Relay protection of local systems
Description: The discipline studies the fundamental principles of operation and design of relay protection and automation systems that ensure safe and reliable operation of the electrical power system of a nuclear power plant in emergency and non-emergency situations. Particular attention is paid to modern methods of designing relay protection and automation devices, taking into account the requirements for circuit design and design features, as well as the calculation of settings of protective elements. The questions of installation, adjustment and operation of these systems within the framework of local power systems of NPPs are considered, taking into account the specifics of nuclear power engineering. As a result of studying the discipline, students acquire theoretical knowledge and practical skills necessary for the development, adjustment and maintenance of relay protection and automation systems at nuclear power plants, which contributes to ensuring a high level of safety and reliability of power plants.
Amount of credits: 5
Course Workload:
| Types of classes | hours |
|---|---|
| Lectures | 30 |
| Practical works | 30 |
| Laboratory works | |
| SAWTG (Student Autonomous Work under Teacher Guidance) | 15 |
| SAW (Student autonomous work) | 75 |
| Course Project | |
| Form of final control | Exam |
| Final assessment method |
Component: Component by selection
Cycle: Base disciplines
Goal
- Formation of knowledge about the principles of organization and technical implementation of relay protection and automation of local electric power systems
Objective
- Mastery of the basic principles of protection, both of individual elements and of the system as a whole, as well as the basic provisions for calculating relay protection systems for local systems
Learning outcome: knowledge and understanding
- Know the basic principles of relay protection, the features of their use to protect individual elements of local systems
Learning outcome: applying knowledge and understanding
- Be able to calculate and design relay protection for local systems
Learning outcome: formation of judgments
- Possess skills in programming relay protection systems and an understanding of the need for a systemic solution to technical and environmental problems
Key reading
- 1. Правила устройств электроустановок.-2012 2. Федосеев А.М. Релейная защита электрических систем. - М.: Энергия, 2011. – 520 с. 3. Федосеев А.М. Основы релейной защиты. - М.: Госэнергоиздат, 2001 – 423 с. 4. Авербух А.М.. Релейная защита в задачах с решениями и примерами.- 2008– 400 с. 5. Руководящие указания по релейной защите.- М.:1967. – 36 с. 6. Шабад М.А. . Расчеты релейной защиты. -М.: Энергия, 2001. – 243 с. 7. Беркович М.А., Семенов В.А. Основы техники и эксплуатации релейной защиты. - М.: Энергия, 2002 – 305 с.
