Sana Kordoghli scite author profile

In this article, correlation between the influence of catalysts on waste tires pyrolysis at small-and laboratory-scale installation are highlighted. Kinetic and thermodynamic parameters of tires rubber thermochemical transformations were evaluated using thermogravimetric analyses (TGA). For that purpose, Zeolite (ZSM-5), alumina (Al 2 O 3 ), calcium carbonate (CaCO 3 ), and magnesium oxide (MgO) were used as catalyst. It was found that all catalysts induce a delayed onset of pyrolytic process and MgO and CaCO 3 significantly reduced the activation energy (E a ) from 246.89 kJÁmole 21 (thermal pyrolysis) to 121.82 and 128.34 kJÁ mole 21 , respectively. At laboratory scale, a fixed-bed reactor was used to distinguish how the contact manner between tires and catalysts influences the yield of pyrolysis products as well as the gas quality. It was proved that CaCO 3 and Al 2 O 3 are the most suitable catalysts for increasing the gas fraction, while the MgO promotes the formation of liquid fraction.

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Novel Catalytic Systems for Waste Tires Pyrolysis: Optimization of Gas Fraction

Kordoghli

Paraschiv

Tazerout

et al. 2016

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Impact of different catalysis supported by oyster shells on the pyrolysis of tyre wastes in a single and a double fixed bed reactor

Kordoghli

Khiari²,

Paraschiv

et al. 2017

Waste Management

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Sana Kordoghli

Catalysts' influence on thermochemical decomposition of waste tires

Novel Catalytic Systems for Waste Tires Pyrolysis: Optimization of Gas Fraction

Impact of different catalysis supported by oyster shells on the pyrolysis of tyre wastes in a single and a double fixed bed reactor

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