Academic year 2021/2022 |
Supervisor: | prof. Ing. Josef Štětina, Ph.D. | |||
Supervising institute: | EÚ | |||
Teaching language: | Czech | |||
Aims of the course unit: | ||||
Make easy students examination from Tthermomechanics. Obtain practical view of problems thermomechanics. | ||||
Learning outcomes and competences: | ||||
Students will acquire skills to carry out technical computation in the area of thermodynamics and heat transfer. Computation of heat engines and cooling systems. Heat balance of material and machine systems, in gases, vapors, buildings and technological processes | ||||
Prerequisites: | ||||
Physics | ||||
Course contents: | ||||
Application matters from subject „Thermomechanics" on calculations concrete problems in the area: basic reverse and nonreversible changes state ideal gas; gas cycle - engine, gas turbine; solving reverse changes state in par; a mixture of gases, gas and par, calculations with damp afloat; fluxion gas and par nozzles and diffuser; calculations heat transfer, calculations exchangers. | ||||
Teaching methods and criteria: | ||||
The course is taught through exercises which are focused on practical topics presented in lectures. | ||||
Assesment methods and criteria linked to learning outcomes: | ||||
Participation in seminar, solve of problems and answers on control questions. | ||||
Controlled participation in lessons: | ||||
Solve of two problems and answers on questions. | ||||
Type of course unit: | ||||
Computer-assisted exercise | 13 × 2 hrs. | compulsory | ||
Course curriculum: | ||||
Computer-assisted exercise | 1. Basic thermodynamic quantity. Problems data aqusiton these quantities. Dynamic and static pressure. 2. Basic action with ideal fumes. Compressor calculation. 3.-4. Gas cycle - engine. Thermal efficiency. Calculation circulation petrol and diesel engine. 5. Alternative fuel. Hydrogen. 6. Heat wave pump, HVAC. Heating and coefficient of performance. Effectiveness running. 7. Vapour, power cycle heat power station on coal, gas. Nuclear power station. 8. Humid air and his influences. 9. Fluxion gas. 10. Heat transfer. 11. Infracamera and its usage for heat transfer 12. Usage solar energy. 13. Seminar |
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Literature - fundamental: | ||||
1. PAVELEK, Milan. Termomechanika. Brno: Akademické nakladatelství CERM, 2011, 192 s. : il. ; 30 cm + diagramy ([3] složené l.). ISBN 978-80-214-4300-6. | ||||
2. ÇENGEL, Yunus A. a Michael A. BOLES. Thermodynamics an engineering approach. 8. New York: McGraw-Hill, 2015, 1115 s. ISBN 978-0-07-339817-4. | ||||
3. INCROPERA, Frank, David DEWITT, Theodore BERGMAN a Adrienne LAVINE. Principles of heat and mass transfer. 7th ed., international student version. Singapore: John Wiley, c2013, xxiii, 1048 s. ISBN 978-0-470-64615-1. | ||||
Literature - recommended: | ||||
1. PAVELEK, Milan. Termomechanika. Brno: Akademické nakladatelství CERM, 2011, 192 s. : il. ; 30 cm + diagramy ([3] složené l.). ISBN 978-80-214-4300-6. | ||||
2. ÇENGEL, Yunus A., John M. CIMBALA a Robert H. TURNER. Fundamentals of thermal-fluid sciences. Fifth edition. New York, NY: McGraw-Hill Education, [2017]. ISBN 978-0-07-802768-0. |
The study programmes with the given course: | |||||||||
Programme | Study form | Branch | Spec. | Final classification | Course-unit credits | Obligation | Level | Year | Semester |
B-MAI-P | full-time study | --- no specialisation | -- | Cr | 2 | Elective | 1 | 3 | S |
B-STR-P | full-time study | SSZ Machine and Equipment Construction | -- | Cr | 2 | Elective | 1 | 2 | S |
Faculty of Mechanical Engineering
Brno University of Technology
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Czech Republic
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