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Influence of metal oxide catalyst on co-pyrolysis of biomass and COVID-19 waste

Publication Type : Journal Article

Publisher : Environmental Technology

Source : Environmental Technology, pp. 1-12. IF: 3.5

Url : https://www.tandfonline.com/doi/full/10.1080/09593330.2022.2151941

Campus : Coimbatore

School : School of Engineering

Department : Mechanical Engineering

Year : 2022

Abstract : The disposal of waste generated by the COVID-19 pandemic is still a challenge to the government in most countries. The present study shines its light on the catalytic effect of metal oxide on converting COVID-19 waste i.e. used face masks into valuable products through co-pyrolysis. The co-pyrolysis trial was carried out for a mixture of waste face mask (WFM) and Moringa oleifera (MO) biomass at a constant temperature of 450°C for 15 min of resident time. This investigation focuses on studying the catalytic effect of calcium oxide (CaO) on the by-products of the pyrolysis process. From the FT-IR studies, it is observed that the CaO catalyst assisted to reduce oxygen as well as sulphur and carboxylic acids in the bio-oil due to its strong basic nature. The FE-SEM images suggest the increase in porous structure with catalytic pyrolysis (CP) char compared to non-catalytic pyrolysis (NCP) char. The catalytic activity of CaO increased the alcoholic content with a reduction in aldehydes and ketones in the bio-oil. The addition of WFM to the biomass with CaO catalyst pyrolysis (CP) delivered a higher oil yield of 52% compared to non-catalytic pyrolysis (NCP).

Cite this Research Publication : Tamilarasan, N., Sakthivel, R., &Balaji, K. (2022). Influence of metal oxide catalyst on co-pyrolysis of biomass and COVID-19 waste. Environmental Technology, pp. 1-12. IF: 3.5

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