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Bachelor Thesis Completion
Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.05.O.151
Credits: 9.00
Department: Electromechatronics and Computerized Electromechanical Systems
Semester: 8 семестр
Mode of study: денна
Bachelor Thesis Completion
Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.04.O.136
Credits: 9.00
Department: Electromechatronics and Computerized Electromechanical Systems
Semester: 8 семестр
Mode of study: денна
Bachelor Thesis Completion
Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.01.O.091
Credits: 9.00
Department: Electric Power Engineering and Control Systems
Lecturer: supervisors of qualifying study for Bachelor's Degree
Semester: 8 семестр
Mode of study: денна
Learning outcomes: • ability to carry out the collection, analysis, processing, systematization of scientific and technical information, to generalize domestic and foreign experience in the development of electrical power plant subsystem using modern hardware and software;
• ability to solve the problems of designing the block diagrams of a power plant using mathematical methods and information technologies at a computerized workstation;
• ability to use modern application software for solving project tasks;
• ability to analyze the resulting design solutions;
• ability of a feasibility study on the choice of the optimal variant of the project solution.
Required prior and related subjects: • All disciplines of the bachelor's level curriculum
Summary of the subject: selection of power plant generators; drawing up technically possible variants of the power plant block diagram; research of operation modes of the power plant block diagram components; selection of unit transformers and coupling autotransformers, testing them for load capacity; selection of options for connecting the power plant to electric power systems; selection of the optimal variant of the power plant block diagram by the method of summary costs; calculation of short circuit currents; selection of switching equipment, conductive parts, measuring transformers
Assessment methods and criteria: • final control (control measure - qualifying study for Bachelor's Degree): written form (100%).
Recommended books: 1. Васильев В.А., Крючков И.П., Наяшкова Е.Ф., Околович М.Н. Электрическая часть станций и подстанций.-М: Энергоатомиздат, 1990.-576 с.
2. Усов С.В. Электрическая часть электростанций.-Л:Энергоатомиздат, 1987.- 616 с.
3. Рожкова Л.Д.,Козулин В.С. Электрооборудование станций и подстанций.-М: Энергоатомиздат, 1987.- 648 с.
4. Сегеда М.С. Електричні мережі та системи: Підручник. – 3-тє вид. - Львів: Видавництво Львівської політехніки, 2015. - 540 с.
5. Кириленко О.В., Сегеда М.С., Буткевич О.Ф, Мазур Т.А. Математичне моделювання в електроенергетиці. Підручник. – 2-ге вид. - - Львів: Видавництво Львівської політехніки, 2013. - 608 с.
6. Проектування структурних схем електростанцій та підстанцій: навч. посіб. / М.С. Сегеда, В.Г. Гапанович, В.П. Олійник, К.Б. Покровський. – Львів: Видавництво Львівської політехніки, 2010, - 144 с.
7. Гук Ю.Б., Кантан В.В., Петрова С.С. Проектирование электрической части электростанций и подстанций. Ленинград, 1985.
8. Баков Ю.В. Проектирование электрической части электростанций с применением ЭВМ. Москва, Энергоатомиздат, 1991.
Bachelor Thesis Completion
Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.02.O.106
Credits: 9.00
Department: Electric Power Engineering and Control Systems
Lecturer: supervisor of qualifying study for Bachelor's Degree
Semester: 8 семестр
Mode of study: денна
Learning outcomes: • ability to collect, analyze, process, systematize scientific and technical information, summarize domestic and foreign experience in the development of electrical networks, study their modes, design of substations of electrical networks using standard and reference materials, modern software;
• the ability to solve the problems of designing schemes for the development of electrical networks, substations of electrical networks using modern methods, techniques and principles and information technologies in a computerized workplace;
• ability to use state-of-the-art application software to solve design problems, study power grid modes, calculate short-circuit currents;
• ability to analyze the design decisions received;
• the ability to perform a feasibility study for choosing the best design solution.
Required prior and related subjects: • All disciplines of the bachelor's level curriculum
Summary of the subject: Formation of possible schemes for the development of the electric grid. Choice of overhead lines and substation connection schemes. Feasibility study of optimal network development scheme. Selection of substation transformers. Development of the main scheme of electrical connections of the substation. Design currents calculation. Choice of power electrical equipment of the designed substation. Development of safety measures. Conclusions. Graphic part of the work.
Assessment methods and criteria: • final control (control measure - qualifying study for Bachelor's Degree): written form (100%).
Recommended books: 1. Сегеда М.С. Електричні мережі та системи: Підручник. – 3-тє вид. - Львів: Видавництво Львівської політехніки, 2015. - 540 с.
2. Проектування підстанцій електричних мереж: навч. посібник / З.М.Бахор, А.В. Журахівський. – Львів: Видавництво Львівської політехніки, 2017. – 238 с..
3. Правила улаштування електроустановок. - Видання офіційне. Міненерговугілля України. - X. : Видавництво «Форт», 2017. - 760 с.
4. Норми технологічного проектування підстанцій змінного струму з вищою напругою 6-750 кВ. – К.: Міненерго України, 1994. – 137 с.
5. СОУ-Н ЕЕ 40.1-00100227-101:2014 Норми технологічного проектування енергетичних систем і електричних мереж 35 кВ і вище. – Київ.- 2014.
Bachelor Thesis Completion
Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.03.O.121
Credits: 9.00
Department: Electric Power Engineering and Control Systems
Lecturer: supervisors of qualifying study for Bachelor's Degree
Semester: 8 семестр
Mode of study: денна
Learning outcomes: • ability to carry out the collection, analysis, processing, systematization of scientific and technical information, to generalize domestic and foreign experience in the development of electrical power plant subsystem using modern hardware and software;
• ability to solve the problems of designing the block diagrams of a power plant using mathematical methods and information technologies at a computerized workstation;
• ability to use modern application software for solving project tasks;
• ability to analyze the resulting design solutions;
• ability of a feasibility study on the choice of the optimal variant of the project solution.
Required prior and related subjects: • All disciplines of the bachelor's level curriculum
Summary of the subject: selection of power supply system; drawing up technically possible variants of power supply system; research of operation modes of the power supply system; selection of power transformers , testing them for load capacity; selection of options for connecting MSDS to electric power systems; selection of the optimal variant of the power plant block diagram by the method of summary costs; calculation of short circuit currents; selection of switching equipment, conductive parts, measuring transformers
Assessment methods and criteria: • final control (control measure - qualifying study for Bachelor's Degree): written form (100%).
Recommended books: 1.Design of electric power distribution systems/P. F. Goholyuk, T. M. Hrechyn, A. A. Malinowskyi, O. M. Sikakova, Ye. I. Fediv, B. K. Khokhulin. – Lviv: The publishing House of Lviv Polytechnic, 2018. – 436 p. (in Ukrainian).
2.Gogolyuk P.F., Hrechyn T.M. Designing of electric power distribution systems of general purpose. – Lviv, The publishing house of Lviv Polytechnic, 2005.–60 p. (in Ukrainian).
3.Rudnytskyi V.H. Internal electric plant power supply. – K.: Education in Ukraine, 2013.– 288 p. (in Ukrainian).
4.Bondarchuk A.S. Rudnytskyi V.H. Internal submain of electric power supply. – K.: Education in Ukraine, 2012.– 372 p. (in Ukrainian).