Curriculum:

Optimization Methods, Finite Element Method, Advanced Fluid Mechanics, Advanced Hydraulic Structures, Advanced Soil Mechanics, Advanced Rock Mechanics, Water Resources Planning and Management, Irrigation and Drainage Theory and Technology, Engineering Project Management (bilingual). Computational Fluid Mechanics, Water Environment Chemistry, Water-Saving Irrigation Theory and Technology, Watershed Hydrological Models, Mathematical Model and Simulation of Water Environment, Ecological Restoration of Water and Soil Pollution (bilingual), Water Information Technology and System Development, Principles and Applications of Finite Element Software, Soil Dynamics, Engineering Seepage Analysis and Control, Reliability Analysis of Hydraulic Structure, Structure and Engineering System Optimization, Safety Monitoring and Health Diagnosis of Hydraulic Buildings, and Hydraulic Engineering Economics.