Subject: Thermal Turbines 1 (06 - M3405)


Basic Information

CategoryAcademic-general educative
Scientific or art field:Thermal Energetics
InterdisciplinaryNo
ECTS7
Course specification

Course is active from 01.10.2007..


Precondition courses

Course idMandatoryMandatory
Mechanics 3YesNo
ThermodynamicsYesNo
Fluid Mechanics 1YesNo
Enabling students to work on: design, engineering, exploitation, engineering and consulting in the field of thermal turbines at the level of the basic engineering.
Basic knowledge about thermal turbines, detailed knowledge about energy transformation processes in degrees, criteria for calculation as well as calculation knowledge of all types of degrees of thermal turbines at the level of basic engineering. The knowledge for calculation of thermodynamic cycles of thermal turbines.
The concept and classification of thermal turbines. Historical development. Fields of knowledge application in thermal turbines. Thermodynamic and Electrical foundations. Characteristics of compressible fluid flow. Expansion and compression without friction in the nozzles. Expansion and compression with friction in the nozzles. Efficiency of expansion and compression in turbines (polytropic, isentropic, isothermal degrees of utilization). Working on scope (classical and aerodynamic method, force, momentum and power on scope, for blades without and with cooling). Utilization degree on the scope of axial degrees: action and reaction – Parson`s, individual and from the group. Comparison of action and Parson`s degrees. Curtis degree. Comparison of degrees with multiple degrees of speed. Axial turbine degree with cooling petals. Utilization degree on the scope of degrees of radial turbines (centrifugal – Ljungstrem and centripetal). Utilization degree on the scope of compressor degrees (for three definitions from the engineering practice). The meaning of degrees of thermal turbines. Losses in the degree (because of vapor humidity, on friction and ventilation, because of partial filling and through fissures). Turbulent flow in the degrees of thermal turbines – simple equation of radial balance. Energy transformation in the cycles of thermal turbines (Joule`s – without cooling and with cooling, Rankin`s and combined Joule –Rankin`s).
The following methods are used: -Verbal, - Visual, -Practical
AuthorsNameYearPublisherLanguage
Grković VojinToplotne turbomašine2004FTN Izdavaštvo, Novi SadSerbian language
Gostelow J. P.Cascade Aerodynamics1984Pergamon Press, Oxford, New York, TorontoEnglish
FisterFluidenergiemaschinen I u. II1984Springer-Verlag, Berlin/ Heilderberg/New YorkGerman
Vojin GrkovićTehnološke osnove regulisanja parnih turbina za spregnutu proizvodnju električne i toplotne energije1995Futura publikacije, Novi SadSerbian language
Benenson E. I. i Ioffe L. STeplofikacionnije parovije turbini1976Energia, MoskvaRussian language
Bitterlich W., Ausmeier S. und Lohmann U.Gasturbinen und Gasturbinenanlagen – Darstellung und Berechnung2002B. G. Teubner, StuttgartGerman
Šegljajev A. V.Parovie Turbini 19761976Energija, MoskvaRussian language
Traupel WalterTermische Turbomaschinen I und II1982Springer-Verlag, Berlin/ Heilderberg/New YorkGerman
Horlock J. H.Axial Flow Turbines: Fluid Mechanics and Thermodynamics1973Butterworths, LondonEnglish
Horlock J. H.Axial Flow Compressors Fluid Mechanics and Thermodynamics1982Butterworths, LondonEnglish
Japikse D. and Baines N. C.Introduction to Turbomachinery1997English
Course activity Pre-examination ObligationsNumber of points
Exercise attendanceYesYes10.00
Written part of the exam - tasks and theoryNoYes70.00
Lecture attendanceYesYes10.00
Computer exercise attendanceYesYes10.00
Name and surnameForm of classes
Missing picture!

Jovanović Aleksandar
Full Professor

Lectures
Missing picture!

Guteša Milana
Assistant - Master

Practical classes
Missing picture!

Stepanov Borivoj
Associate Professor

Practical classes
Missing picture!

Guteša Milana
Assistant - Master

Computational classes
Missing picture!

Stepanov Borivoj
Associate Professor

Computational classes