2023/2024
Waste Management
Code: 42408
ECTS Credits: 6
Degree |
Type |
Year |
Semester |
4313784 Interdisciplinary Studies in Environmental, Economic and Social Sustainability |
OT |
0 |
1 |
Teaching groups languages
You can check it through this link. To consult the language you will need to enter the CODE of the subject. Please note that this information is provisional until 30 November 2023.
Teachers
- Cristina Sendra i Sala
External teachers
- Aglaia Gomez
- Oscar Prado
- Vanessa Abad
Prerequisites
No specific knowledge required.
Objectives and Contextualisation
Provide the knowledge needed to manage waste as a resources, energy saving and impact reduction, through Circular Economy Design framework.
Competences
- Analyse, summarise, organise and plan projects related to the environmental improvement of product, processes and services.
- Communicate and justify conclusions clearly and unambiguously to both specialised and non-specialised audiences.
- Solve problems in new or little-known situations within broader (or multidisciplinary) contexts related to the field of study.
- Work in an international, multidisciplinary context.
Learning Outcomes
- Choose and propose the most sustainable waste management system under current legislation and the objectives of international policies.
- Communicate and justify conclusions clearly and unambiguously to both specialised and non-specialised audiences.
- Estimate greenhouse gas emissions attributable to waste.
- Estimate the main environmental impacts of waste management systems, whether urban, industrial or agricultural.
- Quantify the chances of reducing environmental impacts and GHG on the basis of new technologies, methodologies and waste management systems.
- Solve problems in new or little-known situations within broader (or multidisciplinary) contexts related to the field of study.
- Work in an international, multidisciplinary context.
Content
Block 1 Waste management in a linear model
- Rreduction. Collection. Transportation compaction Evaluation. classification
- Landfills and estimation of their emissions.
- Classification of waste. Definition of a management plan.
Block 2 Waste management in the Technical Cycle
- Recyclable materials: plastic, glass, paper and cardboard, cans, batteries and accumulators.
- Recycling plants. Ecoparks and recovery areas.
Block 3 Waste management in the biological cycle
- Composting and anaerobic digestion plants. Ecoparks and recovery areas.
- Recycling plants. Ecoparks and recovery areas. Energy saving and recycling of materials and recovery of materials and energy. Organic matter. Other recyclable materials.
- Reapply Industrial Ecology tools (industrial symbiosis, exchange of flows, MFA, LCA Exegetical Analysis, Ecodesign, carbon footprint, ...) to design an innovative and sustainable waste management system.
Block 4. Product design eliminating the concept of waste, with Cradle to Cradle principles and the circular economy
Methodology
Lectures/oral expositions
Classroom practices
Seminars
Preparation of reports
Autonomous activity
Reading reports/papers of interest
Annotation: Within the schedule set by the centre or degree programme, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.
Assessment
This subject will be assessed continuously.
50% of the grade will be obtained by completing quizzes and evaluable activities throughout class hours.
The remaining 50% will be obtained through group work and its oral presentation in class.
This module does not offer the Single Assessment modality, in accordance with the coordination of the degree and with the Dean's Office of the Faculty of Sciences.
Assessment Activities
Title |
Weighting |
Hours |
ECTS |
Learning Outcomes |
Questionnaires, problem solving, and other evaluable tests |
50 % |
0
|
0 |
1, 4, 3, 5, 6
|
Reports delivery and oral presentations |
50 % |
6
|
0.24 |
1, 4, 3, 6, 2, 7
|
Bibliography
- Materiales del campus virtual de la UAB. (intranet UAB, campus virtual)
- Handbook Zero Waste, ZERO WASTE PROJECT (1G-MED08-533). http://icta.uab.cat/ecotech/zero_waste/Handbook/Final_Handbook.pdf
- Cara Brower; Rachel Mallory; Zachary Ohlman. 2005. Experimental Eco>Design. Suiza. Editorial Rotovision. ISBN 2-88046-817
- Han Brezet, Carolien Van Hemel. 1997. Ecodesign. A promising approach to sustainable production and consumption. United Nations Publications, Paris Henrik Wenzel; Michael Hauschild; Leo Alting.1997. Environmental Assessment of Products (vol.1). Methodology, tools and case studies in product development. Chapman & Hall
- Bilitewski, B., Härdtle, G., Marek, K., Weissbach, A., Boeddicker, H. Waste management. 1997. Springer (Germany).
- Lund, H. F., Manual McGraw-Hill de reciclaje. McGraw-Hill/Interamericana de España. 1996. (Madrid).
- Landreth, R. E., Rebers, P. A. Municipal Solid Wastes. Problems and Solutions.CRC Press, Inc., 1997. (USA)
- Solid waste processing and resource recovery. Handbook of environmental engineering. Vol 2. Lawrence K. Wang i Norman C. Pereira. Clifton (1980).
- Perry’s Chemical engineer’s handkook. (section 26-31).
- Roger Tim Haug. Compost engineering. Principles and practice. Technomic Publishing C.Inc. 1980. (Lancaster).
- Tchobanoglous, G., Theisen, H., Vigil, S. Gestión integral de residuos sólidos. McGraw-Hill. Madrid (1994).
- Crdale to Cradle Product Innvoation Institute www.c2ccertified.org