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Production of combustible fuels and carbon nanotubes from plastic wastes using an in-situ catalytic microwave pyrolysis process

by Shoukat, Bilal , Rahman, Saifur , Irfan, Muhammad , Ghanim, Abdulnour Ali Jazem , Hussain, Hammad , Jakubowski, Tomasz , Shukrullah, Shazia , Naz, Muhammad Yasin , Saleem, Rishmail , Nawalany, Grzegorz

in 639/166 / 639/4077 / 704/172 / Activated carbon / Alkanes / Aromatic compounds / Carbon / Catalysts / Gas chromatography / High density polyethylenes / Humanities and Social Sciences / Hydrocarbons / Hydrogen / multidisciplinary / Nanotechnology / Nanotubes / Plastic debris / Polypropylene / Pyrolysis / Science / Science (multidisciplinary) / X-ray diffraction / Zeolites

2023

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Production of combustible fuels and carbon nanotubes from plastic wastes using an in-situ catalytic microwave pyrolysis process

2023

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Production of combustible fuels and carbon nanotubes from plastic wastes using an in-situ catalytic microwave pyrolysis process

2023

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Journal Article

Production of combustible fuels and carbon nanotubes from plastic wastes using an in-situ catalytic microwave pyrolysis process

Shoukat, Bilal,

Rahman, Saifur,

Irfan, Muhammad,

Ghanim, Abdulnour Ali Jazem,

Hussain, Hammad,

Jakubowski, Tomasz,

Shukrullah, Shazia,

Naz, Muhammad Yasin,

Saleem, Rishmail,

Nawalany, Grzegorz

2023

Overview

This study performed in-situ microwave pyrolysis of plastic waste into hydrogen, liquid fuel and carbon nanotubes in the presence of Zeolite Socony Mobil ZSM-5 catalyst. In the presented microwave pyrolysis of plastics, activated carbon was used as a heat susceptor. The microwave power of 1 kW was employed to decompose high-density polyethylene (HDPE) and polypropylene (PP) wastes at moderate temperatures of 400–450 °C. The effect of plastic composition, catalyst loading and plastic type on liquid, gas and solid carbon products was quantified. This in-situ CMP reaction resulted in heavy hydrocarbons, hydrogen gas and carbon nanotubes as a solid residue. A relatively better hydrogen yield of 129.6 mmol/g as a green fuel was possible in this process. FTIR and gas chromatography analysis revealed that liquid product consisted of C 13+ fraction hydrocarbons, such as alkanes, alkanes, and aromatics. TEM micrographs showed tubular-like structural morphology of the solid residue, which was identified as carbon nanotubes (CNTs) during X-ray diffraction analysis. The outer diameter of CNTs ranged from 30 to 93 nm from HDPE, 25–93 nm from PP and 30–54 nm for HDPE-PP mixure. The presented CMP process took just 2–4 min to completely pyrolyze the plastic feedstock into valuable products, leaving no polymeric residue.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ 704/172

/ Alkanes

/ Carbon