Catalytic pyrolysis of waste tire using HY/MCM-41 core-shell composite

[1]  S. Jitkarnka,et al.  Impacts of nickel supported on different zeolites on waste tire-derived oil and formation of some petrochemicals , 2016 .

[2]  S. Jitkarnka,et al.  Valuable petrochemicals, petroleum fractions, and sulfur compounds in oils derived from waste tyre pyrolysis using five commercial zeolites as catalysts: impact of zeolite properties , 2015, Clean Technologies and Environmental Policy.

[3]  D. Zhao,et al.  Core–shell composites of USY@Mesosilica: Synthesis and application in cracking heavy molecules with high liquid yield , 2013 .

[4]  Rajasekhar Balasubramanian,et al.  Liquefaction of waste tires by pyrolysis for oil and chemicals—A review , 2013 .

[5]  Anjie Wang,et al.  Hydrodesulfurization of dibenzothiophene catalyzed by Pd supported on overgrowth-type MCM-41/HY composite , 2010 .

[6]  S. Wongkasemjit,et al.  Roles of ruthenium on catalytic pyrolysis of waste tire and the changes of its activity upon the rate of calcination , 2010 .

[7]  S. Wongkasemjit,et al.  Light olefins and light oil production from catalytic pyrolysis of waste tire , 2009 .

[8]  M. Arabiourrutia,et al.  Catalyst Effect on the Composition of Tire Pyrolysis Products , 2008 .

[9]  Jing-jie Ren,et al.  Hydrodesulfurization of dibenzothiophene catalyzed by Ni-Mo sulfides supported on a mixture of MCM-41 and HY zeolite , 2008 .

[10]  Liang-cai,et al.  Pyrolysis of waste tyres with zeolite USY and ZSM-5 catalysts , 2007 .

[11]  Tim C. Keener,et al.  Carbon Distribution from the Pyrolysis of Tire-Derived Fuels , 2006 .

[12]  Biju M. Devassy,et al.  Shape selective synthesis of long-chain linear alkyl benzene (LAB) with AlMCM-41/Beta zeolite composite catalyst , 2006 .

[13]  P. Williams,et al.  Characterization of Oils, Gases, and Char in Relation to the Pyrolysis of Different Brands of Scrap Automotive Tires , 2005 .

[14]  Subhash Bhatia,et al.  Synthesis of composite material MCM-41/Beta and its catalytic performance in waste used palm oil cracking , 2004 .

[15]  Paul T. Williams,et al.  Aromatic chemicals from the catalytic pyrolysis of scrap tyres , 2003 .

[16]  Paul T. Williams,et al.  Catalytic pyrolysis of tyres: influence of catalyst temperature , 2002 .

[17]  Peter R. Solomon,et al.  Reprocessing of used tires into activated carbon and other products , 1995 .

[18]  S. Jitkarnka,et al.  Cu-doped catalysts and their impacts on tire-derived oil and sulfur removal , 2015 .

[19]  Paul T. Williams,et al.  Composition of oils derived from the batch pyrolysis of tyres , 1998 .