Nuclear engineering is the use of nuclear energy and applications of isotope and Prevention and the safety of reactors. This is to examine the material in this area, including: Nuclear Power Engineering and Economics Systems and the conversion between energy and technology and the theory of radioactive reactors and control and reactor design and measurements of nuclear fuel and nuclear engineering and nuclear explosions, physics (applied).
Goals
• Preparation of qualified engineers to work efficiently in the areas of production and uses of radioactive isotopes and radiation protection and the areas of energy engineering and nuclear reactors, through the provision of educational programs directed at the stages of undergraduate and graduate studies.
• Preparation of research and studies, and advice to community service in the areas of nuclear engineering.
• To provide training courses in radiation protection and other areas of nuclear engineering.
• Monitoring developments in the fields of energy, applications of radioisotopes and radiation protection and to contribute to spreading the culture of nuclear engineering and sciences localization
Career opportunities
Nuclear engineer is set in the places where the radiation is used, where the need for radiation safety. Can graduate to work as well as in centers that deal with environmental affairs, power plants and studies related to energy. In the medical field that uses the knowledge of the radiation is linked to the diagnosis, radiotherapy and the quality of the X-ray machines and radiation protection in general. In the industry it can work in non-destructive testing, and analysis by using the methods of radiation monitors the quality of equipment and materials, and measuring devices, as well as radiation safety related to them. May include the workplace, for example: hospitals, Ministry of Health, petrochemical, desalination plants, Ministry of Commerce, Ministry of Defense and Aviation and other
Nuclear Engineering courses Aldrasepksm:
The basics of accounts in Nuclear Engineering
Principles of atomic and nuclear engineers
Established nuclear engineering
Energy and Environment
Introduction to Nuclear Engineering
Basics Radiobiology
Analysis of nuclear reactor
Heat transfer nuclear
Nuclear Materials
Measurements of nuclear radiation
Basics Non-Ionizing Radiation
Radiation Protection (1)
Applications of radioactive isotopes (1)
Cooperative Programme of Action
Computational Methods in Nuclear Engineering
Dynamic thermal reactor
Diversion of nuclear energy
Planning for nuclear power projects
Safety in a nuclear reactor
Engineering and technical thermonuclear fusion
Nuclear power station
Design of nuclear reactor
Nuclear power plant equipment and control
Electronics Nuclear Measurements
Design of radiation shields
Radiation Protection (2)
IT Hardware radioactive
Diagnostic radiation
Radioactivity in the environment
The foundations of MRI and ultrasound in the diagnosis
Applied Radiation Protection
Applications of radioactive isotopes (2)
X-ray satellite
Nuclear technology in non-destructive testing
Analysis techniques, radiation
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