Discipline:Power Engineering and Engineering Thermophysics
(Discipline Code: 0807)
Training Objectives
The students will grasp basic theory and professional ability on Power Engineering and Engineering Thermophysics. The students will have systematic and thorough expertise, become specialized in experimental techniques used in his/her research areas, and be capable of conducting independent research in scientific fields. The students graduated with a Master degree are competent for the scientific research, technological development and teaching. The graduated students will be proficient in one kind of foreign languages.
Training Period
Generally, the students are expected to graduate in 2 to 3 years, longest may delay for 4 years.
Credit Requirements and Curriculum (see attached list)
Confirmation Report
The confirmation report should be finished in the third semester and get approved by 3-5 related experts. Students can apply for the thesis defense at least a half year after the confirmation.
Mid-term Assessment
The mid-term assessment is held in the third semester. According to the gained credits and confirmation report, the mid-term assessment needs to be scored abide by relevant provisions of graduate school.
Thesis
〔Literature reading requirements, thesis written request, publication achievement requirements etc.〕
Literature Reading (for reference only, the same below)
Students are required to read at least 30 literatures on topics related to their thesis and research direction including 15 literatures in foreign languages and to write a literature overview.
Thesis Writing
In addition to compliance with the provisions of school, thesis must be written in a systematic and complete manner, presenting clear concepts, correct argument, realistic description, concise writing structure, smooth and concise writing style, correct calculation, reliable data, and clear icons.
Thesis Evaluation
Thesis should be written based on students’ own study and research. The findings presented in the thesis should have higher academic value and positive impact on economic development of
Attached List
Course Catalog | Course Number | Courses | Terms | Credit Hours | Credits | Teaching Method | Exam | Others |
Public Degree Courses | S000301 | Theory and Practice of Socialism with Chinese Characteristics | Fall/ Spring | 36 | 2 | Lecture | Exam | |
S000105 | Master Degree English | Fall/ Spring | 54 | 3 | Lecture | Exam | | |
S003999 | Professional English | Fall/ Spring | 20 | 1 | | quiz | | |
S000302 | Conspectus of Dialectics of Nature | Fall/ Spring | 18 | 1 | Lecture | Exam | | |
Major Degree Courses | S000111 | Engineering Matrix Theory | Fall/ Spring | 54 | 3 | Lecture | Exam | Choose 1 courses |
S000114 | Mathematical Statistics | Fall | 36 | 2 | Lecture | Exam | ||
S000112 | Numerical Analysis | Fall/ Spring | 54 | 3 | Lecture | Exam | ||
S003103 | Advanced Engineering Thermodynamics | Fall | 36 | 2 | Lecture | Exam | Choose 2 courses | |
S003104 | Combustion Theory and Technology | Fall | 36 | 2 | Lecture | Exam | ||
S003105 | Thermal Control Theory and Technology | Spring | 36 | 2 | Lecture | Exam | ||
S003106 | Advanced Fluid Mechanics | Fall | 54 | 3 | Lecture | Exam | ||
S003107 | Advanced Heat Transfer | Fall | 54 | 3 | Lecture | Exam | ||
S003100 | Lectures on the Cutting Edge and Development of the Discipline Research (10 times) | Fall/ Spring | 20 | 1 | Lecture | quiz | ||
S003201 | Gas-Solid Two-Phase Flow and its Numerical Simulation | Spring | 36 | 2 | Lecture | Exam | ||
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 | ||
S003302 | 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 | ||
S003501 | Error Theory and Data Processing | Fall | 36 | 2 | Lecture | Exam | ||
Compulsory Degree Courses | S003406 | Numerical Heat Transfer and Fluid Flow | Fall | 36 | 2 | Lecture (English) | Course Research Project | Choose 1 courses |
B003125 | Combustion Optimization | Fall | 36 | 2 | Lecture (English) | Course Research Project | ||
B003126 | Advanced Energy Systems Engineering | Spring | 36 | 2 | Lecture (English) | Course Research Project | ||
B003127 | Heat and Mass Transfer across Building Enclosures | Spring | 36 | 2 | Lecture (English) | Course Research Project | ||
| Modern Fluid Test Method and Signal Processing | Spring | 36 | 2 | Lecture (English) | Course Research Project | ||
Social Practice Training | Generally it includes teaching practice, production practice (clinical practice), or social investigation. | 1 | | 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 give at least 1 oral presentation. | 2 | | quiz | |
Note:
(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”.