546-0185/01 – Technology of Waste Recycling (TRO)

Gurantor department	Department of Environmental Engineering	Credits	5
Subject guarantor	prof. Ing. Vladimír Čablík, Ph.D.	Subject version guarantor	prof. Ing. Vladimír Čablík, Ph.D.
Study level	undergraduate or graduate	Requirement	Choice-compulsory type B
Year	3	Semester	winter
		Study language	Czech
Year of introduction	2022/2023	Year of cancellation
Intended for the faculties	HGF	Intended for study types	Bachelor

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
CAB72	prof. Ing. Vladimír Čablík, Ph.D.
MUD0002	Ing. Jaroslav Mudruňka, Ph.D.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Credit and Examination	28+28
Part-time	Credit and Examination	16+0

Subject aims expressed by acquired skills and competences

Students demonstrate knowledge of recycling technologies and are able to apply them for processing of individual types of industrial wastes

Teaching methods

Lectures
Experimental work in labs
Teaching by an expert (lecture or tutorial)

Summary

The course introduces the basic concepts of waste management and recycling. . Basic recycling technologies and their applications for treatment of selected types industrials and householde wastes are described.

Compulsory literature:

Williams, P.T., Waste Treatment and Disposal.John Wiley & Sons:2005,ISBN 0-470-84912-6 LOTTERMOSER, Bernd G. Mine wastes: characterization, treatment and environmental impacts. 3rd ed. New York: Springer, 2010. ISBN 9783642124198 VEIT, Marcelo,H.(ed)Electronic waste. New York: Springer Berlin Heidelberg, 2015. ISBN 978-3-319-15713-9. RAO, Ramachandra,S. Resource Recovery and Recycling from Metallurgical Wastes. Oxford: Elsevier, 2006. ISBN 978-0-08-045131-2.

Recommended literature:

PISTOIA, G., J.-P WIAUX a S. P. WOLSKY. Used battery collection and recycling. New York: Elsevier Science, 2001. ISBN 0444505628. HURD, David J. Recycling of consumer dry cell batteries. Park Ridge, N.J., U.S.A.: Noyes Data, c1993. ISBN 9780815513254. HESTER, Ronald E. a Roy M. HARRISON, ed. Electronic waste management. Cambridge: Royal Society of Chemistry, 2009. Issues in environmental science and technology. ISBN 978-0-85404-112-1. PRASAD, M.N.V (ed).Electronic waste management and treatment technology. New York, NY: Elsevier, 2019. ISBN 9780128161906.

Way of continuous check of knowledge in the course of semester

Submission of correctly solved protocols from laboratory exercises, written and oral exam

E-learning

Other requirements

Active participation in seminars, submitting correctly solved protocols, knowledge of the issues

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

1.Waste management, basic concepts, legislation and system concept of waste recycling 2.Waste classification in terms of hazardous properties, composition and possibilities of recycling 3.Mechanical recycling technologies, characteristics and applications 4.Chemical recycling technologies, characteristics and applications 5. Thermal methods of waste treatment, characteristics and applications 6. Biotechnology and their use in waste recycling 7. Metal and metal-bearing wastes, characteristics and possibilities of recycling 8. Non-metallic wastes, characteristics and possibilities of recycling 9.Communal and similar wastes, characteristics and technologies of recycling 10.Wastes based on plastics and rubbers, characteristics and technology of recycling 11.Wastes from iron metallurgy, characteristics and technology of recycling 12.Wastes from mining and quarrying, characteristics and technologies recycling 13.Radioactive waste, characteristics and possibilities of recycling

Conditions for subject completion

Part-time form (validity from: 2022/2023 Winter semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Credit and Examination	Credit and Examination	100 (100)	51
Credit	Credit	33	17	1
Examination	Examination	67	34	3

Mandatory attendence participation: 16 h/s in combined forms;

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Conditions for subject completion and attendance at the exercises within ISP: Lectures in the form of self-study of materials assigned by the lecturer in the MS Teams or the e-learning portal at https://www.vsb.cz/e-vyuka/. Participation in exercises according to the student's capabilities. In order to receive credit, student must complete laboratory assignments and personally write credit test, both no later than at the end of the examination period of the semester. The assignments will be provided by lecturer leading exercices.

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Occurrence in study plans

Academic year	Programme	Form	Study language	Tut. centre	Year	Type of duty
2024/2025	(B0724A290006) Process Engineering in Raw Materials	P	Czech	Ostrava	3	Choice-compulsory type B	study plan
2024/2025	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Most	3	Choice-compulsory type B	study plan
2024/2025	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Ostrava	3	Choice-compulsory type B	study plan
2023/2024	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Ostrava	3	Choice-compulsory type B	study plan
2023/2024	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Most	3	Choice-compulsory type B	study plan
2023/2024	(B0724A290006) Process Engineering in Raw Materials	P	Czech	Ostrava	3	Choice-compulsory type B	study plan
2022/2023	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Most	3	Choice-compulsory type B	study plan
2022/2023	(B0724A290006) Process Engineering in Raw Materials	P	Czech	Ostrava	3	Choice-compulsory type B	study plan
2022/2023	(B0724A290006) Process Engineering in Raw Materials	K	Czech	Ostrava	3	Choice-compulsory type B	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction

2023/2024 Winter