Thermodynamics and Heat Engineering

Major: Automation and Computer-integrated Technologies
Code of subject: 6.151.00.O.062
Credits: 3.00
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Associate Professor, Ph.D., Martynyak-Andrushko Marta
Semester: 5 семестр
Mode of study: денна
Learning outcomes: - Know the basic laws of thermodynamics and heat engineering technical features and implementation thermodynamic cycles as the basis for heating and heat engines. - Be able to design, plan and manage thermal heating processes - To understand the main trends and prospects of practical application of the thermal problems associated with the transfer of heat.
Required prior and related subjects: • Higher mathematics • Physics • Chemistry
Summary of the subject: The working body. The thermodynamic parameters. The thermodynamic process. Ideal gas. A mixture of ideal gases. The concept of heat and work. The internal energy of the gas. Working gas. Working diagram. The first law of thermodynamics. Heat capacity of gases. The dependence of the heat capacity of the nature of the process. The enthalpy of the gas. The concept of entropy. Thermal chart. Analysis of thermodynamic processes of ideal gas. Polytropic process. Workflow piston compressor. Reversible and irreversible processes. Circular processes. The second law of thermodynamics. Forward and reverse Carnot cycle. Cycles of Internal Combustion Engines and Thermodynamics gas vapor flows. Types of heat transfer. Thermal conductivity. Fourier law. Convective heat transfer. Radiant heat transfer. Advanced heat. Heat transfer. The main types of heat exchangers and the basis for their calculation
Assessment methods and criteria: written reports on practical works, oral questioning (40%) final control (control measure - test): written form (60%)
Recommended books: 1. Drahanov B.Kh.,Dolinskyy A.A., Mishchenko A.V., Pysmennyy Ye.M.Teplotekhnika: Pidruchnyk, - Kyyiv; «INKOS», 2005, - 504 s. 2. Shvets I.T. Teplotekhnika. –K.:Vyshcha shkola, 1980. -585s. 3.Konstantinov S.M. Tekhnichna termodynamyka. -K.: Politekhnika. –2001. -368s.