X., Yokoi, Kensuke*. (2017): Constrained Interpolation Profile Conservative Semi-Lagrangian Scheme Based on Third-Order Polynomial Functions and Essentially Non-Oscillatory (CIP-CSL3ENO) Scheme, Communications in Computational Physics, 22(3): 765-788.

Li, Qijie, Zhang, Z.*, Gu, J., Wang, C., Li, B., Gao, L. (2013): Steady Motions Performance of an Underwater Glider with Pump on the Vertical Plane. Applied Mechanics and Materials, 387, 310-313.

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