Development of knowledge-based web services to promote advance Industrial Symbiosis in Europe eSYMBIOSIS

1. Development of knowledge-based web services to promote advance Industrial Symbiosis in EuropeeSYMBIOSIS Technical Meeting CLMS HELLAS Tuesday, 26th July 2011

2. Introduction Main Objective: To produce a web based platform for Industrial Symbiosis communities, offering automation, supporting SMEs, considering regional priorities and enabling the public administrators (municipalities, regional offices) to implement their environmental policy and to monitor environmental and economic consequences. Project implementation: Greece, UK Project Budget: 1.763.295,00 € Duration:36 months, Start date: 01/10/2010 - End date: 30/09/2013 EC Funding: 878.047 € (49,8% of Total Project Budget)

3. Action 1: Deliverables & Milestones Start: 01.10.2010, End: 30.06.2011, Duration: 9 months SERVICE & USER REQUIREMENTS Activities Activity 1.1: Review regional profile for the target region by evaluating clusters of companies involved and types of data available. Selection of sample cases for validation of the web platform performance (NTUA) Activity 1.2: Review NISP practices from the viewpoint of waste and solution representation (All beneficiaries) Activity 1.3: Review NISP practices from the viewpoint of workflows and metrics used (L2E) Activity 1.4: Identification of user requirement and web service functionality (NTUA) Deliverables Milestones Recording, analysis, assessment of industrial clusters in target countries Date of completion: 30.06.2011 Recording, analysis, assessment of existing practices & operation in terms of IS in the UK and internationally COMPLETED Completion of requirements specification for the components and the system (service) Date of completion: 30.06.2011 Requirements set for the components, web platform Date of completion: 30.06.2011

4. Deliverable 1.2 - NTUA • Recording, analysis and assessment of industrial clusters in target countries (Viotia Prefecture - Greece)

5. Unit 1 • Review of the regional profile of Viotia in connection to its industrial activity and the regional priorities – • General presentation of Viotia Prefecture

6. Περιοχή μελέτης ATHENS

7. General profil of studied region Viotia is one of the fifty-one prefectures of Greece and a heavily industrialized region northern to Attica expanding on an area of 3.211 square kilometers with a population of approximately 135.000 residents according to the general census of 1991. The region of Viotia lacks up to now any thorough planning and monitoring system for the control of area’s industries with regard to waste management and environmental supervision. A viable and efficient practice to control and mitigate the faults that the current situation gives birth to, is to incorporate industrial waste materials through Industrial Symbiosis (IS) practices.

8. Unit 2 • Recording, analysis and presentation of industries being involved in the survey, classification of industrial sectors

9. Distribution of Industrial Sectors in Viotia

11. SLUDGE AMOUNT STAKOD => NACE CODING INDUSTRIAL ACTIVITY WATER CONSUMPTION AND WASTEWATER TREATMENT S/N: Serial number

12. Waste as raw materials and the opposite Raw materials could be used in eSymbiosis database Solid waste occurs by production process of a plant Industrial or municipal sludge is used in Industrial Symbiosis framework

15. Unit 3 • Analysisofindustriesbeingselectedascasestudiesfortheverificationoftheefficiencyofthewebplatformwithregardtotheirproductionprocessesandvarioustypesofwaste

16. NISP success stories – Food Industry

17. Food Industries-Waste Fields

18. Food Industries Waste Uses Current situation Sludge used as compost Cooking oil used in biodiesel production Potential Use of Waste and by-products Sludge from waste treatment could be used as alternative fuel to cement industry. Industrial symbiosis approach to enrich waste trade

19. Existing data of solid wastes for companies in studied area – Food and Beverage Industry

20. Representative unit – Food and Beverage Industry Solid waste  Raw materials for another industry Existing data of solid waste for companies in studied area

21. NISP success stories – Metal Industry

22. Metallurgical Industries-Waste Fields

23. Metallurgical Industries Waste Uses Current situation Al skimming is recycled Most solid Wastes are recycled (Scrap, cables, batteries) Potential Use of Waste and by-products Sludge from waste treatment could be used as alternative fuel to cement industry, probably also to road construction sector. Advanced sorting technologies( for various types of scrap) have potential to add economic value to secondary processing of scrap and increase scrap consumption and company cost savings. Industrial symbiosis approach to enrich waste trade

24. NISP success stories – Chemical Industry

25. Chemical Industries-Waste Fields

26. Chemical Industries Waste Uses Current situation Sludge used as compost Polyurethane treatment goes to landfill Lubricant disposal by waste management company Sludge and Filters are also sent abroad for disposal Plastic packaging material is recycled Potential Use of Waste and by-products Sludge from waste treatment could be used as alternative fuel to cement industry. Industrial symbiosis approach to enrich waste trade

27. Unit 4 • General Solid Wastes Classification per industrial sector – Industrial sludge production in studied area

29. Industrial sludge production in studied area

30. Conclusions – Next steps • Check of methodology • Solid waste data collection • Keywords for online database • NISP success stories application (pilot project) • Ontologies creation • Launching event • Action 2

31. Thank you for your attention Oroposbeach