Course Map
The curriculum of this department is based on the national construction and development needs as the main axis of planning and cooperation with teachers. The teaching goals are divided into four major directions: structural engineering, earth engineering, water resources engineering, and disaster management. The curriculum includes general courses, mathematics courses, language courses and other related courses, in order to train students to have both practice and theory, and to meet the needs of the times, the curriculum is reviewed every four years.
University Department-Course Map
Course module
Develop students' professional knowledge, skills and abilities
Basic course
Compulsory:
Calculus (1)
General Chemistry (1)
General Chemistry Experiment (1)
General Physics (1)
General Physics Experiment (1)
Computing Thinking and Information Technology Applications
Practice topics
Engineering ethics and regulations
Compulsory (1/2):
Engineering Materials
Engineering Materials Practice
Introduction to Civil Engineering
Surveying (1)
Surveying Practice (1)
Calculus (2)
Engineering mechanics
Engineering Mathematics (1)
Surveying (2)
Surveying Practice (2)
Material mechanics
Fluid mechanics
Fluid mechanics practice
Practice topics
Structure
Hydrology and Internship
Soil mechanics
Soil Mechanics Practice
Construction management
Basic course
Compulsory (2/2):
Reinforced concrete design
Soil Mechanics (2)
Basic engineering
Construction valuation
Water Resources Engineering and Planning
Engineering Contracts and Specifications
Civil engineering
Joint elective (1/2):
Programming Language and Internship
Computer Aided Drafting and Internship
Geographic Information System
Geographic Information System Internship
Engineering economy
dynamics
Engineering Statistics
Engineering Mathematics (2)
Introduction to Civil Disaster Prevention
Introduction to Earthquake Engineering
Intermediate structure
bridge engineering
Medium fluid mechanics
Basic course
Joint elective (2/2):
Farmland Water Conservancy and Internship
groundwater
Engineering Geology
Road works
Introduction to Ecological Engineering
Steel structure design
Medium reinforced concrete design
Prestressed concrete
Introduction to Finite Element Method
Channel hydraulics
Design and Practice of Irrigation Engineering
Flood prevention and drainage works
Geostructure Design
Engineering Environmental Planning
Shock-resistant design
Advanced Materials Mechanics
Computer-aided structural analysis
Computer Aided Structure Analysis Practice
Structural dynamics
Water engineering design and practice
Coastal engineering
Geosynthetics design
Geosynthetics Practice
Medium Foundation Engineering
Practical Internship Course
Water Engineering Practice Intern
Surveying Practice
Engineering Practice Internship
Career Coaching
Professional Certification Coaching Course
Course planning:
1. Fluid mechanics
2. Surveying
3. Material mechanics
4. Soil mechanics
5. Reinforced concrete design
6. Canal hydraulics
Teaching content:
* Introduce the basic principles of fluid mechanics and measurement, and enable students to understand the basic theories of material mechanics.
* Describe the basic structure of the soil, its basic properties and changes in its behavior under external forces, and teach students a preliminary understanding of their mechanical properties and their role in engineering.
* Training students to analyze and design the reinforced concrete structures of different forms under different loads based on basic static theory and standardized formulas developed through experimental results.
* The various types of canal flow and its water treatment when water flows in the canal are used as the basis for the hydraulic design of the canal water delivery system.
Course targets:
Have the basic ability to apply for the civil engineering related qualifications of civil servants-civil technicians, structural technicians, geotechnical technicians, and hydraulic technicians.
Institute-Course Map
Course module
Develop students' professional knowledge, skills and abilities
Basic course
Master’s courses required:
Panel discussion
research method
Thesis
Basic course
Doctoral courses required:
Panel discussion
research method
PhD thesis
Electives for Master and Doctoral Programs
Advanced Materials Mechanics
Advanced fluid mechanics
Higher Hydrology
Special Topics in Engineering Survey
Advanced reinforced concrete design
Higher Water Resources Engineering and Planning
Higher structure
Higher Channel Hydraulics
Advanced soil mechanics
Construction Management and Engineering Materials
Higher steel structure design
Higher Foundation Engineering
Special Discussion on Civil Construction Law
