Metallurgical Technology and Thermal Processes of Metallurgical Units
- Published: Friday, 14 October 2016 07:44
Appendix 1
Course: Metallurgical Technology and Thermal Processes of Metallurgical Units
Programme Summary
Major: 13.04.01 Thermal Power Engineering and Thermal Technology
Degree: Master
Course units:
- Unit 1. The purpose of metallurgical units and their classification. Metallurgy and thermal processes. Heating, cooling, smelting.
- Unit 2. Standard procedures; thermal circuits of heat exchanger and heat generator furnaces: their description and analysis.
- Unit 3. The design and elements of high-temperature metallurgical units; the tools and materials used for building such units.
- Unit 4. The analysis of ongoing processes; defining the way to optimise the processes; designing environmentally friendly and low-waste technologies.
- Unit 5. Heat generation and the mechanics of gases, as well as heat and mass transfer inside of metallurgical units.
- Unit 6. Building heat balances of metallurgical units; determining their thermal performance.
- Unit 7. The purpose, classification and arrangement of heat exchangers in metallurgical units; the types and characteristics of secondary energy resources.
- Unit 8. Utilization of secondary energy resources; metallurgical units and the benefits and the cost effectiveness of energy saving.
- Unit 9. Selecting, designing and engineering of furnaces based on the general thermal theory; the problems of engineering, operation, testing, designing and commissioning of thermal energy units.
Course contents:
- Unit 1. The purpose of metallurgical units and their classification. Metallurgy and thermal processes. Heating, cooling, smelting.
- Unit 2. Standard procedures; thermal circuits of heat exchanger and heat generator furnaces: their description and analysis.
- Unit 3. The design and elements of high-temperature metallurgical units; the tools and materials used for building such units.
- Unit 4. The analysis of ongoing processes; defining the way to optimise the processes; designing environmentally friendly and low-waste technologies.
- Unit 5. Heat generation and the mechanics of gases, as well as heat and mass transfer inside of metallurgical units.
- Unit 6. Building heat balances of metallurgical units; determining their thermal performance.
- Unit 7. The purpose, classification and arrangement of heat exchangers in metallurgical units; the types and characteristics of secondary energy resources.
- Unit 8. Utilization of secondary energy resources; metallurgical units and the benefits and the cost effectiveness of energy saving.
- Unit 9. Selecting, designing and engineering of furnaces based on the general thermal theory; the problems of engineering, operation, testing, designing and commissioning of thermal energy units.
Activities:
- Teacher-led group activities in a classroom;
- Extracurricular self-study of the teacher’s assignments and tasks, including the use of educational facilities (obligatory);
- Office-hours.
Total hours – 216.
Total points – 6.
Classroom hours – 36.
Unsupervised hours – 144.
Midterm assessment – Examination.