The Energy Use Of Granulate And Pyrolysis Oil From Discarded Car Tires As A Method To Increase Ecological And Energy Safety

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On average, there are about 60 kg of rubber in a passenger car, about 67% of which are tires, about 20% of all kinds body seals, doors and windows, suspension elements amount to 5%, the rest are other elements related to the engine (seals, hoses, wires, pads, etc.). Rubber waste is too valuable resource to direct to landfills. The vast majority of recovery of used tires in Poland (over 70%) is carried out by burning tires with energy recovery. Tires in the form of granulate, mixed with coal dust, are burn in some combined heat and power plants. The paper presents results of experimental studies of possible use for energy purposes, granules and pyrolysis oil the resulting from discarded car tires for increasing ecological and energy safety. Energy properties of granulates and pyrolysis oil were investigated and the shape and size of granulate particles were analyzed. For this purpose, digital image processing (CAMSIZER device) and calorimeter were used. It was found that the products of tire recycling decommissioned from exploitationare the high-energy material with good calorific value. Based on the results of experimental studies, application conditions of rubber waste for energy purposes was formulated.

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  • Amari T. Themelis N. J. Wernick I. K. 1999. Resource recovery from used rubber tires. Resources Policy 25 179-188

  • Bignozzi M. C. Sandrolini F. 2006. Tyre rubber waste recycling in self-compacting concrete. Cement and Concrete Research 36(4) 735-739

  • Flizikowski J. 1999. Comminution of plastics in the recycling process Polymers 44(6) 397-402.

  • Flizikowski J. Topoliński T. Opielak M. Tomporowski A. Mroziński A. 2015. Research and analysis of operating characteristics of energetic biomass micronizer. Eksploatacja i Niezawodnosc – Maintenance and Reliability 17(1) 19–26 https://10.17531/ein.2015.1.3.

  • Formela K. Haponiuk J. Stankiewicz P. Stasiek A. 2011. Continuous devulcanization of ground rubber tire waste. Przemysl Chemiczny 90(12) 2175-2178.

  • Ivan G. 2012. Some aspects of tyre impact on environment: production service and recycling. Elastomery 6(4-5) 24-38.

  • Macko M. Flizikowski J. Szczepanski Z. Tyszczuk K. Smigielski G. Mrozinski A. Czerniak J. Tomporowski A. 2017. CAD/CAE Applications in Mill's Design and Investigation. Proceedings of 13th International Scientific Conference: Computer Aided Engineering Springer International Publishing Switzerland 343-351.

  • Marczuk A. Caban J. Savinykh P. Turubanov N. Zyryanov D. 2017. Maintenance research of a horizontal ribbon mixer. Eksploatacja i Niezawodnosc-Maintenance and Reliability 19(1) 121-125

  • Marczuk. A. Misztal W. Słowik T. Piekarski W. Bojanowska M. Jackowska I. 2015. Chemical determinants of the use of recycled vehicle components. Przemysl Chemiczny 94(10) 1867-1871

  • Miranda M. Cabrita I. Pinto F. Gulyurtlu I. 2013. Mixtures of rubber tyre and plastic wastes pyrolysis: A kinetic study. Fuel 103 542-552

  • Seidelt S. Müller-Hagedorn M. Bockhorn H. 2006. Description of tire pyrolysis by thermal degradation behaviour of main components. Journal of Analytical and Applied. Pyrolysis 75(1) 11-18

  • Sharma V. K. Fortuna F. Mincarini M. Berillo M. Cornacchia G. 2000. Disposal of waste tyres for energy recovery and safe environment. Applied Energy 65(1-4) 381-94

  • Sunthonpagasit N. Duffey M. R. 2004. Scrap tires to crumb rubber: feasibility analysis for processing facilities. Resources Conservation and Recycling 40(4) 281-299

  • Szymański M. Szymczak M. Łukasiewicz J. 2006. Zbiór zadań z termodynamiki. Wydawnictwa Uczelniane ATR Bydgoszcz.

  • Tomporowski A. Flizikowski J. Kasner R. Kruszelnicka W. 2017. Environmental control of wind power technology. Rocznik Ochrona Srodowiska 19 694-714.

  • Tomporowski A. Flizikowski J. Kruszelnicka W. 2017. A new concept of roller-plate mills. Przemysl Chemiczny 96(8) 1750-1755

  • Tomporowski A. Flizikowski J. Opielak M. Kasner R. Kruszelnicka W. 2017. Assessment of Energy use and elimination of CO2 emissions in the life cycle of an offshore wind power plant farm. Polish Maritime Research 24(4) 93-101

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