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Catalytic steam reforming of waste tire pyrolysis volatiles using a tire char catalyst for high yield hydrogen-rich syngas

Yukun Li, Paul T. Williams

2024Fuel Processing Technology18 citationsDOIOpen Access PDF

Abstract

The production of hydrogen and syngas (H 2 /CO) from waste tires by pyrolysis catalytic steam reforming was investigated in a two-stage fixed bed reactor. In this study, tire char served as a sacrificial catalyst, facilitating the combination of catalytic steam reforming and char steam gasification reactions. The tire char acted as both a catalyst and a gasification reactant, enhancing the gas product yield. The process parameters investigated were, a reforming temperature range of 700–1000 °C, steam space velocity between 2 and 12 g h −1 g −1 char and reaction times of 0.5–2 h. The influence of the parameters on the yield and composition of the product gases and the characteristics of the used catalyst were analyzed in detail. The results indicated that higher temperature and steam space velocity increased H 2 and CO yields in the presence of a tire char catalyst. Elemental analysis of the used tire char, surface morphology and pore structure provided insights into the extent of tire char consumption in the reaction. Prolonged reaction time allowed for more thorough reactions between the pyrolysis volatiles and tire char, promoting the production of H 2 . At a reaction time of 2 h, the H 2 yield reached 223 mmol g −1 , representing 74 wt% of the maximum hydrogen yield. • Pyrolysis-catalytic steam reforming of waste tires produces high H 2 and syngas yield. • Tire char catalyst is gasified (sacrificed) to enhance H 2 and syngas yield. • Higher temperature and steam inputs increased H 2 and CO yields. • H 2 yield of 223 mmol g −1 , representing 74 wt% of the theoretical maximum H 2 yield.

Topics & Concepts

CharCatalysisSyngasYield (engineering)PyrolysisSyngas to gasoline plusChemical engineeringHydrogenWaste managementSteam reformingMaterials scienceChemistryHydrogen productionPulp and paper industryOrganic chemistryMetallurgyEngineeringCatalysts for Methane ReformingThermochemical Biomass Conversion ProcessesCatalysis and Hydrodesulfurization Studies
Catalytic steam reforming of waste tire pyrolysis volatiles using a tire char catalyst for high yield hydrogen-rich syngas | Litcius