Alternative and Renewable Energy Sources

Major: Electrical Energetics, Electrical Engineering and Electromechanics
Code of subject: 6.141.00.M.035
Credits: 6.00
Department: Electric Power Engineering and Control Systems
Lecturer: Ph.D., Associate Professor, Oliynyk Mikhail Yosypovych
Semester: 3 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of studying the discipline is the formation of the necessary competencies in students, their acquisition of knowledge and skills in studying methods of obtaining electricity from traditional and non-traditional sources of electricity, their impact on the environment, advantages of non-traditional sources from the point of view of the impact on the environment, the place and role of non-traditional sources in energy supply consumers
Завдання: 2.2. Tasks of the academic discipline As a result of studying the academic discipline, the student should be capable demonstrate the following learning outcomes: 1. Know the purpose, functioning, technological process of electric stations, that work on traditional energy carriers; 2. Know the terminology related to the main concepts of the discipline; 3. To know the sources of energy carriers for the functioning of non-traditional electricity; 4. To be able to evaluate the effects of the production of electricity and heat on traditional energy facilities; 5. To be able to use reference literature, to have search skills necessary information in libraries and in networks of electronic means; 6. To be able to evaluate the advantages, prospects and economic feasibility of use non-traditional and renewable sources for the production of electrical energy. 5 The study of an academic discipline involves the formation and development of students competencies: general competences: ? the ability to apply knowledge of electricity production in practice thermal and nuclear power plants (ZK5); ? the ability to search and analyze information from various sources about consequences use of traditional energy sources (ZK6); ? have research skills in environmental impact assessment of traditional sources electricity (ZK7); ? the ability to solve problems and make appropriate decisions based on calculation parameters of sources of non-traditional sources of electricity (ZK9); ? creativity, the ability to think systematically when solving problems with use of non-traditional sources of electricity (ZK14); ? the potential for further training in the development of non-traditional sources power industry (ZK15); professional competences: ? basic knowledge of scientific concepts, theories and methods necessary to understand the principles operation and functional purpose of electrical station equipment (FC1); ? basic knowledge of the main normative legal acts and reference materials from regulation of the impact of electricity sources on the environment (FC2); ? basic knowledge of technical characteristics, design features, purpose and rules for the operation of facilities of non-traditional sources of electricity (FC3); ? ability to apply and integrate knowledge and understanding of other engineering disciplines branches during the assessment of the performance of elements of energy facilities (FK7); ? the ability to use knowledge and skills to calculate energy parameters objects of various sources of energy carriers (FC11); ? the ability to identify, classify and describe the operation of power plants that function using sources of non-traditional energy carriers (FCS1);
Learning outcomes: As a result of studying the discipline, a specialist must know: purpose, technological process of traditional power stations; sources of energy for traditional and non-traditional energy; be able to: evaluate the effects of the impact of electricity and heat production on traditional power plants; use reference literature; evaluate the prospects and economic feasibility of using non-traditional and renewable energy sources. acquire competencies: the ability to put into practice knowledge of electricity generation at various types of power plants; the ability to think creatively when tackling non-traditional energy sources; basic knowledge of scientific concepts, theories and methods for understanding the operating principles of power plant equipment; apply knowledge and ability to identify classify and describe the operation of non-conventional power plants.
Required prior and related subjects: Prerequisites: physics: transformation of basic types of energy; energy conservation law; energy performance of electromagnetic radiation; chemistry: processes of oxidation of organic substances; the concept of material balance; thermal balance; measures to influence the quantitative characteristics of the harmful emissions of reaction products; basics of electricity use: technological processes of heat and electricity use, ways of their production and transformation.
Summary of the subject: General characteristics of energy use in the world economy; transformation of different types of energy into electricity; energy and energy resources of traditional energy; thermal power plants, thermal power plants and their environmental impact; physical bases of nuclear reactors functioning and their impact on the environment; the energy potential of the water stream; types of hydroelectric power stations; inflow and outflow hydropower; the environmental impact of different types of hydropower plants; solar energy, direct conversion of solar energy into electrical energy; thermodynamic SES; prospects of SES development; wind energy parameters; electricity production at wind farms; bioenergy; thermal disposal of household waste; hydrogen energy; use of coal mine methane; use of geothermal energy; use of landfill methane and the like.
Опис: General characteristics of energy use in the world economy; conversion of various types of energy into electricity; energy and energy resources of traditional energy; thermal electric stations, thermal power plants and their impact on the environment; the physical basis of the functioning of nuclear reactors and their impact on the environment; energy potential of water flow; types of hydroelectric power plants; tidal hydropower; the impact of different types of hydroelectric power plants on the environment; solar energy, direct conversion of solar energy into electrical energy; thermodynamic SES; SES development prospects; energy parameters of the wind; production of electricity at wind turbines; bioenergy; thermal disposal of household waste; hydrogen energy; use of methane from coal mines; use of geothermal energy; landfill methane utilization, etc.
Assessment methods and criteria: Current control (100%); control during practical classes, control work (60%); knowledge control (40%); differentiated credit.
Критерії оцінювання результатів навчання: Current and settlement control. Knowledge assessment methods: protect the test work, assessment of activity in practical classes, test control, credit.
Порядок та критерії виставляння балів та оцінок: Current and settlement control. Knowledge assessment methods: protect the test 100–88 points – (“excellent”) is awarded for a high level of knowledge (some inaccuracies are allowed) of the educational material of the component contained in the main and additional recommended literary sources, the ability to analyze the phenomena being studied in their interrelationship and development, clearly, succinctly, logically, consistently answer the questions asked, the ability to apply theoretical provisions when solving practical problems
Recommended books: • Dudurych O.B. Netradytsiini ta vidnovliuvalni dzherela elektroenerhii: Konspekt lektsii dlia studentiv bazovoi vyshchoi osvity za napriamom 6.050701 «Elektrotekhnika ta elektrotekhnolohii» usikh form navchannia. – L:Liha-Pres, 2013. -148 s. • Oliinyk M.I. Osnovy ekolohii vyrobnytstva, peresylannia ta vykorystannia elektrychnoi enerhii. Navchalnyi posibnyk/M.I.Oliinyk, V.H.Lysiak. –Lviv. Vydavnytstvo Lvivskoi politekhniky, 2018. • Vykorystannia vidnovliuvalnykh dzherel enerhii: Navchalnyi posibnyk/Ie.V.Obukhov. – Odesa: «TЭS», 1999. -254 s. • Klymenko M.O. Tekhnoekolohiia: navch. posib./M.O. Klymenko, I.I. Zaleskyi. – K.: VTs «Akademiia», 2011. – 256 s. • Mkhytarian N.M. Enerhetyka netradytsiinykh i vidnovliuvalnykh dzherel: Doslip i perspektyvy. – Kyiv: Vydavnytstvo «Naukova dumka». 1999. -314 s. • Solovei O.I..Netradytsiini ta ponovliuvalni dzherela enerhii: Navchalnyi posibnyk/ O.I.Solovei, Yu.H.Leha, V.P.Rozen, O.O.Sytnyk, A.V.Cherniavskyi, H.V.Kurbaka; za zah. red. O.I. Solovia. –Cherkasy:ChDTU, 2007. -490 s.
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