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Lecturer(s)
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Bartoš Petr, doc. RNDr. Ph.D.
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Olšan Pavel, Ing. Mgr. Ph.D.
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Course content
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1. Introductory lesson 2. Energy resources of planet Earth 3. Physical laws of heat sharing - conduction (conduction), convection (convection) and radiation (radiation). 4. Heat loss in buildings - calculation methodology and factors contributing to heat loss 5. Heat losses of agricultural buildings - stables, greenhouses, workshops and other operations 6. Solar energy 7. Biogas - process of biogas production, sources of raw materials and equipment for their processing, use of obtained gas 8. Biodiesel - pressing and post-processing technology 9. Biomass as an energy source 10. Wind energy and possibilities of its use 11. Water energy - technical possibilities and applicability in relation to legislation in the field of water management, design variants of solutions. 12. Heat pumps - principle of operation of heat pumps, usable sources, calculations of heat output and possibilities of cooperation with other systems 13. heat recovery - principles of operation of heat recovery heat exchangers, technical possibilities of their use with a focus on agriculture, issues of operation with regard to dustiness and composition of exhaust air. 14. Time reserve
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Excursion, Work with multi-media resources (texts, internet, IT technologies)
- Class attendance
- 56 hours per semester
- Semestral paper
- 30 hours per semester
- Preparation for exam
- 34 hours per semester
- Preparation for classes
- 30 hours per semester
- Field trip
- 30 hours per semester
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Learning outcomes
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The aim of the course is to synthesize the existing knowledge acquired during the study into a functional whole and to deepen critical thinking skills through concrete examples. Since the topic of energy is central to practically all areas of human activity, it will be possible to involve practitioners with different perspectives in the teaching. At the same time, students will take a series of field trips to plants where they will learn about the processes of obtaining and using energy resources.
The student can solve selected technical procedures in the environment.
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Prerequisites
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Knowledge of high school physics.
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Assessment methods and criteria
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Combined exam
Written exam, credit - attendance, continuous test, presentation on selected topic
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Recommended literature
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Články dostupné v databázích ScienceDirect, Web of Science.
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Tepelně-technické a energetické vlastnosti budov. 1. vyd. Praha : Grada Publishing, 2002. ISBN 80-7169-582-3.
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George C. King. Physics of Energy Sources. Wiley, Mancehester, 2017. ISBN 978-1119961680.
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Halley, A., Humm, O., Voss, K. Solární energie, využití při opravě budov. Praha, Grada, 2001.
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Mečárik, K., Havelský, V., Füri, B. Tepelná čerpadlá. Bratislava, Alfa, 1998.
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Poulek, Vladislav; Libra, Martin,; Prášil, Zdeněk. Photovoltaics : theory and practice of solar energy utilization. 1st ed. Prague : ILSA, 2010. ISBN 978-80-904311-2-6.
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Viswanathan B. Energy Sources, Elsevier. 2017. ISBN 9780444563606.
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