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Journal of the Air & Waste Management Association Volume 55, 2005 - Issue 9
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Technical Paper

Properties of Pyrolytic Chars and Activated Carbons Derived from Pilot-Scale Pyrolysis of Used Tires

S.-Q. Li Key Laboratory of Thermal Science and Power Engineering, Department of Thermal Engineering, Tsinghua University, Beijing, ChinaCorrespondence[email protected]
,
Q. Yao Key Laboratory of Thermal Science and Power Engineering, Department of Thermal Engineering, Tsinghua University, Beijing, China
,
S.-E. Wen State Key Laboratory of Clean Energy Utilization, Department of Energy Engineering, Zhejiang University, Hangzhou, China
,
Y. Chi State Key Laboratory of Clean Energy Utilization, Department of Energy Engineering, Zhejiang University, Hangzhou, China
&
J.-H. Yan State Key Laboratory of Clean Energy Utilization, Department of Energy Engineering, Zhejiang University, Hangzhou, China
Pages 1315-1326 | Published online: 02 Mar 2012

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Kirill B. Larionov, Konstantin V. Slyusarskiy, Aleksey A. Ivanov, Ilya V. Mishakov, Alexander Y. Pak, Stanislav A. Jankovsky, Vladimir O. Stoyanovskii, Aleksey A. Vedyagin & Vladimir E. Gubin. (2022) Comparative analysis of the characteristics of carbonaceous material obtained via single-staged steam pyrolysis of waste tires. Journal of the Air & Waste Management Association 72:2, pages 161-175.
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Tayyaba Aftab, Farzana Bashir, Rauf Ahmed Khan & Javed Iqbal. (2016) Treatment of color through the adsorption efficiency of waste tire-derived char using response surface methodology. Desalination and Water Treatment 57:22, pages 10324-10332.
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F.A. López, T.A. Centeno, O. Rodríguez & F.J. Alguacil. (2013) Preparation and characterization of activated carbon from the char produced in the thermolysis of granulated scrap tyres. Journal of the Air & Waste Management Association 63:5, pages 534-544.
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Articles from other publishers (34)

N.H. Zerin, M.G. Rasul, M.I. Jahirul & A.S.M. Sayem. (2023) End-of-life tyre conversion to energy: A review on pyrolysis and activated carbon production processes and their challenges. Science of The Total Environment 905, pages 166981.
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Valentina Gargiulo, Michela Alfe, Giovanna Ruoppolo, Francesco Cammarota, Cesare Oliviero Rossi, Valeria Loise, Michele Porto, Pietro Calandra, Mikolaj Pochylski, Jacek Gapinski & Paolino Caputo. (2023) How char from waste pyrolysis can improve bitumen characteristics and induce anti-aging effects. Colloids and Surfaces A: Physicochemical and Engineering Aspects 676, pages 132199.
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Isaac dos S. Nunes, Carlos Schnorr, Daniele Perondi, Marcelo Godinho, Julia C. Diel, Lauren M. M. Machado, Fabíola B. Dalla Nora, Luis F. O. Silva & Guilherme L. Dotto. (2022) Valorization of Different Fractions from Butiá Pomace by Pyrolysis: H2 Generation and Use of the Biochars for CO2 Capture. Molecules 27:21, pages 7515.
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Fatma Pınar Goksal. (2022) An economic analysis of scrap tire pyrolysis, potential and new opportunities. Heliyon 8:11, pages e11669.
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Md. Maksudur Rahman, Yun Yu & Hongwei Wu. (2022) Valorisation of Waste Tyre via Pyrolysis: Advances and Perspectives. Energy & Fuels 36:20, pages 12429-12474.
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K. B. Larionov, K. V. Slyusarskiy, M. V. Kirgina, D. V. Gvozdyakov, I. A. Bogdanov, A. V. Zenkov, S. A. Yankovsky & V. E. Gubin. (2021) Liquid Hydrocarbons Production by the Steam Pyrolysis of Used Tires: Energy Characteristics and Environmental Sustainability. Waste and Biomass Valorization 13:4, pages 2233-2251.
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Somi Doja, Lava Kumar Pillari & Lukas Bichler. (2022) Processing and activation of tire-derived char: A review. Renewable and Sustainable Energy Reviews 155, pages 111860.
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Rongjie Chen, Hang Li, Kaile Li, Shiyu Zhang, Qinghai Li, Hui Zhou & Yanguo Zhang. (2022) Hydrothermal Liquefaction of Scrap Tires: Optimization of Reaction Conditions and Recovery of High Value-Added Products. Frontiers in Energy Research 10.
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Reyna Berenice González-González, Lucy Teresa González, Marc Madou, César Leyva-Porras, Sergio Omar Martinez-Chapa & Alberto Mendoza. (2022) Synthesis, Purification, and Characterization of Carbon Dots from Non-Activated and Activated Pyrolytic Carbon Black. Nanomaterials 12:3, pages 298.
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Michał Ryms, Katarzyna Januszewicz, Elżbieta Haustein, Paweł Kazimierski & Witold M. Lewandowski. (2022) Thermal properties of a cement composite containing phase change materials (PCMs) with post-pyrolytic char obtained from spent tyres as a carrier. Energy 239, pages 121936.
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Krzysztof Kuśmierek, Andrzej Świątkowski, Tomasz Kotkowski, Robert Cherbański & Eugeniusz Molga. (2021) Adsorption on activated carbons from end-of-life tyre pyrolysis for environmental applications. Part II. Adsorption from aqueous phase. Journal of Analytical and Applied Pyrolysis 158, pages 105206.
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Isabelle Jones, Mingming Zhu, Juan Zhang, Zhezi Zhang, Jorge Preciado-Hernandez, Jian Gao & Dongke Zhang. (2021) The application of spent tyre activated carbons as low-cost environmental pollution adsorbents: A technical review. Journal of Cleaner Production 312, pages 127566.
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Krzysztof Kuśmierek, Andrzej Świątkowski, Tomasz Kotkowski, Robert Cherbański & Eugeniusz Molga. (2021) Adsorption on activated carbons from end-of-life tyre pyrolysis for environmental applications. Part I. preparation of adsorbent and adsorption from gas phase. Journal of Analytical and Applied Pyrolysis 157, pages 105205.
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Reyna Berenice González-González, Nadia Ruiz-Gómez, Gloria Gea, Matias Vazquez-Pinon, Sergio O. Martinez-Chapa, Porfirio Caballero & Alberto Mendoza. (2021) Valorization of Waste Tires by Pyrolysis and Activation Processes. Applied Sciences 11:14, pages 6342.
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Tafadzwa Mkungunugwa, Shepherd Manhokwe, Armistice Chawafambira & Munyaradzi Shumba. (2021) Synthesis and Characterisation of Activated Carbon Obtained from Marula (Sclerocarya birrea) Nutshell. Journal of Chemistry 2021, pages 1-9.
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Zhiwei Wang, Kiran G. Burra, Xueqin Li, Mengju Zhang, Xiaofeng He, Tingzhou Lei & Ashwani K. Gupta. (2020) CO2-assisted gasification of polyethylene terephthalate with focus on syngas evolution and solid yield. Applied Energy 276, pages 115508.
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M. Irfan, M. Siddiqui, F. Bashir, M. T. Butt & N. Abbas. (2020) Efficient removal of hydrogen sulfide from wastewater using waste-tire-derived rubber particles. International Journal of Environmental Science and Technology 17:7, pages 3515-3524.
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Ramez Abdallah, Adel Juaidi, Mahmoud Assad, Tareq Salameh & Francisco Manzano-Agugliaro. (2020) Energy Recovery from Waste Tires Using Pyrolysis: Palestine as Case of Study. Energies 13:7, pages 1817.
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Abeer M. Abdul Ameer. (2019) Removal of mixture of phenolic compounds from aqueous solution by tire char adsorption. IOP Conference Series: Materials Science and Engineering 518:6, pages 062011.
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Mohamed El Saied, Ahmed M.A. El Naggar, F.I. Elhosiny & Fathy Y. El kady. (2019) A comprehensive investigation on biomass solid waste conversion to a novel catalyst for hydrothermal production of bio-fuel feedstock. Journal of Cleaner Production 218, pages 157-166.
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Xue Zhang, Hengxiang Li, Qing Cao, Li’e Jin & Fumeng Wang. (2018) Upgrading pyrolytic residue from waste tires to commercial carbon black. Waste Management & Research: The Journal for a Sustainable Circular Economy 36:5, pages 436-444.
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R. Acosta, D. Nabarlatz, A. Sánchez-Sánchez, J. Jagiello, P. Gadonneix, A. Celzard & V. Fierro. (2018) Adsorption of Bisphenol A on KOH-activated tyre pyrolysis char. Journal of Environmental Chemical Engineering 6:1, pages 823-833.
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Maria A. Zazycki, Marcelo Godinho, Daniele Perondi, Edson L. Foletto, Gabriela C. Collazzo & Guilherme L. Dotto. (2018) New biochar from pecan nutshells as an alternative adsorbent for removing reactive red 141 from aqueous solutions. Journal of Cleaner Production 171, pages 57-65.
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Zhengyu Jin, Fengmin Chang, Fanlin Meng, Cuiping Wang, Yao Meng, Xiaoji Liu, Jing Wu, Jiane Zuo & Kaijun Wang. (2017) Sustainable pyrolytic sludge-char preparation on improvement of closed-loop sewage sludge treatment: Characterization and combined in-situ application. Chemosphere 184, pages 1043-1053.
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Mohammad Abdul Aziz, Rami Ali Al-khulaidi, MM Rashid, M.R Islam & MAN Rashid. (2017) Design and fabrication of a fixed-bed batch type pyrolysis reactor for pilot scale pyrolytic oil production in Bangladesh. IOP Conference Series: Materials Science and Engineering 184, pages 012056.
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Pejman Hadi, Kit Ying Yeung, Jiaxin Guo, Huaimin Wang & Gordon McKay. (2016) Sustainable development of tyre char-based activated carbons with different textural properties for value-added applications. Journal of Environmental Management 170, pages 1-7.
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Rolando Acosta, Claudia Tavera, Paola Gauthier-Maradei & Debora Nabarlatz. (2015) Production of Oil and Char by Intermediate Pyrolysis of Scrap Tyres: Influence on Yield and Product Characteristics. International Journal of Chemical Reactor Engineering 13:2, pages 189-200.
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Vasiliki Makrigianni, Aris Giannakas, Yiannis Deligiannakis & Ioannis Konstantinou. (2015) Adsorption of phenol and methylene blue from aqueous solutions by pyrolytic tire char: Equilibrium and kinetic studies. Journal of Environmental Chemical Engineering 3:1, pages 574-582.
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Li Li, Yujing Liu, Jiaping Wang, Shuangxi Liu & Tan Zhu. (2013) Adsorption characteristics of activated carbon derived from scrap tires for malachite green: Influence of small organics. Transactions of Tianjin University 19:6, pages 425-429.
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M.P. Luda. 2012. Waste Electrical and Electronic Equipment (WEEE) Handbook. Waste Electrical and Electronic Equipment (WEEE) Handbook 239 263 .
O.S. Chan, W.H. Cheung & G. McKay. (2011) Preparation and characterisation of demineralised tyre derived activated carbon. Carbon 49:14, pages 4674-4687.
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Li Li, Shuangxi Liu & Tan Zhu. (2010) Application of activated carbon derived from scrap tires for adsorption of Rhodamine B. Journal of Environmental Sciences 22:8, pages 1273-1280.
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Mariluz Betancur, Juan Daniel Martínez & Ramón Murillo. (2009) Production of activated carbon by waste tire thermochemical degradation with CO2. Journal of Hazardous Materials 168:2-3, pages 882-887.
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William J. Hall, Norasalwa Zakaria & Paul T. Williams. (2009) Pyrolysis of latex gloves in the presence of Y-zeolite. Waste Management 29:2, pages 797-803.
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