Discipline:Power Engineering
(Discipline Code: 085206)
Research Direction
1. Multi-phase flow and heat and mass transfer
2. Clean coal-fired power generation and combustion technology
3. Combustion pollution control and waste energilization
4. Optimization and energy saving of thermal system
5. Simulation, control and information technology of thermal system
6. Thermal equipment condition monitoring and fault diagnosis
7. Parameter detection and signal processing
8. Vibration analysis and application of power machinery
9. Refrigeration and air conditioning technology
10. Conversion and utilization of renewable energy
11. Water pollution control and water treatment theory and technology
12. Air pollution control
13. Theory and technology of solid waste treatment, disposal and recycle
14. Harmless and resource utilization of industrial waste water
Knowledge requirements
The students will master the basic theories knowledge and major knowledge of design, operation and management in the field of Power Engineering.The students will have high modern engineering technological literacy and the ability to be engaged in science and technology creativity and innovation. Students will also be proficient in at least one kind of foreign languages.
Curriculum and Exam
Course Catalog | Course Number | Courses | Terms | Credit Hours | Credits | Teaching Method | Exam | Others |
A Public Degree Courses | S003999 | Professional English | Spring | 20 | 1 | | quiz | |
S000901 | Professional Practice | Fall/ Spring | 80 | 5 | | | | |
S000101 | Dialectics of Nature and Theory and Practice of Socialism | Fall/ Spring | 36 | 2 | Lecture | Exam | | |
S000105 | Master Degree English | Fall/ Spring | 60 | 3 | Lecture | Exam | | |
B Major Fundamental Degree Courses | S000111 | | | | | | | Choose 1 courses |
S000112 | Numerical Analysis | Fall/ Spring | 54 | 3 | Lecture | Exam | ||
S003107 | Advanced Heat Transfer | Fall | 54 | 3 | Lecture | Exam | Choose 1 courses | |
S003106 | Advanced Fluid Mechanics | Fall | 54 | 3 | Lecture | Exam | ||
S003103 | Advanced Engineering Thermodynamics | Fall | 36 | 2 | Lecture | Exam | ||
S003104 | Combustion Theory and Technology | Fall | 36 | 2 | Lecture | Exam | ||
S003105 | Thermal Control Theory and Technology | Fall | 36 | 2 | Lecture | Exam | ||
S003319 | Design and Technology of Energy and Environmental Engineering | Spring | 36 | 2 | Lecture | Exam | ||
C Major Degree Courses | S000129 | Occupation Quality Course | Fall/ Spring | 36 | 2 | Lecture | Exam | |
S003201 | Gas-Solid Two-Phase Flow and its Numerical Simulation | Spring | 36 | 2 | Lecture | Exam | Choose 2 courses | |
S003202 | Thermal Engineering Information Technology and System | Spring | 36 | 2 | Lecture | Exam | ||
S003203 | Theory and Application of Fluidized Bed | Fall | 36 | 2 | Lecture | Exam | ||
S003204 | Operation Characteristics and Diagnosis of Power Machinery | Spring | 36 | 2 | Lecture | Exam | ||
S003205 | Dynamic Characteristics of Thermal System | Spring | 36 | 2 | Lecture | Exam | ||
S003206 | Renewable Energy | Spring | 36 | 2 | Lecture | Exam | ||
S003301 | Measurement and Control technology of Combustion Air Pollution | Spring | 36 | 2 | Lecture | Exam | ||
S003318 | Solid Waste Treatment Technology | Spring | 36 | 2 | Lecture | Exam | ||
S003401 | Principles of Refrigeration and Cryogenics | Fall | 36 | 2 | Lecture | Exam | ||
S003402 | Refrigeration and Air Conditioning System Optimization and Energy Saving Technology | Spring | 36 | 2 | Lecture | Exam | ||
Compulsory Training | Social Practice Training | Generally it includes teaching practice, production practice (clinical practice), or social investigation. | 5 | | quiz | | ||
Selected Liberal Arts & Scientific Literacy Lecture | Students are required to attend at least 8 Liberal Arts & Scientific Literacy lectures before the mid-assessment. | 1 | | quiz | | |||
Academic Seminar & Academic Meeting | Students are required to participate in at least 2 academic Seminars and academic meetings, and give at least 1 oral presentation. | 1 | | quiz | |
(1) The minimum total-credit requirements of Master's curricula: 28 credits for students of science and engineering; 30 credits for students of medical science; 34 credits for students of arts and management sciences. The minimum credit requirements of degree courses: 16 credits for students of science and engineering; 18 credits for students of arts, management science and medicine; other credits in non-degree courses. In addition, students should have 3 credits from compulsory courses.
(2) All courses are normally required to complete within one and half year after registration. Degree courses are normally required to complete within one year after registration.
(3) Degree courses are subject to this course plan, non-degree courses can be chosen from “Graduate Courses Catalog”.