Fundamentals of Sustainable Energy Systems

Major: Electric Power Engineering, Electrotechnics and Electromechanics
Code of subject: 6.141.00.M.065
Credits: 6.00
Department: Electromechatronics and Computerized Electromechanical Systems
Lecturer: Dr Sc, Prof. Andriy Lozynskyy, Dr Sc, Prof. Ihor Shchur
Semester: 5 семестр
Mode of study: денна
Learning outcomes: • knowledge of the current state of affairs and the latest technologies in the field of renewable energy, • understanding the impact of new technical solutions for alternative energy in the social, economic, social and environmental context, • apply knowledge of technical characteristics, design features, purpose and rules of operation of equipment and facilities to solve technical problems of modern energy.
Required prior and related subjects: • Physics, basics of programming and software for engineering calculations, industrial electronics and conversion technology. • Mathematical modeling of electrical systems and their elements, automated process control systems.
Summary of the subject: The discipline "Fundamentals of Energy of Sustainable Development Systems" is to get acquainted with the main renewable energy sources (solar, wind, hydro and bioenergy), technologies for generating electricity and heat from them, as well as means of energy storage. The principles of operation, existing structures, features of implementation, as well as their economic attractiveness are considered. Particular attention is paid to energy audits, as well as technical and economic indicators of modern energy, which will ensure sustainable development. The cycle of practical classes makes it possible to consolidate the lecture material with specific calculations for all areas of modern energy.
Assessment methods and criteria: The current control in practical classes, which is conducted in the form of a frontal oral interview before classes, is designed to diagnose the assimilation of lecture material and the readiness of students for specific calculations. In addition, each student must independently perform and defend individual tasks. The final control of knowledge is carried out in the form of 2 control works. Practical classes - 40 points, 2 tests on 30 points.
Recommended books: Base: 1. Кудря С.О., Головко В.М. Основи конструювання енергоустановок з відновлюваними джерелами енергії: навч. посіб. – К.: НТТУ «КПІ», 2011. – 184 с. 2. Сиротюк С.В., Боярчук В.М., Гальчак В.П. Альтернативні джерела енергії. Енергія вітру: навч. посіб. – Львів: «Магнолія 2006», 2017. – 182 с. 3. Мисак Й.С., Возняк О.Т., Дацько О.С., Шаповал С.П. Сонячна енергети-ка. Теорія і практика. – Львів: Вид-во Львівської політехніки, 2014. – 340 с. 4. Рей Д., Макмайкл Д. Тепловые насосы: Пер. с англ. – М.: Энергоатомиз-дат, 1982. – 224 с. 5. Бут Д.А. и др. Накопители энергии: Уч. пос. для вузов – М.: Энергоатом-издат, 1991. – 400 с. Addition: 1. Щербина О. Енергія для всіх. Технічний довідник. – 2-е вид. – Ужгород: Вид-во Валерія Падяка, 2000. – 190 с. 2. Забарний Г.М., Шурчков А.В. Енергетичний потенціал нетрадиційних джерел енергії України. – К.: Ін-т технічної теплофізики НАНУ, 2002. – 211 с. 3. Корчемний М., Федорейко В., Щербань В. Енергозбереження в агропро-мисловому комплексі. – Тернопіль: Підручники і посібники, 2001. – 984 с.