Training requirements: Students in this major mainly study the basic theory of nuclear engineering, nuclear technology and related majors, receive practical training in nuclear engineering and nuclear technology, and have the ability to carry out research, experiment, design, construction, operation and management related to nuclear engineering and nuclear technology.
Graduates should have the following knowledge and abilities:
1. Have a solid foundation in natural science, good ability in humanities and social sciences, artistic accomplishment and comprehensive use of foreign languages;
2. Systematically master the extensive technical and theoretical basic knowledge of this major, and understand the development status, trends and needs of this major;
3. Understand the laws, regulations, standards and guidelines in this field, and have good engineering professional ethics and professionalism;
4. Through systematic professional experiments and practical training, I initially have the ability to solve practical engineering problems.
Main subjects: nuclear science and technology, physics, power engineering, engineering thermophysics.
Core knowledge fields: nuclear physics, nuclear reactor physics, thermal hydraulics of nuclear reactor, nuclear power plant system and operation, radiation detection and nuclear information processing, nuclear electronics, radiation protection and nuclear safety.
Main practical teaching links: metalworking practice, electrician practice, electronic practice, professional understanding practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. Summer term is usually arranged.
Main professional experiments: nuclear physics experiment, radiation detection experiment, reactor thermal hydraulics experiment, control and measuring instrument experiment, etc.
Length of study: four years.
Degree awarded: Bachelor of Engineering. Nuclear Engineering 082202 Radiation Protection and Nuclear Safety
Training objectives: This major cultivates scientific and technological talents with solid basic knowledge of natural science, good humanistic knowledge and cultural quality, who can engage in the research, design, development, production and management of radiation protection and nuclear safety in nuclear engineering, nuclear technology and application, nuclear medicine and other fields, and have innovative consciousness.
Training requirements: Students in this major mainly study the basic knowledge of nuclear physics and experimental methods, nuclear engineering and technology, radiation protection and nuclear safety, receive professional training in nuclear engineering, nuclear technology application, radiation protection and nuclear safety, and have the ability of research, design and application development of radiation protection and nuclear safety.
Graduates should have the following knowledge and abilities:
1. Have a solid foundation in natural science, good ability in humanities and social sciences, artistic accomplishment and comprehensive use of foreign languages;
2. Systematically master the extensive technical and theoretical basic knowledge of this major, and understand the development status, trends and needs of this major;
3. Understand the laws, regulations, standards and guidelines in this field, and have good engineering professional ethics and professionalism;
4. Through systematic professional experiments and practical training, I initially have the ability to solve practical engineering problems.
Main subjects: nuclear science and technology, physics.
Core knowledge areas: nuclear physics, nuclear radiation detection, radiation protection and nuclear safety, nuclear engineering principles, nuclear technology applications, and nuclear information acquisition and processing.
Main practical teaching links: metalworking practice, electrician practice, electronic practice, professional understanding practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. Summer term is usually arranged.
Main professional experiments: nuclear physics experiment, radiation detection and measurement experiment, radiation dosimetry experiment.
Length of study: four years.
Degree awarded: Bachelor of Engineering.
Nuclear Engineering 082203 Engineering Physics
Training objectives: This major trains innovative engineering and scientific talents with basic knowledge of radiation physics, accelerator physics, radiation detection, nuclear signal processing, particle information analysis and nuclear technology application, and can engage in the research, design, development, application and management of radiation analysis application technology in various related fields.
Training requirements: Students in this major mainly study the basic theories of nuclear physics, accelerator physics, radiation detection, nuclear electronics, signal processing, digital technology, radiation protection and nuclear technology application, receive practical training in nuclear technology application, and master the basic abilities of radiation dose, nuclear analysis, experimental research, design and development and application management of nuclear technology.
Graduates should have the following knowledge and abilities:
1. Have a solid foundation in natural science, good ability in humanities and social sciences, artistic accomplishment and comprehensive use of foreign languages;
2. Systematically master the extensive technical and theoretical basic knowledge of this major, and understand the development status, trends and needs of this major;
3. Understand the laws, regulations, standards and guidelines in this field, and have good engineering professional ethics and professionalism;
4. Through systematic professional experiments and practical training, I have mastered the ability of engineering technology analysis, application system development and computer application, and initially have the ability to solve practical engineering problems.
Main subjects: nuclear science and technology, physics, instrument science and technology.
Core knowledge fields: nuclear physics, quantum mechanics, statistical mechanics, accelerator physics, radiation detection, nuclear electronics, signal processing, particle information acquisition and processing, radiation protection.
Main practical teaching links: metalworking practice, electrician practice, electronic practice, professional understanding practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. Summer term is usually arranged.
Main professional experiments: nuclear physics experiment, radiation detection experiment, nuclear electronics experiment, nuclear data acquisition and processing experiment, radiation protection experiment, etc.