Discipline:Environmental Science and Engineering
(Discipline Code: 0830)
Training Objectives
The students will grasp comprehensively and apply proficiently the basic theory and related techniques in the area of Environmental Science and Engineering. The students will be able to conduct engineering design, implementation, development and management. The graduated students will be proficient in one kind of foreign languages and skilled in reading professional literature.
Research Direction
1. Water pollution control and water treatment theory and technology
2. Air pollution control and gas purification
3. Theory and technology of solid waste treatment, disposal and recycle
4. Physical pollution prevention and control
Training Period
The full-time program usually lasts 2 years.
Credit requirements
Total Curricula Credits | ≥26 credits | ||
Degree Courses | ≥18 credits | Public Degree Courses: 6 credits | The students are normally required to complete all the course credits within one year after registration. |
Major Degree Courses: ≥ 10 credits | |||
Occupation Quality Course: 2 credits | |||
Non-degree Courses | ≥ 2 credits | | |
Compulsory Training | 5 credits | Social Practice Training | The students are required to complete one year social practice trainingcontinuously or accumulatively. |
1 credits | Academic Seminar & Academic Meeting | Students are required to participate in at least 2 academic seminars and meetings, and give at least 1 oral presentation. |
Curriculum
Course Catalog | Course Number | Courses | Terms | Credit Hours | Credits | Teaching Method | Exam | Others |
A Public Degree Courses | 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 | | |
S003999 | Professional English | Fall/ Spring | 20 | 1 | | quiz | | |
Major Fundamental Degree Courses | S042201 | Medical Statistics | Fall/ Spring | 54 | 3 | Lecture | Exam | Choose 1 courses |
S000112 | Numerical Analysis | Fall/ Spring | 54 | 3 | Lecture | Exam | ||
S003306 | Experimental Technology of Water Treatment | Fall | 36 | 2.0 | Lecture | Exam | Choose 1 courses | |
S003307 | Microbial Physiology and Biochemistry | Fall | 36 | 2.0 | Lecture | Exam | ||
S003309 | Instrumental Analysis ; | Spring | 36 | 2.0 | Lecture | Exam | ||
S003311 | Advanced Environmental Chemistry | Spring | 36 | 2.0 | Lecture | Exam | ||
S003106 | Advanced Fluid Mechanics | Fall | 54 | 3 | Lecture | Exam | ||
S003308 | Environmental Fluid Mechanics | Spring | 36 | 2.0 | Lecture | Exam | ||
S003107 | Advanced Heat Transfer | Fall | 54 | 3 | Lecture | Exam | ||
S019304 | Advanced Inorganic Chemistry | Spring | 54 | 3 | Lecture | Exam | | |
S019403 | Advanced Organic Chemistry | Fall | 54 | 3 | Lecture | Exam | | |
S042304 | Molecular and Genetic Toxicology | Spring | 54 | 3 | Lecture | Exam | | |
Major Degree Courses | | Occupation Quality Course (including six lectures) | Fall/ Spring | 20 | 1 | Lecture | quiz | Choose 2 courses |
S003302 | Solid Waste Treatment Technology | Spring | 36 | 2 | Lecture | Exam | ||
S003303 | Principle of Physical and Chemical Treatment of Water | Spring | 54 | 3 | Lecture | Exam | ||
S003305 | Principle of Biologicall Treatment of Water | Spring | 54 | 3 | Lecture | Exam | ||
S003313 | Urban Ecological Planning and Engineering | Fall | 36 | 2 | Lecture | Exam | ||
S003314 | Principle for Air Pollution Control. | Spring | 54 | 3.0 | Lecture | Exam | ||
S003319 | Design Technology of Energy and Environmental Engineering | Spring | 36 | 2.0 | Lecture | Exam | ||
S042302 | Modern Environmental Hygiene | Spring | 54 | 3.0 | Lecture | Exam | ||
Compulsory Training | Practice Training | The subject should be combined with engineering production practice. | 5 | | quiz | | ||
Academic Seminar & Academic Meeting | Students are required to participate in at least 2 academic seminars and give at least 1 oral presentation. | 1 | | quiz | |
Note:
(1) Degree courses are subject to this course plan, non-degree courses can be chosen from “Graduate Courses Catalog”.
(2) A student should attend for related academic research activities and get 1 credit when submit related written materials to the graduate secretary of school approved by supervisor’s assignment.
Practice Training
1. Time requirement: an accumulative time of one year or so.
2. Content: The content should be issues closely related to practice and producing process. The plan of the practice step should be set up by the student and his supervisor, and need to be recorded and approved by the graduate school and the school of energy and environment.
3. Assessment:
1) The student should participate in a research of his supervisor and write a research report with more than 6000 words. The report will be assessed and graded by two or more vice professors from the sub-discipline his supervisor is in. There are three levels of the grade, outstanding, pass and fail. The student can get 5 credits after he passes the assessment.
2) The student should participate in a research or product development in an enterprise or an institution out of the school and write a research report with more than 6000 words. The report will be assessed and graded by the senior engineers from the enterprise or institution together with the student’s supervisor. There are three levels of the grade, outstanding, pass and fail. The student can get 5 credits after he passes the assessment.
Thesis requirements
A clear engineering technical background and practical value are required for the thesis, with clear missions, ready conditions, a proper cycle and sufficient funds. The student himself should be the major accomplisher of the thesis project.
The double-supervisor system is encouraged, while one of the supervisors is from Southeast and the other one is an expert from some enterprise in the related area. A guide group based on the research direction of the student is also acceptable.
The content of the thesis can be an engineering design, a technical research, an improved technical scheme or the development of an engineering software. The form of the thesis, the evaluation of the thesis and the requirements for the oral defense refer to the rules of the school of graduate.