Valorization of Waste Tires via Catalytic Fast Pyrolysis Using Palladium Supported on Natural Halloysite

Abstract: We report for the first time Pd nanoparticles (NPs) supported on natural halloysite as catalysts for selective production of p-cymene from waste tire pyrolysis (WTP). The catalysts were prepared by dispersing Pd NPs on either the inner (PdHin, 3.4 nm) or outer surface (PdHout, 1.6 nm) of halloysite nanotubes to produce different acid–base properties. The performance of these catalysts for WTP was studied by micropyrolysis coupled to mass spectrometry (Py-GC/MS) between 400 and 500 °C and for discrete times (2,… Show more

“…This process is typically applied to produce monoaromatic compounds by using zeolite catalysts, such as xylene, benzene, toluene, etc. 1,17,18…”

“…This process is typically applied to produce monoaromatic compounds by using zeolite catalysts, such as xylene, benzene, toluene, etc. 1,17,18 Apart from this, various pyrolysis methods are being developed to effectively convert tires into char, gases, and oils. 19,20 One such technology is vacuum pyrolysis, which involves using negative pressure to release volatiles from solid waste and reducing their residence time in the reactor.…”

Hydrogen production by waste tire recycling by photo-pyrolysis

“…This process is typically applied to produce monoaromatic compounds by using zeolite catalysts, such as xylene, benzene, toluene, etc. 1,17,18…”

“…This process is typically applied to produce monoaromatic compounds by using zeolite catalysts, such as xylene, benzene, toluene, etc. 1,17,18 Apart from this, various pyrolysis methods are being developed to effectively convert tires into char, gases, and oils. 19,20 One such technology is vacuum pyrolysis, which involves using negative pressure to release volatiles from solid waste and reducing their residence time in the reactor.…”

Hydrogen production by waste tire recycling by photo-pyrolysis

Synthesis and Characterization of Cu@Hal, an Effective Heterogeneous Catalyst for Aqueous Multicomponent Azide‐Alkyne [3+2] Cycloaddition Reactions

Gold nanoparticle–decorated earth-abundant clay nanotubes as catalyst for the degradation of phenothiazine dyes and reduction of 4-(4-nitrophenyl)morpholine