研究生教学网
一、学科简介Introduction
上海交通大学核反应堆工程专业始建于1958年,是国内首批创建并开展研究生培养工作的专业。1998年获得“核能科学与工程”联合博士学位授权点,2001年获批“核科学与技术”一级学科博士后流动站。2006年增加学科设置、拓宽专业方向,成立了核科学与工程学院。2010年获批核科学与技术一级学科点。
The discipline of Nuclear Science and Engineering at SJTU originated from the major of Nuclear Reactor Engineering which was established in 1958, and it is among the earliest ones in related field in China. In 1998, the joint doctoral program of "Nuclear Science and Engineering"was set up. In 2001, the first-level post-doctoral research station of "Nuclear Science and Technology" was approved. In 2006, the School of Nuclear Science and Engineering (SNSE) was established by increasing subjects and broadening the scope of specialties. In 2010, it was approved to be the first-level discipline in the field of Nuclear Science and Technology.
核科学与技术学科下设6个研究方向:核安全与系统仿真、反应堆热工水力、核燃料循环与材料、核辐射防护与环境保护、核反应堆物理、先进核能系统。本专业具有一支国际化、高水平的师资队伍,共有25名专职教师,教授6名, 其中曙光学者1名、优青1名,副教授16名,所有专业教师均有博士学位,且具有海外经历。
The research fields in SNSE include six research directions: nuclear safety and system simulation, reactor thermo-hydraulics, nuclear fuel cycle and materials, nuclear radiation protection,reactor physics and advanced nuclear reactor systems. SNSE consists of 25 faculty members, and all have doctoral degree and overseas’ experience. Among them, it includes 6 Professors (1 Shuguang Scholar, 1 faculty member awarded the National Science Fund for Excellent Young Scholars) and 16 associate professors.
核科学与技术学科重实践、宽基础、严要求,培养学科交叉复合的创新人才。本专业注重对接国家核能发展重大需求,主持了国家“973”项目、国家自然科学基金重点项目、国家重点研发专项和国家科技重大专项课题等十余项,建成“上海市核电工程技术研究中心”和“先进核能系统热工水力基础研究国际合作基地”等实践平台,形成了研究生培养和科研工作的基础。同时,本学科与美国密西根大学、德国KIT、日本东京大学、韩国科技大学等世界知名大学建成了国际交流合作平台。
SNSE emphasizes on academic practice, broad foundation and strict requirements to cultivate students to be interdisciplinary, innovative as well as with global vision. In order to satisfy the fast development of nuclear energy application in China, SNSE hosted over 10 national key research projects,including National ‘973’ Project, Key Projects of NSFC, National Basic Research Programs, National Science and Technology Major Projects. Academic practice platforms aming to graduate education and research work have been established, such as “Shanghai Nuclear Power Engineering Technology Research Center" and "International Cooperation Base for Basic Research on Thermal-Hydraulic of Advanced Nuclear Reactor System". Meanwhile, SNSE has close international cooperation and develops exchange programs with University of Michigan, Karlsruhe Institute of Technology, University of Tokyo, Korea Advanced Institute of Science and Technology, etc.
二、培养目标Program Objective
围绕学校研究生人才培养的总体目标,培养数理基础知识优秀、知识结构宽广,专业领域知识精通,创新能力强、具备社会责任感、具有国际竞争力的核工程前沿领域专业人才,具备独立承担核工程技术和管理工作的能力。
We focus on the postgraduate training objective of our university. We will provide you with the excellent mathematical foundation, broad knowledge structure, high proficiency in a professional field, strong innovation ability, good sense of social responsibility, and global competitiveness in the frontier of nuclear engineering. You will be given the grounding to engage in nuclear engineering technology and management independently.
学生毕业时可达到:
1、具有优秀的数理基础理论知识,深入的核工程相关方向基础知识,熟悉学科的进展、动向和最新发展前沿;
2、掌握解决工程问题的现代研究方法与实验技术,具有应用理论和方法对相关专业方向工程问题的理解和分析的能力;
3、具有较强的创新意识,在本学科某一方向取得实践性研究成果;
4、能够进行中文交流,能熟练地阅读本专业中英文资料,具有较强的写作能力和进行国际学术交流的能力;
5、具备较强的学术素养和工程实践能力,良好的职业道德和社会责任感。
Upon graduation, you will:
1. Have the excellent mathematical foundation, in-depth fundamental knowledge in nuclear engineering and related areas, and be familiar with the progress, trends and latest development of the discipline;
2. Master the modern research methods and experimental techniques to solve engineering problems, and have the ability to apply theories and approaches to understand and analyze technical engineering problems in related professional directions;
3. Have a strong sense of innovation, and get practical contribution in a specific area of the discipline;
4. Be able to communicate in Chinese, read Chinese and English literature of your major fluently, have good skills in writing and international academic communicating;
5. Have good academic accomplishment and engineering practice ability, professional ethics and social responsibility.
三、培养方式及学习年限 Training Mode and Study Duration
全日制专业硕士生采用全日制学习、导师负责制培养模式;新生入学后两周内经师生互选确定导师。
学制为二年半。未能按时完成学业者,经申请批准后其学习年限可适当延长,最长可以延期至三年半。
Full-time Professional Master Program students tutored full-time by supervisors. The intended supervisor is determined by mutual selection between professors and students within two weeks after enrollment.
The length of Full-time Professional Master Program is 2.5 years. Students who fail to complete the program within 2.5 years could apply for extension, with a maximum length of 3.5 years upon approval.
四、课程学习要求 Course Requirement
全日制国际硕士生,课程总学分≥30学分,总学分上限为45学分。其中:选择GPA统计源的课程≥19学分,GPA≥2.7方可以进行论文答辩。
Full-time International Academic Master Program. Minimum credits: 30 credits, including at least 19 credits from GPA courses. Students whose GPA of the GPA courses is above 2.7 are eligible for doctoral study.
1. 公共基础课程 15.5学分
General Courses. 15.5 credits.
a. CHN6207 汉语,4学分,必修,符合条件可免修
CHN6207 Chinese Language, compulsory. Exemption can be applied for qualified students.
b. CHN0916 中国文化概论,2学分,必修
CHN0916 Introduction to Chinese Culture, 2 credits, compulsory.
c. FL6001 学术英语,2学分,必修
FL6001 English for Academic Purposes, 2 credits, compulsory.
d. GE6001学术写作、规范与伦理,1学分,必修,院系开课
GE6001 Academic Writing, Norms and Ethics, 1 credit, compulsory offered by ME school.
e. GE6003 实验室安全教育,0.5学分,必修,院系开课
GE6003 Laboratory Safety Education,0.5 credit, compulsory, offered by ME school.
f. 数学课,6学分,必修
Mathematics, 6 credits, compulsory.
2. 专业前沿课:GE6011 学术报告会,1学分,必修
Frontier Course.
GE6011, Academic Seminar, 1 credit, compulsory.
3. 专业基础课、专业选修课:≥ 13.5学分
Core Courses and Elective Courses. Minimum credits: 13.5 credits.
4. 统计如下:Summarized as below.
课程类别 Course Type | 学分要求 Required Credits | 门数要求 Required Courses | GPA学分要求 Min GPA | 备注 Note |
公共基础课 General Courses | 15.5 | 7 | 硕士阶段≥19学分,GPA≥2.7 19 credits and GPA≥2.7 | |
专业基础课Core Courses、专业选修课Elective Courses | ≥13.5 | NA | 跨学科选课不超过2门,且仅作为非GPA统计源课程. No more than 2 interdisciplinary courses can be selected, which are counted as non-GPA course. | |
专业前沿课Frontier Courses | 1 | 1 |
五、培养过程要求 Training Requirement
开题报告:在第三学期起开题。开题报告要求就学位论文选题的科学根据、目的意义、研究内容、预期目标、研究方法和课题条件等做出论证,并由导师组织3~5位教授加以审核。
Thesis proposal: Thesis proposal work will start in the 3th semester, which requires an argument on the scientific basis, purpose and significance, research content, expected goals, research methods, and project conditions of intended thesis topic and shall be evaluated by 3 or 5 professors invited by supervisor.
年度报告(论文中期考核):在开题报告完成后,第四学期。由硕士生本人提交、导师给出评语、学科、学院审核。年度报告的形式也可以结合学术讨论会或专题研究报告会进行。年度报告的内容含:1、已完成的论文工作、阶段性成果。2、下一步工作内容、拟发表论文计划等。3、导师对已有工作的评价、以后工作的估计和指导。
Annual report (Thesis Project Intermediate Evaluation): The evaluation usually takes place in the 4th semester after thesis proposal gets passed. The report shall be submitted by students with supervisor’s given comments, which will go through the evaluation of each department and school as well. The format of the annual report can also be done in the form of academic discussion or symposium on selected topics. The contents of the annual report include: 1. Completed thesis-related work and periodic results. 2. The content of the next-phase work and plans on paper publications. 3. Supervisor's evaluation of the finished work, estimation and guidance of the future work.
论文答辩:在第五学期结束前后完成。论文答辩由一级学科统一组织,各一级学科推举后15%的同学到学院层面上进行二次答辩。
Thesis Defense: The defense shall be held before the end of 5th semester by the discipline. Those who ranks in the last 15% shall attend the second defense organized by school.
详见一览表:See the list for details
全日制国际硕士生Full-time International Academic Master Program | |
资格考试Qualification Examination | — |
开题报告Thesis Proposal | √ |
年度报告Annual Report | √ |
预答辩Pre-defense | — |
答辩Defense | √ |
实践实习环节Engineering Practice | — |
六、学术成果要求 Requirement on Academic Requirement
无
None
七、学位论文 Thesis/dissertation
1、学位论文的基本要求Basic Requirements
硕士学位论文,要求对所研究的课题有新见解或新成果,并对本学科发展或经济建设、社会进步有一定意义,表明作者掌握坚实的基础理论和系统的学科知识,具有从事学术研究或担负专门技术工作的能力。
The master students should choose topics related to the frontier field of the discipline or that of great significance to the progress of science and technology or economic and social development as their dissertation theme. The doctoral dissertation should demonstrate that the author is capable of undertaking scientific research independently and has a good grasp of the basic theories as well as a systematic and in-depth knowledge of the field of study.
学位论文必须是一篇系统的、完整的学术论文,是学位申请者本人在导师的指导下独立完成的研究成果,论文不得抄袭和剽窃他人成果。学位论文的学术观点必须明确,且立论正确,推理严谨,数据可靠,层次分明,文字通畅。
A graduate dissertation shall be a systematic and complete academic paper, and should be completed by the applicant under the instruction of his/her supervisor. No cheating or plagiarizing is allowed. The graduate theses shall demonstrate clear academic insights, with accurate arguments, rigorous reasonings, reliable statistics, well-organized structures and fluent expressions.
2、学位论文的撰写要求Format for Thesis
学位论文应使用中文或英文撰写,硕士学位论文字数一般为4~5万。学位论文中使用的术语、符号、代号必须全文统一并符合规范化要求。计量单位一律采用国务院发布的《中华人民共和国法定计量单位》。学位论文一般包括以下12部分,依次为封面、题名页、扉页、摘要、目录、符号说明(非必须)、正文、参考文献、注释(非必须)、附录(非必须)、致谢、学术论文和科研成果目录。
The thesis should be written in Chinese. The terms, symbols and codes used in the dissertation must be unified and conform to the requirements of standardization. All units of measurement shall adopt the "Statutory Unit of the People's Republic of China" promulgated by the State Council. The dissertation generally consists of the following 12 parts: cover, title page, flyleaf, abstracts, contents, List of Symbols (if necessary), main body, reference, annotation (if necessary), appendix (if necessary), acknowledgements, List of Publications and achievements.