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Energy Accumulation and Economy

* Exchange students do not have to consider this information when selecting suitable courses for an exchange stay.

Course Unit Code361-0519/09
Number of ECTS Credits Allocated4 ECTS credits
Type of Course Unit *Compulsory
Level of Course Unit *Second Cycle
Year of Study *First Year
Semester when the Course Unit is deliveredSummer Semester
Mode of DeliveryFace-to-face
Language of InstructionCzech
Prerequisites and Co-Requisites Course succeeds to compulsory courses of previous semester
Name of Lecturer(s)Personal IDName
VRT20doc. Ing. Mojmír Vrtek, Ph.D.
SAS027Ing. Veronika Sassmanová, Ph.D.
Summary
Learning outcomes of the course unit Students will get basic information about energy accumulation and effective handling.
Learning outcomes of the course unit Students will acquire knowledge of the application of a number of skills in energy use in accordance with trends of sustainable development.
The subject belongs to a group of subjects which follows the technical knowledge of the subjects of thermomechanics, physics and hydromechanics but puts emphasis on the economic aspects of the operation of energy equipment.
Students are taught a subject that combines the technical, business and managerial aspects of the behavior of companies operating in the field of energy.
Learning outcomes of the course unit The aim of the subject is to form a graduate's professional profile, which will operate energy facilities with knowledge of economic categories and minimal disturbance of the environment.
Main themes of teaching:
1. Basics of energy economics.
2. Balance of energy, use structure, energy flows.
3. Raw materials, classification, utilization, efficiency.
4. Energy use at the point of consumption and accumulation.
5. Transformation of energy.
6. Exergy, exergetic efficacy.
7. Energy transport.
8. Accumulation systems, procedures, efficiency.
9. Heat accumulation.
10. Accumulation of electricity.
11. Energy management (energy audit, energy characteristics, energy balance).
12. Investing and strategies for the economical use of energy I., II. ČEA.
13. Production costs and energy prices, tariff systems, efficiency of investments.
14. Economics of the environment. Legislation.
Learning Outcomes of the Course Unit
Student will increase their knowledge about the energy storage and energy transformations.
Course Contents
1. Principles of energy engineering economics
2. Balance of power, the use of structure, energy flows
3. Raw materials, classification, utilization, efficiency
4. Energy use in the place of consumption and accumulation
5. Energy transformations
6. Exergy, exergy efficiency
7. Transport energy
8. Storage systems, procedures, efficiency
9. Heat storage
10. Electricity storage
11. Management of energy (energy audits, energy characteristics, energy balance)
12. Investing strategies and efficient use of energy I and II. CEA
13. Production costs and energy costs, tariff systems, efficiency of investment
14. Environmental Economics. Legislation.
Recommended or Required Reading
Required Reading:
BREBBIA, C. A.,; MAGARIL, E. R., KHODOROVSKY, M.Y. Energy Production and Management in the 21st Century, WIT Press 2014, ISBN 978-1-84564-816-9.
CHEN, H., et al., “Progress in electrical energy storage system: A critical review”, Progress in Natural Science, 2009. 19(3): p. 291-312.
VRTEK, Mojmír. Renewable sources in energy systems. Tarnów: TANT Publishers, 2009. Monographs on science and education. ISBN 978-83-928990-0-6.
Energetika: zásadní změny od roku 2022: energetický zákon, zákon o podporovaných zdrojích energie, zákon o hospodaření energií, nový zákon o opatřeních k přechodu k nízkouhlíkové energetice : 26 prováděcích vyhlášek ke všem zákonům : redakční uzávěrka. Ostrava: Sagit, 2022. ÚZ. ISBN 9788074885242.
CHLOPECKÝ, J. Základy energetického managementu. Moravská vysoká škola Olomouc o.p.s., 12s, Olomouc 2018.
BREBBIA, C. A.,; MAGARIL, E. R., KHODOROVSKY, M.Y. Energy Production and Management in the 21st Century, WIT Press 2014, ISBN 978-1-84564-816-9.
IBLER, Z. a kolektiv: Technický průvodce energetika 1, BEN - technická literatura, ISBN 80-7300-026-1, 616 s.
IBLER, Z. a kolektiv: Energetika v příkladech 2.díl, BEN - technická literatura, ISBN 8073000970, 383 s.
MATUŠKA, Tomáš. Solární zařízení v příkladech. Praha: Grada Publishing, 2013. Stavitel. ISBN 978-80-247-3525-2.
CHEN, H., et al., “Progress in electrical energy storage system: A critical review”, Progress in Natural Science, 2009. 19(3): p. 291-312.
Další studijní pomůcky: OneDrive katedry energetiky - neveřejný přístup, heslo bude sděleno pedagogem.
Recommended Reading:
H. IBRAHIM, A. ILINCA, and J. PERRON, 'Energy Storage Systems-Characteristics and Comparisons', Renewable and Sustainable Energy Reviews, 12, 5, 2008, 1221-50.
ANDREWS, John a N. A. JELLEY. Energy science: principles, technologies, and impacts. Oxford: Oxford University Press, [2017]. ISBN 978-0-19-875581-4.
LADENER, Heinz a Frank SPÄTE. Solární zařízení. Přeložil Ján STRUŠKA, přeložil Petr KRAMOLIŠ. Praha: Grada Publishing, 2003. Stavitel. ISBN 80-247-0362-9.
H. IBRAHIM, A. ILINCA, and J. PERRON, 'Energy Storage Systems-Characteristics and Comparisons', Renewable and Sustainable Energy Reviews, 12, 5, 2008, 1221-50.
Aktuální články v odborném energeticko-ekonomickém tisku.
POVÝŠIL, R. a M. MAREŠ. Energetický management regionálních systémů zásobování energií. P. 48, Praha 2000.
ŠAFAŘÍK Miroslav et al. Energetický management pro veřejnou správu: Příručka pro energetické manažéry. Praha: Porsenna, 2016.
ANDREWS, John a N. A. JELLEY. Energy science: principles, technologies, and impacts. Oxford: Oxford University Press, [2017]. ISBN 978-0-19-875581-4.
Planned learning activities and teaching methods
Lectures, Seminars, Individual consultations, Tutorials, Project work, Other activities
Assesment methods and criteria
Task TitleTask TypeMaximum Number of Points
(Act. for Subtasks)
Minimum Number of Points for Task Passing
Graded creditGraded credit100 (100)51
        PísemkaWritten test100 51