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Serbian Journal of Engineering Management
2018, vol. 3, br. 2, str. 1-12
Nova paradigma u recikliranju - inovativni pristup recikliranju plastičnog otpada u Srbiji
Latinović Luka
Univerzitet 'Union - Nikola Tesla', Fakultet za inženjerski menadžment - FIM, Beograd, Srbija

e-adresaluka@latinovic.rs
Ključne reči: recikliranje plastike; piroliza; zamena za dizel; ekološki
Sažetak
Ključni problemi recikliranja plastičnog otpada u Srbiji su neadekvatna zakonska regulativa i niska otkupna cena otpadne plastike koja ne predstavlja podsticaj za njeno sakupljanje u većoj meri. Ovaj rad predlaže metod za recikliranje plastike koji se bazira na pirolitičkoj konverziji plastičnog otpada u supstitute goriva kao primarni način reciklaže. Metod se ogleda u više različitih smernica za njegovu primenu. One su detaljno objašnjene i prikazane u ovom radu. Ukoliko bi zakonodavac prepoznao ovaj metod recikliranja kao društveno odgovorno poslovanje i uneo određene izmene u zakonskoj regulativi, i ukoliko bi navedene smernice bile ispoštovane, implementacijom ovog metoda mogao bi se stvoriti prostor za veću otkupnu cenu plastičnog otpada. Ekonomski posmatrano, viša cena otkupa povećala bi ponudu, odnosno podstakla sakupljanje plastičnog otpada u većoj meri što bi imalo pozitivan ekološki efekat uz ekonomsku opravdanost.
Reference

*** (2015/2017) Uredba o obeležavanju (markiranju) derivata nafte / Decree on the marking of oil derivatives. Sl. glasnik RS, no. 51/2015 and 5/2017

*** (2014) Uredba o planu smanjenja ambalažnog otpada za period od 2015. do 2019. godine / Regulation on the establishment of the packaging reduction plan for the period from 2015 to 2019. Sl. glasnik RS, no. 144

*** (2017) Odluka o regulisanoj ceni električne energije na garantovanom snabdevanju 01.10.2017 / Decision on regulated price of electricity for guaranteed supply. Sl. glasnik RS, no. 79

*** (2018) Zakon o akcizama / Law on excises. Sl. glasnik RS, no. 18

Almeida, D., Marques, M.D. (2016) Thermal and catalytic pyrolysis of plastic waste. Polímeros, 26(1): 44-51

Blazsó, M. (2006) Composition of Liquid Fuels Derived from the Pyrolysis of Plastics. u: Scheirs John, Kaminsky Walter [ur.] Feedstock Recycling and Pyrolysis of Waste Plastics, Chichester, UK: Wiley, 315-344

Buekens, A.G., Schoeters, J.G. (1998) Technical methods in plastics pyrolysis. Macromolecular Symposia, 135(1): 63-81

Demirbas, A. (2004) Pyrolysis of municipal plastic wastes for recovery of gasoline-range hydrocarbons. Journal of Analytical and Applied Pyrolysis, 72(1): 97-102

Donaj, P.J., Kaminsky, W., Buzeto, F., Yang, W. (2012) Pyrolysis of polyolefins for increasing the yield of monomers' recovery. Waste Management, 32(5): 840-84

Fivga, A., Dimitriou, I. (2018) Pyrolysis of plastic waste for production of heavy fuel substitute: A techno-economic assessment. Energy, 149: 865-874

Hürdoğan, E., Ozalp, C., Kara, O., Ozcanli, M. (2017) Experimental investigation on performance and emission characteristics of waste tire pyrolysis oil-diesel blends in a diesel engine. International Journal of Hydrogen Energy, 42(36): 23373-23378

Ilić, M., Nikolić, M. (2016) Waste management benchmarking: A case study of Serbia. Habitat International, 53: 453-460

Islam, M.R., Parveen, M., Haniu, H., Sarker, M.R. (2010) Innovation in Pyrolysis Technology for Management of Scrap Tire: A Solution of Energyand Environment. International Journal of Environmental Science and Development, 1(1): 89-96

Kaimal, V.K., Vijayabalan, P. (2015) A detailed study of combustion characteristics of a DI diesel engine using waste plastic oil and its blends. Energy Conversion and Management, 105(15): 951-956

Keane, M.A. (2007) Catalytic conversion of waste plastics: Focus on waste PVC. Journal of Chemical Technology & Biotechnology, 82(9): 787-795

Lee, S., Yoshida, K., Yoshikawa, K. (2015) Application of Waste Plastic Pyrolysis Oil in a Direct Injection Diesel Engine: For a Small Scale Non-Grid Electrification. Energy and Environment Research, 5(1)

Lin, H., Huang, M., Luo, J., Lin, L., Lee, C., Ou, K. (2010) Hydrocarbon fuels produced by catalytic pyrolysis of hospital plastic wastes in a fluidizing cracking process. Fuel Processing Technology, 91(11): 1355-1363

Mani, M., Subash, C., Nagarajan, G. (2009) Performance, emission and combustion characteristics of a DI diesel engine using waste plastic oil. Applied Thermal Engineering, 29(13): 2738-2744

Marco, I.D., Caballero, B., Torres, A., Laresgoiti, M.F., Chomón, M.J., Cabrero, M.A. (2002) Recycling polymeric wastes by means of pyrolysis. Journal of Chemical Technology & Biotechnology, 77(7): 817-824

Menges, G., Berndtsen, N. (1977) Polyvinyl Chloride - Processing And Structure. 597-613

Miandad, R., Barakat, M., Aburiazaiza, A.S., Rehan, M., Ismail, I., Nizami, A. (2016) Effect of plastic waste types on pyrolysis liquid oil. International Biodeterioration & Biodegradation, 119: 239-252

Muhammad, C., Onwudili, J.A., Williams, P.T. (2015) Thermal Degradation of Real-World Waste Plastics and Simulated Mixed Plastics in a Two-Stage Pyrolysis-Catalysis Reactor for Fuel Production. Energy & Fuels, 29(4): 2601-2609

Owusu, P.A., Banadda, N., Zziwa, A., Seay, J., Kiggundu, N. (2018) Reverse engineering of plastic waste into useful fuel products. Journal of Analytical and Applied Pyrolysis, 130: 285-293

Papuga, S., Gvero, P., Vukic, L. (2016) Temperature and time influence on the waste plastics pyrolysis in the fixed bed reactor. Thermal Science, 20(2): 731-741

Plastic Europe - Association of plastic manufacturers (2018) Plastics - The facts. 01.04., Publication for 2017, retrieved from

1

Prokić, D., Mihajlov, A. (2012) Contaminated sites. Practice of solid waste management in a developing country (Serbia). Environment Protection Engineering, 38(1), 81e90

Scheirs, J. (2006) Overview of Commercial Pyrolysis Processes for Waste Plastics. u: Scheirs John, Kaminsky Walter [ur.] Feedstock Recycling and Pyrolysis of Waste Plastics, Chichester, UK: Wiley, 381-433

Sogancioglu, M., Ahmetli, G., Yel, E. (2017) A Comparative Study on Waste Plastics Pyrolysis Liquid Products Quantity and Energy Recovery Potential. Energy Procedia, 118: 221-226

Stauffer, E. (2003) Concept of pyrolysis for fire debris analysts. Science & Justice, 43(1): 29-40

van den Berg, M., Birnbaum, L.S., Denison, M., de Vito, M., Farland, W., Feeley, M., Fiedler, H., Hakansson, H., Hanberg, A., Haws, L., Rose, M., Safe, S., Schrenk, D., Tohyama, C., Tritscher, A. (2006) The 2005 World Health Organization Reevaluation of Human and Mammalian Toxic Equivalency Factors for Dioxins and Dioxin-Like Compounds. Toxicological Sciences, 93(2): 223-241

Vorkapic, R., Ocic, O., Kurcubic, L. (2006) 'Business plan', Competition for the best technology innovation in 2006 in Serbia

Vorkapic, R., Ocic, O., Kursubic, L., Jovanović, B. (2010) Serbia: A new process for waste rubber and plastic recycling. Perspectives of Innovations, Economics and Business, 4(4): 105-108

Vujić, G., Jovicić, N., Babić, M., Stanisavljević, N., Batinić, B., Pavlović, A. (2010) Assessment of plastic flows and stocks in Serbia using material flow analysis. Thermal Science, 14 (Suppl): 89-95

Williams, E.A., Williams, P.T. (1997) The pyrolysis of individual plastics and a plastic mixture in a fixed bed reactor. Journal of Chemical Technology & Biotechnology, 70(1), 9-20. doi:10.1002/(sici)1097-4660(199709)70:13.3.co;2-5

Wu, J., Chen, T., Luo, X., Han, D., Wang, Z., Wu, J. (2014) TG/FTIR analysis on co-pyrolysis behavior of PE, PVC and PS. Waste Management, 34(3): 676-682

Xingzhong, Y. (2006) Converting Waste Plastics into Liquid Fuel by Pyrolysis: Developments in China. u: Scheirs John, Kaminsky Walter [ur.] Feedstock Recycling and Pyrolysis of Waste Plastics, Chichester, UK: Wiley, 729-755
   

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.5937/SJEM1802001L
objavljen u SCIndeksu: 28.02.2019.

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