Course name:Harbor, Coastal and Offshore Engineering Course code:081505 Program degree type:Engineering
Course name:Hydraulic Structure Engineering Course code:081503 Program degree type:Engineering
Course name:Hydrology and water resources Course code:081505 Program degree type:Engineering
I. Program Introduction
The first grade discipline of master degree in Hydraulic Engineering contains three postgraduate mastery programs of Harbor, Coastal and Offshore Engineering, Hydraulic Structure Engineering, Hydrology and water resources, in which the Coastal and Offshore Engineering is a key program of Shanghai Maritime University. This program is proud to have 22 faculties, including 9 professors and 7 associate professors; plus 90 percent doctor degree owners (including post-doctorate).The discipline is doing research on several directions such as harbor structure engineering and geotechnical engineering, harbor and coastal water dynamics, hydraulic engineering structure security and durability evaluation, Offshore disaster prevention and urban flood control engineering, offshore water area water resources and water environment, Marine safety and disaster prevention, etc. The program has been undertaking several National Natural Science Founding projects, sub-tasks of National 863 projects, a number of scientific research projects of provincial and municipal government institutions, leading to winning 4 items of provincial science and technology progress prize, publication of many works and paper, and acquisition of patents and the copyright of computer software and equipments. It has become the high-level professional and technical professional talents training base in harbor, coastal, offshore and ocean engineering to the construction of Shanghai international shipping center, the graduates mainly work for the colleges and universities, engineering design, construction and project supervision enterprises and administrative departments related to the harbor, coastal and offshore engineering, hydraulic engineering, civil engineering, Marine engineering.
II. Program Objective
i. Should be loving the motherland, law-abiding, honest, having a strong sense of professionalism and good character and quality, positive for the socialist construction with Chinese characteristic service
ii. Should be full development, morally, intellectually, and physically. Students should be expected to have a solid theoretical foundation and systematic professional knowledge and skills, understand the development level of modern theory and application, be familiar with the dynamic of relational projects development of home and abroad in science research as well as mastery of a foreign language, including abilities of listening ,speaking ,reading, writing.
iii. The program aims for strict academic environment, honest and creative scientific spirit. Based on the characteristic of “The marine”within the research area of Hydrology and water resources, the program is designed to train advanced technical talents of marine, water conservancy, environment, resource, zoology, shipping, who have a abilities in science research and engineering technical , capable of charging independently in special technical , management and consultation and master general method of scientific research and engineering practice. In addition, students are also required to familiarize themselves with modern information techniques, as well as good computer and information management skills.
iv. Should have innovative, engineering practice ability and entrepreneurial quality.
III 、Main Research Direction
Harbor, Coastal and Offshore Engineering | ||
Research Direction | Main Research Contents | Tutor |
Port, Offshore and Marine Engineering Structures and Geotechnical Engineering | Port Engineering and Foundation | Liu Wenbai Wu Xianghao Jiang Jianping Shi Danda and other teachers |
Port Channel Bank Geotechnical Engineering | ||
Marine Structure | ||
Environment and Marine Geotechnical Engineering | ||
Port, Offshore and Marine Engineering Water Dynamics | Free Surface Water Dynamics Theory and Numerical Simulation | Wu Guoxiong Zhang Hongsheng and other teachers |
Coastal and Estuarine Dynamics | ||
Wave Flow and Marine Structures Interactions | ||
Port, Coastal and Offshore Engineering Planning | Port Planning and Development | Wang Xiao Geng Anchao and other teachers |
Coordinated Development of Port and City | ||
Marine Environmental Planning and Management | Port and Ship Pollution Control | Ding Yongsheng and other teachers |
Port and Ship Disaster Control | ||
Disaster Prevention and Reduction of Port and Marine Engineering | ||
Hydraulic Structure Engineering | ||
Research Direction | Main Research Contents | Tutor |
Hydraulic Engineering Structure Safety and Durability Evaluation Theory and Method | Reliability assessment theory and method of Hydraulic Engineering Structure | Wu Xianghao Shi Danda and other teachers |
Durability analysis and lifetime prediction of Hydraulic Engineering Structure | ||
Corrosion resistance and durability of Hydraulic Engineering Structure material | ||
Numerical Analysis and Optimization Design of Ocean and Hydraulic Engineering Structure | Static & dynamic analysis of Ocean and Hydraulic Engineering Structure | Liu Wenbai Jiang Jianping Guo Jiamin and other teachers |
Modern analytical methods for Ocean and Hydraulic Engineering Structure | ||
Optimal design theory and application ofOcean and Hydraulic Engineering | ||
Offshore disaster prevention and urban flood control project
| Theory and numerical simulation of offshore storm surge and tsunami | Wu Guoxiong Zhang Hongsheng Shi Danda and other teachers |
Safety monitoring and behavior analysis of Urban flood control project | ||
Urban flood control project to repair and reinforcement technology | ||
Hydraulic Structure Engineering | ||
Research Direction | Main Research Contents | Tutor |
Water resources and water environment of alongshore sea area | Development and utilization of seawater resources, coastal water environmental protection, Marine ecological and environmental quality evaluation | Geng Anchao Cheng Yuanjie Liao Dexiang |
Marine hydrological dynamic environment and numerical simulation | Marine establishment and application of hydrodynamic model, water quality model and pollutant migration and diffusion, numerical simulation of waves and tidal current characteristics and analysis technology | Zhang Hongsheng Liu Xingpo |
Shipping and marine pollution control | Port sewage treatment and reuse, water pollution control technology, the ship ballast water treatment technology | Ding Yongsheng Feng Daolun Liu Guangming |
Marine safety and disaster prevention | Maritime accident environmental risk prevention and emergency treatment, the storm surge and the disaster assessment, safety management of port and Waterway Engineering | Liu Jianghong |
IV. Courses Configuration
Cuorse Type | Course Name | Hours | Credits | Semester | College | Teacher | Prepared Teacher | ||||
Public degree course (Compulsory,8 credits) | Chinese Traditional Culture | 36 | 2 | 1 | And Sciences |
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Introduction to dialectics of nature | 36 | 2 | 1 | And Sciences |
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English Language | 72 | 2 | 1,2 |
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Type C | 144 | 4 | |||||||||
Foundation degree courses (9credits or 10 credits) | Module 1 | Numerical Analysis * | 54 | 3 | 2 | College of Foreign Languages |
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Matrix Theory | 36 | 2 | 1 | College of Arts and Sciences |
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Elastic-Plastic Theory | 36 | 2 | 1 | Jiang Jianping |
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Advanced Fluid Mechanics * | 36 | 2 | 1 | Zhang Hongsheng |
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Module 2 | Numerical Analysis * | 54 | 3 | 2 | College of Foreign Languages |
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Probability theory and mathematical statistics * | 54 | 3 | 1 | College of Arts and Sciences |
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Advanced Fluid Mechanics * | 36 | 2 | 1 | Zhang Hongsheng |
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Water chemistry * | 36 | 2 | 1 | Cheng Yuanjie |
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Major degree courses (8 credits) | Module 1
| Harbor, coastal and offshore engineering planning | 36 | 2 | 2 | Deng Yibin |
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Senior Soil Mechanicals | 36 | 2 | 1 | Liu Wenbai |
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Port and ocean engineering structure | 36 | 2 | 2 | Xin Ling |
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Wave and engineering structure interaction | 36 | 2 | 2 | Zhang Hongsheng |
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Higher hydraulic structure | 36 | 2 | 2 | Wu xianghao |
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Module 2 | Modern marine monitoring technology | 36 | 2 | 2 | Ding Yongsheng |
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The development and utilization of Water Resources Engineering * | 36 | 2 | 1 | Liu Xingpo |
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Marine Engineering Environmental Sciences* | 36 | 2 | 2 | Geng Anchao |
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Water resources planning and management | 36 | 2 | 2 | Liu Guangming |
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Major elective courses (6-8 credits) | Module 1
| Finite element theory and application | 36 | 2 | 2 | Guo Jiamin |
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Engineering sediment and navigation channel regulation | 18 | 1 | 2 | Li Xiuwen |
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Marine hydrology | 18 | 1 | 2 | Zhang Hongsheng |
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Port and ocean engineering geology | 18 | 1 | 2 | Jiang Jianping |
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Modern experimental techniques and numerical simulation | 18 | 1 | 2 | Shi Danda |
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Computational fluid mechanics | 18 | 1 | 2 | Li Junhua |
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Operations Analysis | 54 | 3 | 2 | And Sciences |
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Harbor modernization management | 36 | 2 | 1 | College of Transportation | Zhen Hong |
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Module 2 | Environmental hydrology * | 36 | 2 | 1 | Su Penghao |
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Sewage treatment and reuse | 36 | 2 | 2 | Liao Dexiang |
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Water resource systems engineering * | 36 | 2 | 2 | Feng Daolun |
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Marine ecology progress | 36 | 2 | 2 | Xing Xiaoli |
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The development and utilization of Water Resources Engineering * | 36 | 2 | 1 | Liu Xingpo |
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Marine hydrology | 18 | 1 | 2 | Zhang Hongsheng |
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Computational fluid mechanics | 18 | 1 | 2 | Li Junhua |
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Traffic safety engineering | 36 | 2 | 2 | Liu Jianghong | Yin Xiaobei | ||||||
Traffic pollution control technology | 36 | 2 | 2 | Ding Yongsheng | Geng Anchao | ||||||
Numerical simulation of water transport safety accident | 36 | 2 | 2 | Jiao Yu | Wu Yujian | ||||||
Refresher courses (2, no credits) | Module 1 | Port engineering | 36 |
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Hydraulic reinforced concrete structures | 36 |
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Module 2 | Environmental impact assessment | 36 |
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Principles of Environmental Engineering | 36 |
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Other compulsory parts (No credits) | Academic activities and workshops | 8 | 1 2 |
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Practical links | 60 |
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Literature reading |
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Science moral and academic atmosphere construction |
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Interim Assessment | The beginning of the 3rd semester | ||||||||||
Research Requirements | To participate in the tutor designated research projects, or to discuss and determine the research work of a specific research content with the tutor; to write dissertation | ||||||||||
Degree Dissertation | The 3rd and 4th semesters | ||||||||||
Other Requirements |
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Note:. (1) After obtained 30 credits and completed the required program other than credits, the graduate student can enter the stage of dissertation work. (2) English Language classification and degree requirement can be referred to see the “Administration of public English teaching for non-English major graduate students” promulgated by
Author of the Program:Liu Wenbai Wu Xianghao Geng Anchao Dean of College in Charge:Shi Danda Sub-Committee Chairman:Liu Wenbai | |||||||||||
Note: the table with * in the curriculum for port, coastal and offshore engineering. student elective.
V.The directory of the main books and major journals of the subject literature reading
Number | Name of the Books and Journals | Author and Publishing Agency | Remark |
1 | Port Engineering magazine |
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2 | Marine Engineering | Marin Engineering magazine |
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3 | Transaction of Geotechnical Engineering | Transaction of Geotechnical Engineering Magazine |
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4 | Transaction of | Shanghai Maritime University Magazine |
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6 | China Ocean Engineering Magazine (English)) | 0890-5487 | |
7 | Canadian Geotechnical Journal | NRC | 0008-3674 |
8 | Coastal Engineering Journal | World Sci Publ Co Pte Ltd | 0578-5634 |
9 | Transaction of Application Foundation and Engineering Sciences | ransaction of Application Foundation and Engineering Sciences Magazine (CAST) | 1005-0930 |
10 | Transaction of Water Conservancy | CN11-1882/TV | |
11 | Transaction of Rock Mechanics and Engineering | Science Press | ISSN1000-6915 |
12 | Computer Assistant Engineering | Shanghai Maritime University Magazine | ISSN1006-0871 |
13 | Coastal Engineering | Elsevier Science Publishers B.V., | 0378-3839 |
14 | Coastal Dynamics - Proceedings of the International |
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15 | Canadian Journal of Civil Engineering | NRC Can, Can | 0315-1468 |
16 | Port Planning and Layout | Hong Chengli, |
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17 | Finite Element Method and its Application | Li Kaitai, Xi'an Communications Press, 1992.4 |
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18 | Harbour Engineering Design Manual (I, II, III) | 1st Harbor Engineering Investigation and Design Institute of Ministry of Communications, |
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19 | Qiu Ju, |
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20 | Principle and Calculation of Geotectology | Qian Jiauan Yin Zongze, |
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21 | Engineering Properties of Soil | Huang Wenxi, |
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22 | Strength Theory and Application | Xu Jishan, |
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23 | Application of Elastic-Plastic Mechanics | Lin Ocean Press |
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24 | Marine Environmental Science | Marine Press |
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25 | Marine Science Progress | Organizer: |
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26 | Marine Science | Organizer: Research Institute of Oceanography, |
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27 | Coastal Engineering | Organizer: |
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28 | Journal of Natural Disasters | Organizer: |
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29 | Journal of Disaster Prevention Project | Organizer: |
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30 | Disaster |
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31 | Science of Disaster | Organizer: |
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32 | Hydroelectric Engineering Journal | Organizer: Hydropower Engineering Society |
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33 | Water Resources and Hydropower Engineering | Organizer: Ministry of |
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34 | Water Resources and Power | Organizer: |
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35 | Science and Technology of Water Resources Progress | Organizer: |
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36 | Hydrological | Organizer: Hydrological Bureau of Water Resources |
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37 | Journal of Sediment Research | Organizer: Chinese Hydraulic Engineering Society |
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38 | Advances in Water Science | Organizer: Nanjing Hydraulic Research Institute, China Institute of water conservancy |
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39 | Engineering hydrology | Zhan Daojiang, Ye Shouze, Water Conservancy Press |
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40 | Environmental hydrology | chief editor: Liang Ruiju, China Water Conservancy and Hydropower Press |
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41 | Runoff formation principle | Rui Xiaofang, |
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42 | Environmental hydrology |
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43 | Water resources system analysis and planning | Yao Ruxiang, |
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44 | Assessment and planning of water environment | Chen Xiaohong, |
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45 | Coastal Engineering Environment | Edited by Chang Ruifang, |
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46 | Environmental engineering design manual | Wei Xianxun editor, |
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47 | Drainage design manual | Water supply and drainage design manual editorial board, the North Industry Press |
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Description | Literature reading: According to research direction, the graduate students should read a certain amount of domestic and foreign materials with the tutor’s science research and the need of the dissertation, to grasp the research frontier of the subjects development. | ||
VI. Postgraduate Education for Practical Applications
The Harbor, Coastal and Offshore Engineering, Hydraulic structure engineering, Hydrology and water resources are strongly practical specialtyies Therefore, the education of practical application reflects the level of the postgraduate education. Based on the academic level, great importance should be attached to the cultivation of practical and compound talents. Through the study of theories and participation in scientific research and engineering practices, students are expected to be familiar with scientific and engineering project standards and procedures, and to improve the ability of doing scientific and practical work. Under the guides of their tutors, students are expected to master the applications and techniques of engineering project, and have the practical capability of carrying out scientific research and engineering programs. The program can provide the training and simulating analysis practice of a range of engineering project analytical software(ABQUAS,FLUENT,PFC,MIKER, Geotechnical
