Engineering Thermodynamics (курсовий проєкт)

Major: Thermal Power Engineering
Code of subject: 6.144.00.O.053
Credits: 3.00
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Galyanchuk Igor
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes: know: - methods of calculation and research of the physical characteristics of the working bodies; - the laws of thermodynamics and thermodynamic processes; - calculation of working bodies in the outflow channels of variable section; - research methods cycles. be able: - determine the thermal characteristics of working fluids; - calculate the cycles of heat engines, heat pumps and refrigerating machines; - determine the parameters of the flow of working fluids in channels of variable section. As a result of studying the academic discipline, the student must be able to demonstrate the following program learning outcomes: PL 1: Know and understand mathematics, physics, chemistry at the level necessary to achieve the results of the educational program. PL 3: Understanding the interdisciplinary context of the "Thermal Power Engineering" specialty. PL 6: Identify, formulate and solve engineering tasks in thermal energy; understand the importance of non-technical (societal, health and safety, environmental, economic and industrial) constraints. PL 7: Develop and design complex heat energy products, processes and systems that meet established requirements, which may include awareness of technical and non-technical (society, health and safety, environment, economy and industry) aspects. PL 10: Know and understand technical standards and rules of safety in the field of heat energy. PL 15: Understand the main properties and limitations of the materials, equipment and tools, engineering technologies and processes used. PL 17: Argue and convey judgments that reflect engineering solutions in the field of heat energy and relevant social, environmental and ethical problems to specialists and non-specialists.
Required prior and related subjects: Prerequisites: - Higher Mathematics - Physics - Chemistry Co-requisites: - Turbines of Thermal Power Plants - Heat Engines of Industrial Enterprises
Summary of the subject: The properties of substances at the critical point. Thermodynamic diagrams substances. Water vapor. The process of pairing and its properties. Characteristics of steam. Table water vapor. І-S diagram of water vapor. Thermodynamic of water vapor processes. Theoretical steam cycle power plant. Principle scheme steam power plant. The energy balance, efficiency, power efficiency steam cycle power plant. Secondary overheating, thermodynamic basics heating power station. Regenerative steam cycle power plant calculations.
Assessment methods and criteria: • Current control (30%): oral examination. • Final control (70 %): differentiated test
Recommended books: 1. Koliienko A.H. Termodynamika. – Lviv, 2006. – 128 s. 2. Tekhnichna termodynamika. Ch.I: Navch. posibnyk /M.M. Chepurnyi, S.I. Tkachenko. – Vinnytsia; VDTU, 1997. – 109 s. 3. Konstantinov S.M. Tekhnichna termodynamika. – K.: Vyshcha shkola, 2001. – 368 s. 4. Chepurnyi M.M., Tkachenko S.I. Osnovy tekhnichnoi termodynamiky. Vinnytsia, – „Podillia-2000”. – 2004. – 352 s. 5. Neduzhyi I.A. Tekhnichna termodynamika i teploperedacha / I.A. Neduzhyi, A.N. Alabovskyi. – K.: Vyshcha shkola, 1981. – 248 s. 6. Konstantinov S.M., Lutsyk R.V. Zbirnyk zadach z tekhnichnoi termodynamiky ta teploobminu. Navch. posibnyk – K.: Vydavnytstvo „Osvita Ukrainy”, 2009. – 544 s. 7. Vukalovych M.P. Tablytsi vodianoi pary. Diahramy. M. 1965.– 400 s. 8. Tekhnichna termodynamika: konspekt lektsii dlia studentiv pershoho (bakalavrskoho) rivnia vyshchoi osvity za spetsialnistiu 144 “Teploenerhetyka” / uklad.: I.R. Halianchuk. – Lviv: Vydavnytstvo Lvivskoi politekhniky, 2019. – 125 c. 9. Halianchuk I.R. Navchalno-metodychnyi kompleks u VNS z dystsypliny «Tekhnichna termodynamika» [Elektronnyi resurs]. – http://vns.lpnu.ua/course/view.php?id=4727.

Engineering Thermodynamics

Major: Thermal Power Engineering
Code of subject: 6.144.00.O.051
Credits: 7.00
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Galyanchuk Igor
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes: the ability to demonstrate knowledge of the basics of professionally oriented disciplines in the field of thermodynamics, theory of heat and mass transfer, theory of heat exchange devices, theory of heat engines, methods of analysis of heat networks, processes of production, transformation and transportation of thermal energy, technologies of system analysis, efficient energy use. As a result of studying the academic discipline, the student must be able to demonstrate the following program learning outcomes: PL 2: Know and understand the engineering sciences that underlie the "Heat Power" specialty of the relevant specialization at the level necessary to achieve other outcomes of the educational program, including some awareness of the latest advances in science and technology in the field of heat power. PL 9: Be able to find the necessary information in technical literature, scientific databases and other sources of information, critically evaluate and analyze it. PL 14: Have the skills to solve complex problems and practical problems involving the implementation of engineering projects and conducting research in accordance with specialization. PL 18: To be able to manage professional activities, participate in work on projects, be responsible for making decisions in the field of thermal energy.
Required prior and related subjects: Prerequisites: - Higher Mathematics - Physics - Chemistry Co-requisites: - Turbines of Thermal Power Plants - Heat Engines of Industrial Enterprises
Summary of the subject: The real work of the body. Characteristic functions of thermodynamics. The equation of state of real gas. Thermal and caloric properties of real gases. Thermal properties of materials on the line of phase transformations. Two-phase system. The properties of substances at the critical point. Thermodynamic diagrams substances. Water vapor. The process of pairing and its properties. Characteristics of steam. Table water vapor. І-S diagram of water vapor. Thermodynamic of water vapor processes. Moist air. Parameters humid air. Calculation of parameters humid air. І-d diagram. The processes humid air. Air conditioning. Theoretical steam cycle power plant. Principle scheme steam power plant. The energy balance, efficiency, power efficiency steam cycle power plant. Secondary overheating, thermodynamic basics heating power station. Regenerative steam cycle power plant calculations. Cycles refrigerating machines. Methods to reduce the temperature of the working fluid.
Assessment methods and criteria: • Current control (30%): written reports on laboratory work, written reports on calculation works, oral examination. • Final control (70 %, control measure): written-oral form (70%)
Recommended books: 1. Konstantinov S.M. Tekhnichna termodynamika.-K.: Vyshcha shkola, 2001.-368s. 2. Chepurnyi M.M., Tkachenko S.I. Osnovy tekhnichnoi termodynamiky. Vinnytsia, „Podillia-2000”-2004.-352s. 3. Buliandra, O. F. Tekhnichna termodynamika: pidruch. dlia studentiv enerh. spets. vyshch. navch. zakladiv / O. F. Buliandra. – K.: Tekhnika, 2001. – 320 s.: il. – Bibliohr.: s. 315. 4. Alabovskyi A.N., Neduzhyi I.A. Tekhnichna termodynamika, K. 1989. 5. Tekhnichna termodynamika: konspekt lektsii dlia studentiv pershoho (bakalavrskoho) rivnia vyshchoi osvity za spetsialnistiu 144 “Teploenerhetyka” / uklad.: I.R. Halianchuk. – Lviv: Vydavnytstvo Lvivskoi politekhniky, 2019. – 125 c. 6. Halianchuk I.R. Navchalno-metodychnyi kompleks u VNS z dystsypliny «Tekhnichna termodynamika» [Elektronnyi resurs]. – http://vns.lpnu.ua/course/view.php?id=4727.