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Technical Thermodynamics and Heat-and-Mass Transfer (курсовий проект)
Major: Nuclear Power Engineering
Code of Subject: 6.143.00.O.49
Credits: 3
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Tetiana Rуmar, Ph.D., Associate Professor;
Igor Galyanchuk, Senior Lecturer
Semester: 4 семестр
Mode of Study: заочна
Learning outcomes:
- to know the basic laws of heat-conducting, radial and convective heat exchange, heat exchange at boiling and condensation;
- to know the methods of intensification of heat-mass exchange in heat exchange machines.
- to know methods of calculation and research of the physical characteristics of the working bodies;
- to know the laws of thermodynamics and thermodynamic processes;
- to be able to determine the thermal characteristics of working fluids;
- to be able calculate the cycles of heat engines, heat pumps and refrigerating machines;
- to be able to calculate the geometric dimensions of heat loss and heat elements of the network, which consists of heat exchangers, heating and boiler.
- to know the methods of intensification of heat-mass exchange in heat exchange machines.
- to know methods of calculation and research of the physical characteristics of the working bodies;
- to know the laws of thermodynamics and thermodynamic processes;
- to be able to determine the thermal characteristics of working fluids;
- to be able calculate the cycles of heat engines, heat pumps and refrigerating machines;
- to be able to calculate the geometric dimensions of heat loss and heat elements of the network, which consists of heat exchangers, heating and boiler.
Required prior and related subjects:
prerequisites
• Higher Mathematics;
• Physics;
co-requisites
• Nuclear steam generators;
• Heat Exchange Machines of Nuclear Power Plants
• Higher Mathematics;
• Physics;
co-requisites
• Nuclear steam generators;
• Heat Exchange Machines of Nuclear Power Plants
Summary of the subject:
Course project consists of interrelated parts (sections):
- Calculation of geometric dimensions of heat exchangers and heat losses;
- Calculation of heat losses of heating mains;
- Approximate calculation of the geometric dimensions of the boiler and heat losses;
- Тheoretical steam cycle power plant;
- Regenerative steam cycle power plant calculations.
Recommended Books:
1. Heat-mass exchange in examples and problems: Study guide /M.M. Chepurnyi, N.V. Rezydent. – Vinnytsia: VNTU, 2011. – 128 p.
2. Heat transfer // Konstantynov S.M. – Kyiv: Politekhnika i pres, 2005. – 305 p.
3. Thermal engineering // Drahanov B.Kh., Dolinskyi A.A., Mishchenko A.V. et al. – Kyiv: Lybid, 2005. – 360 p.
4. Heat-mass exchange // Labay V.Y. College textbook. – Lviv: Triada Plius, 2004. – 260 p.
5. Heat-mass exchange (theoretical framework and basis of design) // Pohorielov A.I. Manual for graduate students. 2nd edition. – Lviv: “Novyi Svit – 2000”, 2004. – 144 p.
6. Konstantiniv S.M. Tehnichna termodinamika.-K.: Vischa shkola, 2001.-368р.
7. Chepurniy M.M., Tkachenko S.Y. Osnovi tehnichnoyi termodinamiki. Vinnitsya, „Podillya-2000”-2004.-352р.
2. Heat transfer // Konstantynov S.M. – Kyiv: Politekhnika i pres, 2005. – 305 p.
3. Thermal engineering // Drahanov B.Kh., Dolinskyi A.A., Mishchenko A.V. et al. – Kyiv: Lybid, 2005. – 360 p.
4. Heat-mass exchange // Labay V.Y. College textbook. – Lviv: Triada Plius, 2004. – 260 p.
5. Heat-mass exchange (theoretical framework and basis of design) // Pohorielov A.I. Manual for graduate students. 2nd edition. – Lviv: “Novyi Svit – 2000”, 2004. – 144 p.
6. Konstantiniv S.M. Tehnichna termodinamika.-K.: Vischa shkola, 2001.-368р.
7. Chepurniy M.M., Tkachenko S.Y. Osnovi tehnichnoyi termodinamiki. Vinnitsya, „Podillya-2000”-2004.-352р.
Assessment methods and criteria:
• recitation (30%);
• summative assessment (70%, credit): defense of course project.
• summative assessment (70%, credit): defense of course project.