Methods of calculations of nuclear reactors
Course: Nuclear Power Engineering
Structural unit: Faculty of Physics
Title
Methods of calculations of nuclear reactors
Code
ОК21
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2018/2019
Semester/trimester when the component is delivered
4 Semester
Number of ECTS credits allocated
3
Learning outcomes
- Understand the principles of operation of nuclear reactors and nuclear power plants.
- Diffusion method for solving the equation of a nuclear reactor with a reflector.
- Know the equations of reactor kinetics and their asymptotic solution
- Know the areas of application of nuclear reactors, features of the fuel cycle of nuclear energy in reactors of different types and their advantages over others
sources of neutrons and energy
- The order of development of the scheme of physical calculation of the reactor
- Principles of homogenization of the design lattice
- Preparation of group constants, calculation of reactor parameters on thermal neutrons
Form of study
Full-time form
Prerequisites and co-requisites
1. Successful mastery of special courses: «Nuclear-physical aspects of nuclear fission and fusion reactors», «Nuclear safety of NPPs», «Basics of reactor physics», «Design and systems of nuclear power installations».
2. To be able to solve tasks from basic courses in Physics and some special courses.
3. To possess elementary skills of computer working to search for the information in Internet.
Course content
The educational course "Methods of calculations of nuclear reactors” allows to significantly enhancing a professional training of students of Department of Nuclear Physics, what is dealing with mastery by students of the following skills:
- to know main methods for calculations of nuclear reactors;
- to be capable of performing analytical and numerical calculations of simple reactor nuclear criticality tasks.
Recommended or required reading and other learning resources/tools
1. Fundamentals of the theory and methods for calculating nuclear power reactors. Bartolomey G.G. and others-1989. - 512 p.
2. Physics of nuclear reactors. S.V. Shirokov, 1998. - 288 p.
3. Physics of nuclear reactors: heading reference / Pavlovich V.M.; NAS of Ukraine, IPB AES.- Chornobil, 2009.-224 p.
4. Fundamentals of the theory of nuclear reactors. Glesston S., 1954
5. VVER-1000: physical foundations of operation, nuclear fuel, safety / A.M. Afrov, S.A. Andrushechko, V.F. Ukraintsev et al. - Х.: Universitetskaya kniga, Logos, 2006.-488 p.
Planned learning activities and teaching methods
Lecture demonstration; seminars; independent work; consultations.
Assessment methods and criteria
Knowledge evaluation is being carried out according to the modular-rating system.
The content module 1 includes 1 - 2, and the content module 2 includes topics 3 – 4. It is a mandatory requirement to pass successfully an exam is the development of problematic cases (summery) and a positive mark for each of the two modular control work. In case of a negative mark obtained for control module, a student is obliged to pass again a failed modular control work according to the procedure established. Under repeatable passing a modular control work or granted access to a modular control work based of permission from the deanery, a maximal value of a control modular rating mark is being lowered by one in comparison with above-mentioned.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Departments
The following departments are involved in teaching the above discipline