Heat and Mass Transfer in NPP Power Equipment (курсовий проєкт)

Major: Nuclear Power Engineering
Code of subject: 6.143.00.O.025
Credits: 3.00
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Tetiana Rуmar, Ph.D., Associate Professor
Semester: 4 семестр
Mode of study: денна
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 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; • Engineering Thermodynamics; co-requisites • Nuclear steam generators; • Heat Exchange Machines of Nuclear Power Plants
Summary of the subject: Coursework consists of three 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.
Assessment methods and criteria: • recitation (30%); • summative assessment (70%, credit): defense of course project.
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.

Heat and Mass Transfer in NPP Power Equipment

Major: Nuclear Power Engineering
Code of subject: 6.143.00.O.023
Credits: 6.00
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Tetiana Rуmar, Ph.D., Associate Professor
Semester: 4 семестр
Mode of study: денна
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. - able to use bases of approach of the systems, equalization of mathematical physics for raising and decision of tasks of planning of heat exchange machines; - to know about the question of stationary and non-stationary heat-conducting; - to know about the possible consequences of the unright expected heat exchange machines
Required prior and related subjects: prerequisites • Higher Mathematics; • Physics; • Engineering Thermodynamics; co-requisites • Nuclear steam generators; • Heat Exchange Machines of Nuclear Power Plants
Summary of the subject: Basic types of transmission of warmth. A heat-conducting is at the stationary mode and maximum terms of the first family. Processes of heat transfer. Non-stationary heat-conducting. Bases of theory of convective heat exchange. Heat emission is in case of motion of liquid in channels. Heat emission is at a force transversal washing of pipe and bunch of pipes. Heat emission is for the changes of the aggregate state of substance. Effulgent heat exchange. Basic laws of caloradiance.
Assessment methods and criteria: • formative assessment (30%): written reports on laboratory works, recitation; • summative assessment (70%, examination): control activities.
Recommended books: 1. Heat and mass transfer in nuclear power plants: Tutorial / P.L.Kirillov, G.P. Bogoslovskaya.- 2nd edition, - M.: Energoatomisdat 2008. 2. Heat-mass exchange in examples and problems: Study guide /M.M. Chepurnyi, N.V. Rezydent. – Vinnytsia: VNTU, 2011. – 128 p. 3. Heat transfer // Konstantynov S.M. – Kyiv: Politekhnika i pres, 2005. – 305 p. 4. Thermal engineering // Drahanov B.Kh., Dolinskyi A.A., Mishchenko A.V. et al. – Kyiv: Lybid, 2005. – 360 p. 5. Heat-mass exchange // Labay V.Y. College textbook. – Lviv: Triada Plius, 2004. – 260 p. 6. 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.