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ORIGINAL PAPER
Characteristics of waste after pyrolysis of tyres and analysis of its potential use
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Instytut Gospodarki Surowcami Mineralnymi i Energią PAN, Pracownia Geochemii Stosowanej i Inżynierii Środowiska, Kraków
 
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AGH Akademia Górniczo-Hutnicza, Wydział Energetyki i Paliw, Kraków
 
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Politechnika Lubelska, Wydział Budownictwa i Architektury, Lublin
 
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SBB ENERGY SA, Opole
 
 
Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk 2018;107:19-31
 
 
REFERENCES (28)
1.
Al-Rahbi, A.S. i Williams, P.T. 2016. Production of activated carbons from waste tyres for low temperature NOx control. Waste Manag. 49, 188–195. [Online] https://doi.org/10.1016/j.wasm... [Dostęp: 2.09.2018].
 
2.
Annex XV Report 2017 – Rubber Granules Evaluation (Ver. 1.01). [Online] https://echa.europa.eu/docu ments/10162/13563/annexes_to_axv_report_rubber+granules_en.pdf/f3cc9f58-8ab3-8e4a-0258-51466817f0fd [Dostęp: 25.07.2018].
 
3.
Bojanowska, I. 1998. Odzyskiwanie chromu(VI) ze ścieków z wykorzystaniem ekstrakcji ketonem metyloizobutylowy. Przemysł Chemiczny t. 7, s. 262–265.
 
4.
Cordero i in. 2001 – Cordero, T., Marquez, F., Rodriguez-Miraso, J. 2001. Predicting heating values of lignocellulosic sand carbonaceous materials from proximate analysis. Fuel t. 80, s. 1567–1571.
 
5.
De Marco Rodriguez i in. 2001 – De Marco Rodriguez, I., Laresgoiti, M.F., Cabrero, M.A., Torres, A., Chomón, M.J. i Caballero, B. 2001. Pyrolysis of scrap tyres. Fuel Processing Technology 72(1), s. 9–22.
 
6.
Dębowski, Z. 2008. Węgiel aktywny w ochronie środowiska i przemyśle. Częstochowa: Wyd. Politechniki Częstochowskiej.
 
7.
Dimpe i in. 2017 – Dimpe, K.M., Ngila, J.C. i Nomngongo, P.N. 2017. Application of waste tyre-based activated carbon for the removal of heavy metals in wastewater. Cogent Eng. t. 4, s. 1–11. [Online] https://doi.org/10. 1080/23311916.2017.1330912 [Dostęp: 2.09.2018].
 
8.
Downard i in. 2015 – Downard, J., Singh, A., Bullard, R., Jayarathne, T., Rathnayake, C.M., Simmons, D.L., Wels, B.R., Spak, S.N., Peters, T., Beardsley, D., Stanier, C.O. i Stone, E.A. 2015. Uncontrolled combustion of shredded tires in a landfill – Part 1: Characterization of gaseous and particulate emissions. Atmospheric Environment t. 104, s. 195–204.
 
9.
ETRMA 2015 – End-of-life Tyre Report 2015. [Online] http://www.etrma.org/library-2 [Dostęp: 15.05.2018].
 
10.
ETRMA 2018 – Material recovery of ELTs 2016–2018. [Online] http://www.etrma.org/tyres/ELT... [Dostęp: 26.08.2018].
 
11.
Flapper i in. 2015 – Flapper, S.D.P., van Nunen, J.A.E.E. i Van Wassenhove, L.N. 2005. Managing Closed-Loop Supply Chains. Berlin, Heidelberg: Springer Berlin Heidelberg. ISBN 978-3-540-27251-9.
 
12.
Fortuniak i in. 2018 – Fortuniak, W., Pospiech, P., Mizerska, U., Chojnowski, J., Slomkowski, S., Nyczyk-Malinowska, A., Wojteczko, A., Wisla-Walsh, E. i Hasik, M. 2018. Generation of meso- and microporous structures by pyrolysis of polysiloxane microspheres and by HF etching of SiOC microspheres. Ceramics International t. 44(1), s. 374–383.
 
13.
Gallup, J. i Hutson, N. 2004. Getting Mercury Out of Coal Combustion Gases. EPA Region 5 Science Forum. Chicago s. 1–40.
 
14.
Gupta i in. 2011 – Gupta, V.K., Gupta, B., Rastogi, A., Agarwal, S. i Nayak, A., 2011. Pesticides removal from waste water by activated carbon prepared from waste rubber tire. Water Res. t. 45, s. 4047–4055. [Online] https://doi.org/10.1016/j.watr... [Dostęp: 2.09.2018].
 
15.
Gupta i in. 2014 – Gupta, V.K., Nayak, A., Agarwal, S. iTyagi, I. 2014. Potential of activated carbon from waste rubber tire for the adsorption of phenolics: Effect of pre-treatment conditions. J. Colloid Interface Sci. t. 417, s. 420–430. [Online] https://doi.org/10.1016/j.jcis... [Dostęp: 2.09.2018].
 
16.
Hamadi i in. 2001 – Hamadi, N.K., Chen, X.D., Farid, M.M. i Lu, M.G.Q. 2001. Adsorption kinetics for the removal of chromium(VI) from aqueous solution by adsorbents derived from used tyres and sawdust. Chem. Eng. J. t. 84, s. 95–105. [Online] https://doi.org/10.1016/S1385-... [Dostęp: 2.09.2018]
 
17.
. Ilnicka i in. 2016 – Ilnicka, A., Okonski, J., Cyganiuk, A.W., Patyk, J. i Lukaszewicz, J.P. 2016. Zinc Regarding the Utilization of Waste Tires by Pyrolysis. Pol. J. Environ. Stud. t. 25(6), s. 2683–2687.
 
18.
Kaminsky, W. i Mennerich, C. 2001. Pyrolysis of synthetic tire rubber in a fluidised-bed reactor to yield 1,3-butadiene, styrene and carbon black. Journal of Analytical and Applied Pyrolysis 58–59, s. 803–811.
 
19.
Klinik, J. 2000. Tekstura porowatych ciał stałych. Kraków: AGH – Ośrodek Edukacji Niestacjonarnej.
 
20.
Kwiatkowski, J.F. 2011. Activated carbon: classifications, properties and applications. New York, USA: Nova Science Publishers Incorporated.
 
21.
Lin i in. 2006 – Lin, H.-Y., Yuan, C.-S., Chen, W.-C. i Hung, C.-H. 2006. Determination of the Adsorption Isotherm of Vapor-Phase Mercury Chloride on Powdered Activated Carbon Using Thermogravimetric Analysis. J. Air Waste Manage. Assoc. t. 56, s. 1550–1557. [Online] https://doi.org/10.1080/104732... [Dostęp: 2.09.2018].
 
22.
Manocha, S.M. 2003. Porous carbons. Sadhana t. 28(1–2), s. 335–348.
 
23.
Nkosi i in. 2013 – Nkosi, N., Muzenda, E. i Zvimba, J. 2013. Using Tyre Derived Fuel: An Analysis of the Benefits. International Conference on Emerging Trends in Engineering and Technology, Phuket.
 
24.
Rowhani, A. i Rainey T. 2016. Scrap Tyre Management Pathways and Their Use as a Fuel – A Review. Energies 9(12), s. 888.
 
25.
Styszko i in. 2017 – Styszko, K., Baran, P., Sekuła, M. i Zarębska, K. 2017. Sorption of pharmaceuticals residues from water to char (scrap tires) impregnated with amines. E3S Web of Conferences 14, 02029, DOI: 10.1051/e3sconf/20171402029, s. 17–19.
 
26.
Williams, P.T. 2013. Pyrolysis of waste tyres : A review. Waste Management 33(8), s. 1714–1728.
 
27.
Wójtowicz, M. i Serio, M. 1996. Pyrolysis of scrap tyres: Can it be profitable? Marketplace s. 6.
 
28.
Wójtowicz i in. 2004 – Wójtowicz, M.A., Florczak, E., Kroo, E. i Serio, M.A., 2004. Activated Carbon From Waste Tires for Mercury Emissions Control.
 
ISSN:2080-0819
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