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Specialized courses of nuclear engineering
① Questions and answers from candidates of Sino-French College of Nuclear Engineering and Technology, Sun Yat-sen University

Q: Can students apply for the Sino-French Institute of Nuclear Engineering and Technology without a basic knowledge of French?

Yes Students do not need to have basic knowledge of French when they enter school. The college will carry out intensive French teaching in the first year of students' enrollment, and will always arrange French courses in the following semesters to ensure that students can complete their studies well.

Q: Is it necessary to look at English scores when enrolling students? Is there a single English subject score?

English scores are an important indicator of admission scores. Under the same circumstances, our college will give priority to students with good English scores, but will not set points for English subjects.

Q: What is the curriculum arrangement of the Sino-French Institute of Nuclear Engineering and Technology?

All the courses in the college will be completed within six academic years.

They are three-year elite school preparatory stage and three-year engineer education stage.

The preparatory stage of elite schools mainly draws lessons from the curriculum of French engineers and preparatory classes of elite science schools, including French, advanced mathematics, general physics and experiment, general chemistry and experiment, electronic technology and experiment, computer, social and management science and foreign languages.

. In the course teaching, special attention will be paid to cultivating students' ability to acquire knowledge, analyze and solve problems.

The stage of engineer education is divided into two directions: nuclear engineering and nuclear power plant operation, nuclear materials and fuel cycle. The curriculum mainly includes basic professional courses such as quantum physics, fluid mechanics, materials chemistry, nuclear physics and neutron physics, nuclear safety and protection, reactor and nuclear material circulation, nuclear power plant management, and corresponding professional courses in two directions. Professional courses will be based on the training mode of French engineers, with industry development as the core and integrated into teaching arrangements, and will be taught by relevant teachers from France and industry experts from relevant enterprises in China and France. Students will practice in relevant scientific research institutions or enterprises in China and France.

Most basic and specialized courses will be taught in French and English. To this end, the college will offer intensive French teaching, especially in the first year, foreign teachers will mainly teach in small classes, so that students can adapt to the follow-up courses and skillfully use French and English to do related work when they graduate.

Q: What kind of diplomas can the graduates of China-France Institute of Nuclear Engineering and Technology get?

At the end of the fourth year, students will complete all the courses stipulated in the first-year teaching plan of the three-year prestigious school preparatory stage and engineer education stage, obtain the credits required for undergraduate graduation, and complete the undergraduate graduation thesis to obtain the undergraduate graduation certificate of Sun Yat-sen University; Students who meet the relevant provisions of the national bachelor's degree regulations can obtain a bachelor's degree certificate in engineering. Students who have achieved excellent academic performance and passed relevant examinations can obtain the qualification of studying for a master's degree without examination and enter the stage of engineer education for further study.

At the end of the sixth academic year, students can complete all required courses and obtain the required credits, and complete the internship and graduation thesis specified in the teaching plan, so as to obtain the master's diploma of Sun Yat-sen University; Students who meet the relevant provisions of the national master's degree regulations can obtain a master's degree certificate and a French-recognized "certificate of nuclear engineer of China-France Institute of Nuclear Engineering and Technology".

Q: Do students from China-France Institute of Nuclear Engineering and Technology have to pay higher tuition fees?

No, this major implements the national unified charging standard for ordinary colleges and universities formulated by the Ministry of Education. Student tuition is the same as the average standard of the school, and no extra tuition is charged. The charging standard for the first four years is 5 160 yuan/year. The latter two years are charged according to the standard of professional degree.

Q: What kind of textbooks do students use?

There are three types of textbooks used by students:

The first category: French course textbooks and some professional course textbooks will use the original French learning textbooks (the corresponding textbooks will be more expensive).

The second category: textbooks for public courses (including compulsory courses and elective courses) will be uniformly selected by the school.

The third category: the teaching materials of some professional courses will use the handouts prepared by the teachers.

Q: What are the employment prospects of this major?

Graduates of this major have high-quality scientific research ability and technology development ability, and strong adaptability. Become an international high-end professional engaged in scientific research, teaching, engineering technology and technical management in the fields of nuclear energy engineering construction and management, environmental safety management and nuclear power plant operation. After graduation, students are mainly engaged in research, design, construction, operation and management for large nuclear power enterprises at home and abroad (such as French EDF Group and China Guangdong Nuclear Power Group) and nuclear technology application related units (such as radiation medicine and environmental safety).

Q: Does this major have any safety problems when working in nuclear power-related enterprises?

Nuclear energy is an efficient, clean and safe energy source. All nuclear power-related enterprises have strict safety guarantee system and radiation protection measures, and relevant operation and maintenance personnel need to undergo strict professional training before taking up their posts. Statistics show that working in a nuclear power plant for one year is equivalent to taking an X-ray. Therefore, it is very safe to work in nuclear power-related enterprises.

References:

Introduction of French engineer education system

The French engineer education system was founded by Napoleon, mainly to overcome the shortcomings of the traditional theory and practice of students trained by national universities. After more than 200 years of accumulation, it has formed its own distinctive characteristics in the world. The academic system of French engineers is five years, which is equivalent to the master's degree of western countries (the United States, Britain and Canada). After graduation, you can get the French engineer certificate. French society has a sense of identity close to worship for engineer certificates, and the employment rate and social status of graduates from engineering colleges are very high.

French engineer education is divided into two stages:

The first stage is the engineer preparation stage, which lasts for two years and accepts high school graduates. It belongs to the basic course stage and focuses on the basic knowledge education in universities. The engineer preparatory class is a higher education system specially serving the education of French engineers. It is mainly located in high schools selected by the Ministry of Education, and is taught by teachers specially selected by the Ministry of Education. (Some universities offer preparatory courses for engineers, and a few engineering colleges have their own preparatory courses with a five-year academic system. ).

The second stage lasts for three years and belongs to the professional learning stage. At this stage, only students over the second year of college and students in pre-engineering classes who have undergone strict selection are accepted. In the first and second years of the second stage, students are required to practice in the enterprise for 3 to 4 months, and in the third year, they are required to practice for half a year, which is very technical and allows students to assume the responsibility of engineers immediately after graduation.

The French engineer education system has the following characteristics:

1. Strict admission and selection system. Engineers trained in the traditional mode, especially those trained in universities with a long history, must undergo strict selection and examination.

2. The combination of imparting knowledge and cultivating ability. French engineer education emphasizes the development of students' thinking ability and requires students to have the ability to analyze, abstract and grasp concepts. For example, the quizzes in the preparatory course are all questions that students have never seen before, and they are all very complicated new questions. The purpose of this educational method is to cultivate students' innovative ability and the ability to start solving new problems. In today's shrinking technological living space, this educational concept is particularly important.

3. Pay attention to the research of humanities and management science. Engineers should not only have solid scientific and technological knowledge, but also have agile reasoning ability. They often undertake management work in enterprises. Therefore, the training of engineers must include management knowledge: macro/micro economics, finance, organization and management, etc. In addition, they have to learn how to think from the perspective of philosophy and anthropology, so that they can deeply understand what responsibility is and what decision is. Because engineers will play the role of "decision makers" in enterprise projects. They must analyze and predict what impact their decisions will bring to enterprises, employees, the environment and society, and they must know how to take responsibility.

4. Close integration with enterprises. Most French engineers work in industry or service industry, that is, in enterprises. In order to make students better adapt to their future careers, enterprises appear in all dimensions of engineer education: First, enterprises directly participate in engineer education. Secondly, enterprises accept student internships. Thirdly, enterprises participate in school committees, and school management is mainly undertaken by three committees: administrative Committee, academic Committee and research Committee, all of which have enterprise representatives.

Combining the characteristics of French engineer training mode, such as strict selection system, small teaching scale and close cooperation with the economic field, and combining with the traditional teaching mode of China University, it will become the experimental window of high-tech talent training mode and bring new ideas and enlightenment to the development of engineer education in China.

② What about the major of nuclear engineering and technology in Chengdu University of Technology? ! The seniors who want to know say it! ! !

Our school is famous for its ace specialty. In other words, our school is quite famous among the three universities in Sichuan, not only because of the professional engineering colleges and the only public independent college in the province, but also because the former life of our school was the famous Southwest Institute of Nuclear Physics! Most of the remaining teachers are experts in nuclear research, so it is no exaggeration to say that nuclear engineering and technology are the trump cards of our school. And at present, new energy is an indispensable development direction for big countries, and the nuclear energy sector has great potential! Among many universities in China, there are only a handful of universities with this major, and the three are absolutely unique! So the nuclear workers in our school are very domineering, leakage! ! ! Welcome to apply! If you are worried about the course, there is absolutely no need ~ the course can't be simple. Anyway, it is much easier than high school knowledge. At least you don't have to paint and explore like civil engineering. +_+Thanks for consulting ~ Welcome, senior *^O^*

③ The curriculum of nuclear engineering and technology specialty in Sun Yat-sen University.

You can go to the website of CUHK China-France Institute of Nuclear Engineering to find courses (usually in some education notices) to introduce them. Because this major is very new, it seems that there are no graduates yet, so I can only find courses in recent years. . . .

④ What is the major of nuclear engineering and technology?

Nuclear engineering and technology

Business development goals:

Business training objectives: This major trains senior engineering and technical personnel with basic knowledge of engineering thermophysics and nuclear engineering technology, who can engage in research, design, manufacture, operation, application and management in various related fields of nuclear engineering and nuclear technology.

Business training requirements: Students in this major mainly study the basic theory of engineering thermophysics, nuclear engineering and nuclear technology, receive practical training in nuclear engineering and nuclear technology, and have the basic ability to engage in experimental research, design, construction and operation management of nuclear engineering and nuclear technology.

Graduates should have the following knowledge and abilities:

1. Have a solid foundation in natural science, good foundation in humanities, arts and social sciences, and be able to use the spoken and written languages of their own nationalities correctly;

2. Systematically master the extensive basic knowledge of technical theory in this field, mainly including the basic knowledge of engineering mechanics, electrotechnics, mechanics, engineering thermophysics, fluid mechanics, nuclear technology and nuclear engineering;

3. Get practical training in nuclear technology and engineering, and have strong computer and foreign language application ability;

4. Have strong self-study ability, innovative consciousness and high comprehensive quality.

Main course:

Main subjects: power engineering and engineering thermophysics, nuclear science and technology.

Main courses: engineering mechanics, basic mechanical design, electrical and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory, testing technology, nuclear physics, nuclear reactors, nuclear and thermal power plants, and thermal equipment.

Main practical teaching links: including military training, metalworking, electrician, electronic practice, cognitive practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. , generally should be arranged for more than 40 weeks.

Study time: four years

Degree awarded: Bachelor of Engineering

Similar majors: nuclear engineering and technology, energy power system and automation engineering, physical energy and environmental system engineering.

⑤ What courses are nuclear engineering and nuclear technology?

artificial circuit

digital circuit

Advanced mathematics

Basic subjects, such as

atomic physics

Nuclear physics

Nuclear power plant system

nuclear electronics

Nuclear radiation detection

Ionizing radiation dose and radiation protection

⑥ What courses should be taken in the postgraduate entrance examination of nuclear engineering and nuclear technology?

Xi jiaotong university nuclear energy and nuclear technology engineering (professional degree) major 20 15 enrollment exam enrollment brochure enrollment directory

⑦ What about the future employment of nuclear engineering and nuclear technology majors?

Nuclear engineering and technology

Business development goals:

Business training objectives: This major trains senior engineering and technical personnel with basic knowledge of engineering thermophysics and nuclear engineering technology, who can engage in research, design, manufacture, operation, application and management in various related fields of nuclear engineering and nuclear technology.

Business training requirements: Students in this major mainly study the basic theory of engineering thermophysics, nuclear engineering and nuclear technology, receive practical training in nuclear engineering and nuclear technology, and have the basic ability to engage in experimental research, design, construction and operation management of nuclear engineering and nuclear technology.

Graduates should have the following knowledge and abilities:

1. Have a solid foundation in natural science, good foundation in humanities, arts and social sciences, and be able to use the spoken and written languages of their own nationalities correctly;

2. Systematically master the extensive basic knowledge of technical theory in this field, mainly including the basic knowledge of engineering mechanics, electrotechnics, mechanics, engineering thermophysics, fluid mechanics, nuclear technology and nuclear engineering;

3. Get practical training in nuclear technology and engineering, and have strong computer and foreign language application ability;

4. Have strong self-study ability, innovative consciousness and high comprehensive quality.

Main course:

Main subjects: power engineering and engineering thermophysics, nuclear science and technology.

Main courses: engineering mechanics, basic mechanical design, electrical and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory, testing technology, nuclear physics, nuclear reactors, nuclear and thermal power plants, and thermal equipment.

Main practical teaching links: including military training, metalworking, electrician, electronic practice, cognitive practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. , generally should be arranged for more than 40 weeks.

Study time: four years

Degree awarded: Bachelor of Engineering

Similar majors: nuclear engineering and technology, energy power system and automation engineering, physical energy and environmental system engineering.

What's the difference between nuclear physics and nuclear engineering, an engineering major and a science major?

Nuclear engineering and nuclear technology trains advanced engineering and technical personnel with basic knowledge of engineering thermophysics and nuclear engineering technology, who can engage in the research, design, manufacture, operation, application and management of nuclear engineering and nuclear technology in various related fields.

Main professional courses offered: engineering thermodynamics, engineering fluid mechanics, heat transfer, nuclear physics, nuclear reactor physics, two-phase flow, nuclear power equipment, nuclear power plant, nuclear steam turbine, nuclear power plant control, nuclear engineering detection technology, etc.

Nuclear physics technology trains professionals who can adapt to the development of China's national economy and national defense nuclear science and technology industry and engage in the research, design, production, application and management of nuclear technology and related professional fields.

Main courses offered: nuclear physics, quantum mechanics, nuclear reactor physics, electromagnetism, radiation detection, nuclear electronics, nuclear technology application, nuclear data collection and processing, accelerator principle, radiation protection, radiation dose and protection, radiation measurement and instrument, nuclear safety and nuclear enterprise culture, etc.

As can be seen from the name, the major of nuclear physics is obviously more detailed than that of nuclear engineering and technology, with the emphasis on nuclear physics and deeper courses, while the major of nuclear technology and engineering is wider (relatively speaking), with more things to learn and wider employment. My understanding is for reference only.

Pet-name ruby nuclear energy and nuclear technology engineering need to learn what professional courses?

Nuclear energy and nuclear technology engineering mainly study the following professional courses! !

I. Application direction

Nuclear energy engineering, nuclear technology engineering, reliability engineering, management engineering, separation engineering, material chemistry.

Two. Main training units

Department of engineering physics Institute of Nuclear Energy

Three. Course and credit requirements

The total course credit is not less than 23 (including the test credit is not less than 2 1), and the total number of courses is 10- 12.

1. degree course

1) dialectics of nature (606 100 12) 2 credits (examination)

2) Master of Engineering English (First Foreign Language) (60648003) 3 credits (examination)

3) Master of Engineering Mathematics (one course, 4 credits)

Numerical Analysis C (60420054) 4 credits (exam)

Advanced Operations Research (705 10053) 3 credits (examination)

Linear and nonlinear programming (60420034) 4 credits (exam)

Or other graduate courses in mathematics.

4) Professional and professional basic courses (not less than 4 courses, each with 2-3 credits) are listed in different directions, and students can cross-select courses as needed.

Direction of nuclear energy engineering:

Introduction to nuclear reactors (71010013) 3 credits (examination)

Nuclear reactor engineering and safety (7 10 10023) 3 credits (examination)

Energy and resource management (71010113) 3 credits (examination)

Design, Construction and Operation of Nuclear Power Plant (7 10 10033) 3 credits (examination)

Radiation dosimetry (7 10 10072) 2 credits (examination)

Applied Structural Mechanics of Nuclear Power Plant (7 10 10063) 3 credits (examination)

Automatic control principle (60250043) 3 credits (exam)

Environmental risk analysis (70050 1 13) 3 credits (examination)

Energy and Environment (800500 13) 3 credits (examination)

Reliability engineering and risk assessment (71010133) 3 credits (examination)

Project Management (806 10762) 2 credits (examination)

Engineering data management and engineering database technology (8 10 10042) 2 credits (examination)

Engineering structure CAD/CAE technology (8 10 10032) 2 credits (examination)

Nuclear technology engineering direction:

Applied Nuclear Technology (7 10 10093) 3 credits (examination)

Latest progress of accelerator (80320023) 3 credits (exam)

Ionizing radiation detection (7 10 10032) 2 credits (examination)

Principles of Radiography (70320032) 2 credits (exam)

Nuclear Medical Imaging (70320062) 2 credits (examination)

Spectrum Analysis Technology (70320042) 2 credits (exam)

Digital Image Processing (70230043) 3 credits (exam)

Reliability direction:

Reliability engineering and risk assessment (71010133) 3 credits (examination)

Introduction to Quality Engineering (70 130 183) 2 credits (examination)

Automatic control principle (60250043) 3 credits (exam)

Environmental risk analysis (70050 1 13) 3 credits (examination)

Energy and Environment (800500 13) 3 credits (examination)

Project Management (806 10762) 2 credits (examination)

Engineering data management and engineering database technology (8 10 10042) 2 credits (examination)

Management engineering direction:

Financial Management (705 10033) 3 credits (examination)

Production and Operation Management (705 10023) 3 credits (examination)

Expert System and Decision Support System (705 10043) 3 credits (examination)

Theory and Application of Large-scale Systems (70250093) 3 credits (examination)

Decision Theory (705 10063) 3 credits (examination)

Energy and resource management (71010113) 3 credits (examination)

Decision and countermeasure model method (71010124) 4 credits (examination)

Engineering data management and engineering database technology (8 10 10042) 2 credits (examination)

Separation engineering direction:

Liquid-liquid extraction chemical engineering foundation (70340 122) 2 credits (examination)

Separation process (70340 142) 2 credits (examination)

Principles of Chemical Transfer Process (70340073) 3 credits (exam)

Chemistry Frontier Lecture (80340052) 2 credits (exam)

Technical and Economic Analysis of Chemical Engineering (80340072) 2 credits (examination)

Modern instrument analysis method and experiment (60440023) 3 credits (exam)

Separation Method Foundation and Technology (70440072) 2 credits (examination)

Industrial Process Speed Model and Optimization (80250042) 2 credits (exam)

Introduction to the Frontier of Analytical Science (80440252) 2 credits (exam)

Chemical orientation of materials:

Progress in Material Chemistry (71010102) 2 credits (examination)

Advanced Inorganic Chemistry (70440033) 3 credits (examination)

Advanced Organic Chemistry (70440023) 3 credits (exam)

Modern instrument analysis method and experiment (60440023) 3 credits (exam)

Materials Microstructure Analysis Method (70350073) 3 credits (exam)

Principles of Chemical Transfer Process (70340073) 3 credits (exam)

Fluid Statistical Thermodynamics (70340 1 12) 2 credits (examination)

Process Simulation Analysis and Optimization (70340083) 3 credits (exam)

2 interdisciplinary elective courses (not less than 2 courses in management and computer application, but also courses in other fields can be offered under the guidance of tutors)

Expert system (60240043) 3 credits (exam)

Computer and introduction to information systems (805 10293) 3 credits (exam)

Computer Control Theory and Application (70240043) 3 credits (exam)

Microcomputer system interface technology (60240063) 3 credits (exam)

Software Engineering Technology and Design (60240033) 3 credits (exam)

Human Factors Engineering (805 10233) 3 credits (examination)

System Engineering Foundation (805 10033) 3 credits (examination)

Engineering Economics (805 10482) 2 credits (examination)

English writing (60640 132) 2 credits (exam)

International Economic Law (805 10472) 2 credits (examination)

Financial Marketing (805 104 12) 2 credits (examination)

Quality Management (805 10023) 3 credits (examination)

Energy and Environmental Economics (8 10 10022) 2 credits (examination)

Enterprise energy management and energy saving (8 10 10062) 2 credits (examination)

3. Compulsory courses and links

Frontier course (elective 1 course): advanced power reactor (91010012) 2 credits (examination).

Advanced nuclear fuel (9 10 10023) 3 credits (examination)

Literature review and topic selection report (6999002 1) 1 credit (exam)

Interim report (69998000)

Participate in the undergraduate training plan and course of nuclear engineering and nuclear technology in Harbin Engineering University!

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