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Main menu for Browse IS/STAG
Course info
KEE / TTE
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Course description
Department/Unit / Abbreviation
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KEE
/
TTE
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Academic Year
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2023/2024
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Academic Year
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2023/2024
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Title
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Thermal power plants technologies
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Form of course completion
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Exam
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Form of course completion
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Exam
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Accredited / Credits
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Yes,
5
Cred.
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Type of completion
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Combined
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Type of completion
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Combined
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Time requirements
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Lecture
3
[Hours/Week]
Tutorial
2
[Hours/Week]
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Course credit prior to examination
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Yes
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Course credit prior to examination
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Yes
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Included in study average
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YES
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Language of instruction
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Czech, English
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Occ/max
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|
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Summer semester
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0 / -
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0 / -
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0 / -
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Included in study average
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YES
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Winter semester
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15 / -
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0 / -
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2 / -
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Repeated registration
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NO
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Repeated registration
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NO
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Timetable
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Yes
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Semester taught
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Winter semester
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Semester taught
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Winter semester
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Minimum (B + C) students
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10
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Optional course |
Yes
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Optional course
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Yes
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Language of instruction
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Czech, English
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Internship duration
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0
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No. of hours of on-premise lessons |
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Evaluation scale |
1|2|3|4 |
Periodicity |
každý rok
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Evaluation scale for credit before examination |
S|N |
Periodicita upřesnění |
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Fundamental theoretical course |
Yes
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Fundamental course |
No
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Fundamental theoretical course |
Yes
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Evaluation scale |
1|2|3|4 |
Evaluation scale for credit before examination |
S|N |
Substituted course
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None
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Preclusive courses
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N/A
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Prerequisite courses
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N/A
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Informally recommended courses
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N/A
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Courses depending on this Course
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KEE/SNEE
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Histogram of students' grades over the years:
Graphic PNG
,
XLS
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Course objectives:
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The subject deals with the conversion of energy in thermal power stations, increasing efficiency of the thermal cycles, thermal cycle calculation, determining the quantity and treatment of working substances in the power plant production system. Next, the operation and regulation of power plant blocks, combined production of electricity and heat (CHP), ORC cycle, thermal cycle of steam-gas and nuclear power plant are also solved. Practise education is realized on thermal power station Tusimice II.
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Requirements on student
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Credit:
Submitting of a correctly elaborated semestral work, compulsory attendance in training course on power station Tusimice or Prunerov.
Examination:
Encompassment of the problems in the scope of lectures (written example, orally theoretical part).
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Content
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1. Principles of energy conversion in thermal power plants, transformation loops
2. The steam production in conventional thermal power stations, comparison of efficiency of individual phases, the steam generators types, thermal engines
3. Calculation of the thermal cycle and increasing its efficiency, Carnot cycle and Rankine-Clausius (R-C) cycle of the steam power stations
4. The thermal calculation of the R-C cycle without reheating steam and without regenerative feedwater heating, determining the amount of the operational mass flows and efficiency
5. Efficiency R-C cycle increasing, change of the operational parameters, steam reheating, regenerative feed water heating
6. Back-pressure cycle, back-pressure turbine, heating industry
7. Combined production of electric and thermal energy
8. ORC thermal cycles and gas cycles and their realization for electricity production
9. Combine cycles for electricity production, gas-steam cycles
10. Nuclear power stations, heat cycles in nuclear power stations, reactor types, heat transportation from reactors
11. Operational materials in heat power stations, determination of their quantity, control and treatment
12. Determination of cost and environmental flows in the power station, the operation of power plant units and their deployment to cover electricity consumption
13. Regulation of heat power stations, the operation and starting up of heat power stations
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Activities
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Fields of study
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Guarantors and lecturers
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Literature
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Basic:
Horlock, J. H. Combined power plants : including combined cycle gas turbine plants. 1st ed. Oxford : Pergamon Press, 1992. ISBN 0-08-040502-9.
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Basic:
Dvorský, Emil; Hejtmánková, Pavla; Kocmich, Martin. Elektrárny : základy výroby elektrické energie : příklady. 1. vyd. Plzeň : Západočeská univerzita, 1994. ISBN 80-7082-133-7.
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Basic:
Dvorský, Emil; Hejtmánková, Pavla. Elektrárny : zvyšování účinnosti přeměn energie v tepelných elektrárnách : příklady. 1. vyd. Plzeň : ZČU, 1999. ISBN 80-7082-523-5.
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Basic:
Šurovský, Jan. Spalovací turbíny. 2013. ISBN 978-80-260-4106-1.
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Basic:
Lindsley, David; Grist, John. Thermal Power Plant Control and Instrumentation: The control of boilers and HRSGs (Energy Engineering) 2nd Edition. The Institution of Engineering and Technology, 2018. ISBN 978-1785614194.
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Basic:
Liu, Xingrang; Bansal, Ramesh. Thermal Power Plants, Modeling, Control, a Efficiency Improvement. United States: Taylor & Francis Inc, 2016. ISBN 9781498708227.
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Extending:
Dvorský, Emil; Hejtmánková, Pavla. Kombinovaná výroba elektrické a tepelné energie. 1. vyd. Praha : BEN - technická literatura, 2005. ISBN 80-7300-118-7.
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Recommended:
Kehlhofer, Rolf et al. Combined-cycle gas & steam turbine power plants. 3rd ed.. Tulsa, 2008. ISBN 978-1-59370-168-0.
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Recommended:
Ibler, Zbyněk. Elektrárny. 1. vyd. Plzeň : VŠSE, 1984.
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Recommended:
Ibler, Zbyněk. Energetika v příkladech : technický průvodce energetika. 2. díl. 1. vyd. Praha : BEN - technická literatura, 2003. ISBN 80-7300-097-0.
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Recommended:
Jaroslav Doležal; Jiří Šťastný; Jan Špetlík; Stanislav Bouček; Zbyněk Brettschneider. Jaderné a klasické elektrárny. Praha, 2011. ISBN 978-80-01-04936-5.
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Recommended:
Basu, Swapan;Debnath, Ajay Kumar. Power Plant Instrumentation and Control Handbook: A Guide to Thermal Power Plants. Academic Press, 2014. ISBN 978-0128009406.
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Recommended:
Kadrnožka, Jaroslav. Tepelné elektrárny a teplárny. 1. vyd. Praha : SNTL, 1984.
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Recommended:
Dipak Sarkar. Thermal Power Plant: Design and Operation. Elsevier, 2015. ISBN 0128017554.
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Recommended:
Matěna, Štěpán. Výroba a rozvod elektrické energie I. 2. upr. vyd. Praha : SNTL, 1978.
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Recommended:
Matěna, Štěpán. Výroba a rozvod elektrické energie II. 1. vyd. Praha : SNTL, 1975.
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On-line library catalogues
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Time requirements
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All forms of study
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Activities
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Time requirements for activity [h]
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Graduate study programme term essay (40-50)
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40
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Practical training (number of hours)
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26
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Preparation for an examination (30-60)
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30
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Contact hours
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39
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Total
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135
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Prerequisites
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Knowledge - students are expected to possess the following knowledge before the course commences to finish it successfully: |
to explain the subject matter of the course KEE/EEN1 (Electrical Power Engineering 1) from bachelor study |
to explain the basics of thermodynamics |
to define basic thermodynamic quantities, processes and laws |
to explain basic concepts of power engineering |
Skills - students are expected to possess the following skills before the course commences to finish it successfully: |
to create a basic technological scheme of thermal power plants |
to apply the basics of university mathematics and physics (thermodynamics) |
to describe the load diagram |
Competences - students are expected to possess the following competences before the course commences to finish it successfully: |
N/A |
N/A |
N/A |
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Learning outcomes
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Knowledge - knowledge resulting from the course: |
to describe thermal cycles in power plants |
to characterize steam generators and heat engines |
to explain Carnot cycle and Rankine-Clausius cycle and determine their effectiveness |
to explain the effect of operating parameters on the efficiency of the thermal cycle |
to explain Carnotization (regenerative feed water heating and steam reheating) |
to describe the back-pressure cycle and the combined production of electricity and heat |
to define ORC thermal cycles, gas cycles and explain the principle of combined cycle power plants (CCGT) |
to describe thermal cycles in a nuclear power plant |
to characterize the regulation of thermal power plants, the operation control and starting up |
Skills - skills resulting from the course: |
to perform the energy balance of thermal power plants |
to determine the efficiency of the power plant |
to determine the amount of operating substances |
to determine the parameters of the thermal cycle from the i-s diagram, a water vapor tables and software |
Competences - competences resulting from the course: |
N/A |
N/A |
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Assessment methods
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Knowledge - knowledge achieved by taking this course are verified by the following means: |
Combined exam |
Seminar work |
Continuous assessment |
Skills - skills achieved by taking this course are verified by the following means: |
Combined exam |
Seminar work |
Skills demonstration during practicum |
Continuous assessment |
Competences - competence achieved by taking this course are verified by the following means: |
Combined exam |
Seminar work |
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Teaching methods
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Knowledge - the following training methods are used to achieve the required knowledge: |
Lecture |
Practicum |
Field trip |
Internship |
Task-based study method |
Self-study of literature |
Individual study |
One-to-One tutorial |
Skills - the following training methods are used to achieve the required skills: |
Lecture with visual aids |
Practicum |
Internship |
Field trip |
Task-based study method |
Individual study |
Self-study of literature |
One-to-One tutorial |
Competences - the following training methods are used to achieve the required competences: |
Lecture supplemented with a discussion |
Task-based study method |
Individual study |
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