| Name | Lei Gan | Gender | Male | Date of Birth | 1987.02 |
Position | Professor | Graduated Institution | Hohai University | |||
Major | Hydraulic structure engineering | Degree | Ph.D. | |||
Telephone Number | 13913801656 | ganlei2015@hhu.edu.cn | ||||
Research Interests | (1) Long term operation and function improvement of hydraulic engineering (2) Analysis and control technology of seepage in hydraulic engineering (3) Safety analysis and comprehensive evaluation of hydraulic engineering | |||||
Awards & Honors | (1) First Prize of Electric Power Science and Technology Innovation Award, ranking 2/15 (2) First Prize of Science and Technology Progress Award for Electric Power Engineering, ranking 6/15 (3) Second Prize of Hydropower Science and Technology Award, ranking 2/10 (4) Second Prize of Science and Technology Progress Award of Electric Power Construction, ranking 2/10 (5) Outstanding Communist Party member of Hohai University (6) Excellent Supervisor of Undergraduate Graduation Design of Hohai University (7) Dayu Scholar from Hohai University | |||||
Achievements | Lei Gan, male, born in 1987 in Fuzhou city, Jiangxi Province, is a young professor in the discipline of hydraulic structure engineering and the director of the Office of Engineering Education and Social Cooperation at Hohai University. In recent years, he is mainly engaged in teaching and scientific research on long-term operation and function improvement of water engineering, presiding over more than 10 projects of National Natural Science Foundation of China, Natural Science Foundation of Jiangsu Province, Jiangxi Provincial Water Conservancy Science and Technology Project, State Key Laboratory Fund Project, Central University Basic Operation Expenses Project. He has presided over or participating in more than 20 national major engineering consulting projects such as Lianghekou, Shuangjiangkou, Rumi, Jiudian Gorge, Xigu, Dashi Gorge, etc. He has published 65 papers, including 23 papers in Class A journals and 16 papers in SCI; published 2 books, 1 textbook and 1 specification; authorized more than 20 invention patents (4 transformed), 8 software copyrights, and won 6 science and technology progress awards at provincial and ministerial level, including 2 first-class and 2 second-class awards each. Representative Papers [1] Lei Gan, Guanyun Chen, Zhenzhong Shen, et al. Modification method of seepage parameters for rough fractures based on digital image technique. Journal of Petroleum Science and Engineering, 2022. [2] Lei Gan, Zhenzhong Shen, Ming Xiao. Experimental investigation of seepage characteristics in porous rocks with a single fracture. Hydrogeology Journal, 2020. [3] Lei Gan, Xianwei Feng, Hongwei Zhang, et al. Three-dimensional meso-numerical model of freeze-thaw concrete based on the porosity swelling theory,Journal of Materials in Civil Engineering, 2023. [4] Lei Gan, Xinzhe Shen, Hongwei Zhang. New deformation back analysis method for the creep model parameters using finite element nonlinear method. Cluster Computing, 2017. [5] Lei Gan, Kailai Zhang, Hongwei Zhang, et al. Coupling analysis of hydraulic fracturing computation base on element-free method. Cluster Computing, 2017. [6] Lei Gan, Guanyun Chen, Zhenzhong Shen, et al. Evolution law of leakage dissolution of concrete cutoff wall of embankments. Journal of Hydraulic Engineering, 2022. [7] Lei Gan, Hongjie Jin, Zhenzhong Shen.Digital image characterization method of concrete surface roughness and its application. China Civil Engineering Journal, 2022. [8] Lei Gan, Hongying Ma, Zhenzhong Shen. Relationship between characteristic parameters of concrete rough surface morphology and joint roughness coefficient. China Civil Engineering Journal, 2022. [9] Lei Gan, Xianwei Feng, Linqun Xu, et al. Strength evolution model of basalt fiber reinforced concrete under dry-wet cycles of sulfate solutions. Journal of Southeast University (Natural Science Edition), 2022. [10] Lei Gan, Hongjie Jin, Zhenzhong Shen. Influencing factors of characteristic parameters of digital image on concrete surface roughness. Journal of Southeast University (Natural Science Edition), 2022. [11] Lei Gan, Hongying Ma, Zhenzhong Shen. Roughness characterization of concave fracture surface and coefficient fitting of modified cubic law. Journal of Hydraulic Engineering, 2021. [12] Lei Gan, Jian Wu, Zhenzhong Shen, et al. Deterioration law of basalt fiber reinforced concrete under sulfate attack and dry-wet cycle. China Civil Engineering Journal, 2021. [13] Lei Gan, Hongjie Jin, Zhenzhong Shen, et al. Experimental investigation on seepage characteristics of limestone fractures with different roughness and filling gap width. Chinese Journal of Rock Mechanics and Engineering, 2023. [14] Lei Gan, Yuan Liu, Zhenzhong Shen, et al. Influence of construction defects of concrete cutoff wall on its leakage dissolution evolution law. Chinese Journal of Geotechnical Engineering, 2023. [15] Lei Gan, Yuan Liu, Zhenzhong Shen, et al. Damage evolution law of concrete under sulfate attack and freeze-thaw cycle. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2023. | |||||
Projects |
[1] Natural Science Foundation of Jiangsu Province, A model of macro-fine damage evolution and performance evaluation method for hydraulic concrete under salt freezing. [2] Key Laboratory Project of the Ministry of Water Resources, Analysis model of seepage dissolution for concrete cutoff wall in Yellow River Dike. [3] Consulting Project of Nanjing Water Resources Research Institute, Long-term experimental testing of weir materials under the influence of external environmental factors. [4] Consulting Project of Nanjing Institute of Water Resources Research, Identification of groundwater seepage risks and real-time feeder control during the construction period of the Xixiayuan transmission and irrigation project through Chuanqin tunnels. [5] Consulting project of Northwest Survey and Design Institute of China Electric Power Construction Group, Research and application of key technology of earth-rock dams on deep overburden.
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Personal Website | http://www.scholarmate.com/psnweb/homepage/show | |||||
