1. komponenta

Lecture type	Total
Lectures	30
Seminar	30

* Load is given in academic hour (1 academic hour = 45 minutes)

To acquaint students with the problem of waste, ways of its generation, types of waste and the possibilities of reduction, evaluation, treatment and final disposal.

COURSE IMPLEMENTATION PROGRAM:
1. Introduction. Waste, basic concepts. Seminar: Students in groups work on the topics of seminar assignments given by the subject teacher and assistant, where they get acquainted with the problem of waste, ways of its generation, types of waste and the possibilities of reduction, evaluation, processing and final disposal through practical examples.
2. Classification of waste according to the place of origin
3. Classification of waste according to properties.
4. Legislation of the Republic of Croatia for the field of waste management. Waste Management Strategy and Plan in the Republic of Croatia
Seminar: task 1
5. Sustainable development and waste management.
6. Cleaner production: principles, methodology.
Seminar: task 2
7. Waste management hierarchy, preventive strategies.
Seminar: task 3
8. Waste in the chemical industry: causes and places of origin, ways of reduction.
Seminar: task 4
9. Municipal and industrial waste. Inert and non-hazardous waste.
Seminar: task 5
10. Hazardous waste. Special categories of waste
Seminar: task 6
11. Circular economy and waste management measures
12. Waste collection, sorting, recycling.
Seminar: task 7
13. Waste disposal and landfills.
Seminar: task 8
14. Landfill leachate and their treatment
Seminar: task 9
15. Waste treatment methods. Mechanical-biological treatment. Thermal treatment.

DEVELOPMENT OF GENERAL AND SPECIFIC COMPETENCIES OF STUDENTS:
Understanding the problem of waste and adopting the basic principles of waste management and measures for dealing with different types of waste.
STUDENTS 'TEACHING OBLIGATIONS AND THEIR PERFORMANCE:
Attending lectures and seminar work
CONDITIONS FOR OBTAINING A SIGNATURE:
Attending lectures
TEACHING METHODS:
lectures, seminar, fieldwork
METHOD OF EXAMINATION OF KNOWLEDGE AND EXAMINATION:
3 partial exams. Written exam. Oral exam according to the teacher's assessment.
METHOD OF MONITORING THE QUALITY AND PERFORMANCE OF COURSES:
Student survey
METHODOLOGICAL PREREQUISITES:
Passed subjects: all subjects of the 1st academic year

COURSE LEARNING OUTCOMES:
1. Link environmental issues with waste generation and management issues
2. Analyze the waste management hierarchy in accordance with the principles of sustainable development
3. Suggest possibilities for reducing waste generation with regard to the causes of generation
4. Categorize waste types and their characteristics
5. Harmonize waste management measures with regard to its characteristics

LEARNING OUTCOMES AT PROGRAM LEVEL:
1. Identify the basic elements of eco-engineering in the phenomena of transport and balances of matter and energy, unit operations applied in environmental protection, reactors and bioreactors, thermodynamics
2. Develop awareness and ability to implement preventive environmental measures
3. define simple problems in the field of eco-engineering in order to solve them
4. apply legal regulations in the field of environmental protection

1. Link environmental issues with waste generation and management issues
2. Analyze the waste management hierarchy in accordance with the principles of sustainable development
3. Suggest possibilities for reducing waste generation with regard to the causes of generation
4. Categorize waste types and their characteristics
5. Harmonize waste management measures with regard to its characteristics

1. 1. H. Kušić, Nastavni materijali s predavanja dostupni na stranicama kolegija,
2. 2. B. Crittenden, S.Kolaczkowski, Waste Minimization; A Practical Guide, Institution of Chemical Engineers, Rugby, Warwickshire, UK, 1995.
   3. T. D. Allen, K. S. Rosselot, Pollution Prevention for Chemical Processes, John Wiley & Sons, Inc., New York, USA 1997.
   4. R. S. Gupta, Environmental Engineering and Science, Government Institutes, Rockville, MD,USA, 1997.
   www.mzoip.hr; www.azo.hr; www.apo.hr; www.fzoeu.hr; www.sciencedirect.com,

Enrollment :
Passed : Analytical chemistry
Passed : Applied computer sciences
Passed : Calculus II
Passed : General and inorganic chemistry
Passed : Introduction to environmental engineering
Passed : Microbiology
Passed : Physics II

Mandatory course - Regular studij - Environmental Engineering