Waste Management and Sustainability
A.Y. 2024/2025
Learning objectives
Agricultural waste are organic matters which, through clean technology, can be recycled either by integrated waste utilization or simply returned to the place of their origin, nature. Agro wastes can usually be managed to be free of non-natural material, and so they could be appropriately recycled either by physical or biological means.
Clean technology can be implemented to minimize waste, thereby increasing productivity and reducing the unit cost of the product. Successful application of clean technology requires full support from management and full commitment from the clean technology team.
Clean technology can be implemented to minimize waste, thereby increasing productivity and reducing the unit cost of the product. Successful application of clean technology requires full support from management and full commitment from the clean technology team.
Expected learning outcomes
At the end of the course, students will be able to identify the differences in clean technology propose mitigation strategies to control environmental impact caused by agro wastes, apply appropriate methodologies for the evaluation of sustainable strategies in different scenarios, identify the fundamental principles underpinning modern waste management and work effectively as a member of a multi-disciplinary team
Lesson period: First semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course can be attended as a single course.
Course syllabus and organization
Single session
Responsible
Lesson period
First semester
Course syllabus
Biomass
Waste materials from plants or animals not used for food or feed, from agriculture or horticulture, food processing, animal husbandry, or human waste from sewage treatment plants, can be enhanced in a circular economy perspective.
Waste treatments
Aerobic and anaerobic storage techniques, anaerobic digestion, aerobic biological treatment for nitrogen removal.
The principle of the processes, types of plant, and management.
Removal of moisture and stabilization: dehydration and composting. Extraction of mineral fertilizers from the liquid fraction of the slurry.
Composting technologies, industrial-scale composting, aerated static pile composting, vermicomposting, or windrow composting. Phytodepuration.
Resource recovery of organic waste for feed and food application
The use of the organic waste in animal feed, as strategy to reduce the carbon footprint of meat production. Agricultural residues, agro-industrial by-products (co-products, by-products) and food waste material: assessing what organic waste can be recycled into feed. Animal species and specific constraints on the use of organic waste as feed and potential feed safety problems for these species. Recovery of bioactive compounds from vegetable waste as feed additive (e.g. antioxidants, etc), to guarantee animal health. Nutritional consideration and evaluation of agro waste.
Former food. Foodstuffs no longer intended for human consumption and which do not present any health risks when used as feed: use restriction, authorized feed uses, and required treatments,.
Fruit and Vegetable waste. Utilization as animal feedstuffs. Utilization of fruit and vegetable wastes as livestock feed and for generation of value-added ingredients. Bioconversion of fruit and vegetable waste into terrestrial invertebrates as new feed-food for animals (pet and livestock) and human.
Catering waste, household waste: treatment for pet food.
Processing and transformation. Processes and biotechnologies application enabling efficient and effective recovery systems.
Regulatory and non-regulatory tools: rules for the placing on the market of feed from organic waste recovery.
Risk assessment and safety concerns.
Design new products compliant with the relevant requirements of the feed industry.
Waste materials from plants or animals not used for food or feed, from agriculture or horticulture, food processing, animal husbandry, or human waste from sewage treatment plants, can be enhanced in a circular economy perspective.
Waste treatments
Aerobic and anaerobic storage techniques, anaerobic digestion, aerobic biological treatment for nitrogen removal.
The principle of the processes, types of plant, and management.
Removal of moisture and stabilization: dehydration and composting. Extraction of mineral fertilizers from the liquid fraction of the slurry.
Composting technologies, industrial-scale composting, aerated static pile composting, vermicomposting, or windrow composting. Phytodepuration.
Resource recovery of organic waste for feed and food application
The use of the organic waste in animal feed, as strategy to reduce the carbon footprint of meat production. Agricultural residues, agro-industrial by-products (co-products, by-products) and food waste material: assessing what organic waste can be recycled into feed. Animal species and specific constraints on the use of organic waste as feed and potential feed safety problems for these species. Recovery of bioactive compounds from vegetable waste as feed additive (e.g. antioxidants, etc), to guarantee animal health. Nutritional consideration and evaluation of agro waste.
Former food. Foodstuffs no longer intended for human consumption and which do not present any health risks when used as feed: use restriction, authorized feed uses, and required treatments,.
Fruit and Vegetable waste. Utilization as animal feedstuffs. Utilization of fruit and vegetable wastes as livestock feed and for generation of value-added ingredients. Bioconversion of fruit and vegetable waste into terrestrial invertebrates as new feed-food for animals (pet and livestock) and human.
Catering waste, household waste: treatment for pet food.
Processing and transformation. Processes and biotechnologies application enabling efficient and effective recovery systems.
Regulatory and non-regulatory tools: rules for the placing on the market of feed from organic waste recovery.
Risk assessment and safety concerns.
Design new products compliant with the relevant requirements of the feed industry.
Prerequisites for admission
No specific prerequisites required
Teaching methods
Traditional Lectures and workgroups
ECOMONDO meeting attendance, the green technology expo, RIMINI
Visits to livestocks farm
ECOMONDO meeting attendance, the green technology expo, RIMINI
Visits to livestocks farm
Teaching Resources
Scientific papers and other supporting documents will be indicated and suggested during the course (available on ARIEL).
Assessment methods and Criteria
- Case study presentation: the case study is related to the in-depth study of the topics covered in the course
- The exam is written, with 20 multiple choice questions
- The exam is written, with 20 multiple choice questions
AGR/10 - RURAL BUILDINGS AND AGRO - FOREST LAND PLANNING - University credits: 2
AGR/13 - AGRICULTURAL CHEMISTRY - University credits: 1
AGR/18 - ANIMAL NUTRITION AND FEEDING - University credits: 3
AGR/13 - AGRICULTURAL CHEMISTRY - University credits: 1
AGR/18 - ANIMAL NUTRITION AND FEEDING - University credits: 3
Practicals: 16 hours
Lessons: 40 hours
Lessons: 40 hours
Professors:
Lovarelli Daniela, Tedesco Doriana Eurosia Angela
Educational website(s)
Professor(s)
Reception:
by appointment
Office