Tire industry products as an alternative fuel

• Autorzy: Slusarczyk B. , Baryn M. , Kot S.
• Języki publikacji: EN

Abstrakty

EN

One of the main requirements for products of the tire industry is durability. This feature is desirable in the operation phase, but causes problems during recycling. The tire degradation process takes tens of years, and their storage is associated with a risk of fire and the release of many hazardous substances to the atmosphere. It is therefore necessary to find methods for safe and environmentally sound management of this waste. One method for disposing of worn tires is to use them as alternative fuel. The purpose of this article is to identify ways of managing rubber waste in the countries of the European Union and defining the role and place of energy recovery in the economy of worn tire industry products.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2016
• Tom: 25
• Numer: 3
• Opis fizyczny: p.1263-1270,fig.,ref.

Twórcy

autor

Slusarczyk B.

• Faculty of Management, Czestochowa University of Technology, Armii Krajowej 19 B, 42-200 Czestochowa, Poland

autor

Baryn M.

• Faculty of Management, Czestochowa University of Technology, Armii Krajowej 19 B, 42-200 Czestochowa, Poland

autor

Kot S.

• Faculty of Management, Czestochowa University of Technology, Armii Krajowej 19 B, 42-200 Czestochowa, Poland

Bibliografia

• 1. ETRMA. European Tire & Rubber Industry. Statistics Edition 2013. 2013.
• 2. ETRMA. European Tire & Rubber Industry. Statistics Edition 2014. 2014.
• 3. BUDICA I., BUSU O.V., DUMITRU A., PURCARU M.L. Waste management as commitment and duty of citizens. Polish Journal of Management Studies. 11 (1), 7, 2015.
• 4. MEDDAH A., BEDNAR M., BALI A. Use of shredded rubber tire aggregates for roller compacted concrete pavement. Journal of Cleaner Production, 72, 187, 2014.
• 5. STEFANELLI N.O., JABBOUR C.J.C., DE SOUSA JABBOUR A.B.L. Green supply chain management and environmental performance of fi rms in the bioenergy sector in Brazil: An exploratory survey. Energy Policy, 75, 312, 2014.
• 6. BRZEZIŃSKI S., GRABARA J., KOT S. Outsourcing performance in the power plants. Elektroenergetika 2015, The 8th International Scientific Symposium on Electrical Power Engineering, 2015.
• 7. BRZEZIŃSKI S., GRABARA J., PIETRASIEŃSKI P. Concept of Sustainable Development as an Opportunity for Energy Sector in Poland. Metalurgia International 18 (11), 36, 2013.
• 8. MATUSZAK-FLEJSZMAN A., HADRYJAŃSKA B., GÓRNA J. Changes in Environmental Management after Poland’s Entry to the EU - the Example of Dairy Sector. Polish Journal of Environmental Studies. 22 (3), 782, 2013.
• 9. Directive 2008/98/EC of the European Parliament and of the Council of 19 November 2008 on waste and repealing certain Directives, 2008.
• 10. KULCZYCYKA J., LELEK Ł., LEWANDOWSKA A., ZAREBSKA J. Life Cycle Assessment of Municipal Solid Waste Management - Comparison of Results Using Different LCA Models. Polish Journal of Environmental Studies. 24 (1), 126, 2015.
• 11. DZIKUĆ M., PIWOWAR A., Life Cycle Assessment as an Eco-Management Tool within the Power Industry. Polish Journal of Environmental Studies. 24 (6), 2382, 2015.
• 12. RAMARAD S., KHALID M., RATNAM C.T., LUQMAN CHUAH A., RASAMI W. Waste tire rubber in polymer blends: A review on the evolution, properties and future. Progress in Materials Science. 72, 103, 2015.
• 13. http://www.etrma.org/tires/ELTs/ELT-management/ELTmanagement-schemes [online] (accessed. 02.12.2015).
• 14. GRONOWICZ J., KUBIAK T. Used tires recycling. Problemy Eksploatacji. 2, 9-16, 2007 [In Polish].
• 15. THE EUROPEAN TIRE RECYCLING ASSOCIATION. Introduction to Tire Recycling: 2013. Twenty years in tire recycling in the EU. no date.
• 16. TRZASKA E. Development of waste tires in road construction. Nafta-Gaz. 10, 949, 2010 [In Polish].
• 17. SHU X., HUANG B. Recycling of waste tire rubber in asphalt and portland cement concrete: An overview. Construction and Building Materials 67, 217, 2014.
• 18. LIN Ch., HUANG Ch.-L., SHERN Ch.-Ch. Recycling waste tire powder for the recovery of oil spills. Resources, Conservation and Recycling. 52, 1162, 2008.
• 19. AYDIN H., ILKIKIC C. Optimization of fuel production from waste vehicle tires by pyrolysis and resembling to diesel fuel by various desulfurization methods. Fuel. 102, 605, 2012.
• 20. VIHAR R., SELJAK T., OPRESNIK S.R., KATRASNIK T. Combustion characteristics of tire pyrolysis oil in turbo charged compression ignition engine. Fuel. 150, 226, 2015.
• 21. MARTINEZ J. D., RAMOS A., ARMAS O.,MURILLO R., GARCIA T. Potential for using a tire pyrolysis liquid-diesel fuel blend in a light duty engine under transient operation. Applied Energy. 130, 437, 2014.
• 22. UNDRI A., ROSI L., FREDIANI M., FREDIANI P. Upgraded fuel from microwave assisted pyrolysis of waste tire. Fuel. 115, 600, 2014.
• 23. BANAR M., AKYILDIZ V., OZKAN A., COKAYGIL Z., ONAY O. Characterization of pyrolytic oil obtained from pyrolysis of TDF (Tire Derived Fuel). Energy Conversion and Management. 62, 22, 2012.
• 24. WASILEWSKI R., STELMACH S. Energy recovery in combustion and co-combustion of waste tires industrial processes. Archiwum Gospodarki Odpadami i Ochrony Środowiska. 11 (2), 64, 2009 [In Polish].
• 25. PIPILIKAKI P., KATSIOTI M., PAPAGEORGIOU D., FRAGOULIS D., CHANIOTAKIS E. Use of tire derived fuel in clinker burning. Cement & Concrete Composites. 27, 843, 2005.

Identyfikatory

DOI

10.15244/pjoes/61543