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Design and systems of nuclear power installations

11

Вибіркова дисципліна для ОП

Second

2021/2022

8 Semester

3

1.1 Know the physical basis of operation of nuclear power plants, typical design solutions on the example of nuclear power plant WWER-1000, as well as understand the features of the equipment to ensure the operation of nuclear power plants. 2.1 Be able to conduct estimates of the values ​​justifying the operation of a nuclear power plant, to analyze the physical processes that occur during the operation of nuclear power plants, as well as to propose physical implementations of individual design solutions of nuclear power plants.

Full-time form

1. Successful mastering of general courses "Probability Theory", "Differential Equations", "Nuclear Physics" and the following special courses: "Introduction to Nuclear Engineering", "Dosimetry", "Nuclear-physical aspects of nuclear reactors and thermonuclear reactors". 2. Be able to evaluate the basic physical processes in neutron physics, nuclear physics, molecular physics, as well as solve problems in general mathematics courses, as well as physics courses and special courses. 3. Have the skills to work on a computer for information retrieval on the Internet, as well as numerical solutions to mathematical problems.

The course "Design and systems of nuclear power plants" will significantly improve the training of students of the Department of Nuclear Physics, which is associated with the acquisition of new skills by students for a deep understanding of nuclear physics and thermohydraulic processes occurring during the operation of a nuclear power unit. energy in energy, medicine, applied and basic research.

1.SV Shirokov “Nuclear power reactors”. K., 1997.-284 p. 2.SV Shirokov “Non-stationary processes in nuclear reactors”. K., 2002.-286 p. 3.A.N.Klimov. Nuclear physics and nuclear reactors. 1985. - 344 p.; 4.A.M. Afrov, S.A. Andrushechko, V.F. Ukraintsev and others - VVER-1000: physical foundations of operation, nuclear fuel, safety: Universitetskaya kniga, Logos, 2006.-488 p.; 5..R. A. Knief. Nuclear Engineering: Theory and Technology of Commercial Nuclear Power. Taylor&Francis, 1992, 772 p. 6.J.K. Shultis, R.E.Faw. Fundamentals of Nuclear Scienec and Engineering. Marcel Dekker, Inc., 2002, 518 p.

Lecture demonstration; conducting laboratory work; individual work; consultations.

- semester assessment: 1. Survey during lectures (maximum - 50 points). 2. Tests (maximum - 50 points). 3. Final assessment in the form of a test (maximum - 40 points).

Ukrainian