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The energy recovery of waste is a highly actual topic not only for the Czech energy and heating industry mainly because of the opportunities presented by the current waste act, directives, and regulations from the European Union. The gradual move away from landfilling, increasing recycling rates, and introducing biowaste sorting are just the beginning of many changes to which the existing waste management, heating, and energetics industry must adapt. Students will be introduced to current and new challenges in waste-to-energy, available, and promising technologies for thermal recovery of waste.
Last update: Juklíčková Hana (25.09.2023)
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Students will be able to: 1) Justify the increased future interest in waste energy and material recovery technologies. 2) Evaluate the current status and potential of different types of waste utilisation, emphasising waste-to-energy. 3) Evaluate the potential of different technologies for waste-to-energy. 4) Describe in detail the technologies and possibilities of waste incineration plants. Last update: Juklíčková Hana (25.09.2023)
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Exam Last update: Juklíčková Hana (29.01.2018)
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[1] Marc J. Rogoff AND Francois Screve. Waste-to-energy technologies and project implementation. 2nd ed. Waltham, MA: William Andrew, 2011. ISBN 9781437778724. [2] Stehlík P. Up-to-date waste-to-energy approach. New York, NY: Springer Berlin Heidelberg, 2016. ISBN 9783319154664. [3] Syngellakis, S. Waste to energy. Southampton: WIT Press, 2015. ISBN 978-1-78466-060-4. [4] Klinghoffer, Naomi B. a Marco J. Castaldi, ed. Waste to energy conversion technology. Cambridge: Woodhead Publishing, 2013. Woodhead Publishing series in energy. ISBN 9780857090119. [5] VDI 3459 Terminologie in der Energie- und Abfallwirtschaft (Terminology of waste treatment and energy management – Fundamentals) [6] VDI 3460 Emissionsminderung; Thermische Abfallbehandlung (Emission control - Thermal waste treatment – Fundamentals) [7] L. Lombardi, E. Carnevale and A. Corti, "A review of technologies and performances of thermal treatment systems for energy recovery from waste", Waste Manag., vol. 37, pp. 26–44, 2015. [8] B. Leckner, "Process aspects in combustion and gasification Waste-to-Energy (WtE) units", Waste Manag., vol. 37, pp. 13–25, 2015. [9] Nejlepší dostupné techniky (BAT) – Referenční dokument pro spalování odpadů, 2019 [10] Směrnice Evropského parlamentu a Rady 2008/98/ES ze dne 19. listopadu 2008 o odpadech [11] Zákon č. 541/2020 Sb., Zákon o odpadech [12] Scarlat, N., Fahl, F., Dallemand, J.-F. Status and Opportunities for Energy Recovery from Municipal Solid Waste in Europe. Waste Biomass Valor 10, 2425–2444, 2019 [13] Hušek, M., Moško, J., Pohořelý, M. Sewage sludge treatment methods and P-recovery possibilities: Current state-of-the-art. J Environ Manage 315, 115090, 2022 Last update: Juklíčková Hana (25.09.2023)
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1 Introduction, legislation, waste statistics 2 Waste pretreatment (MBT, RDF) 3 Biodegradable waste 4 Waste incineration plants I. 5 Waste incineration plants II. 6 Waste incineration plants III. 7 Treatment of ash from waste incineration 8 Excursions 9 Corrosion in waste incineration plants 10 Waste-to-energy workshop: student presentations 11 Waste gasification 12 Waste pyrolysis 13 Sewage sludge thermal treatment 14 Consultation
Last update: Juklíčková Hana (25.09.2023)
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Presentations available on the course website Recommended scientific literature Last update: Juklíčková Hana (29.01.2018)
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Interest in waste problematics and in energetics. Basic orientation in waste management. Last update: Juklíčková Hana (29.01.2018)
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None Last update: Juklíčková Hana (29.01.2018)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Účast na přednáškách | 1 | 28 | ||
Příprava na zkoušku a její absolvování | 2 | 56 | ||
3 / 3 | 84 / 84 |