Miguel Costa Nogueira scite author profile

A char produced from spent tire rubber showed very promising results as an adsorbent of Remazol Yellow (RY) from aqueous solutions. Spent tire rubber was submitted to a pyrolysis process optimized for char production. The obtained char was submitted to chemical, physical, and textural characterizations and, subsequently, applied as a low-cost adsorbent for dye (RY) removal in batch adsorption assays. The obtained char was characterized by relatively high ash content (12.9% wt), high fixed-carbon content (69.7% wt), a surface area of 69 m2/g, and total pore volume of 0.14 cm3/g. Remazol Yellow kinetic assays and modelling of the experimental data using the pseudo-first and pseudo-second order kinetic models demonstrated a better adjustment to the pseudo-first order model with a calculated uptake capacity of 14.2 mg RY/g char. From the equilibrium assays, the adsorption isotherm was fitted to both Langmuir and Freundlich models; it was found a better fit for the Langmuir model to the experimental data, indicating a monolayer adsorption process with a monolayer uptake capacity of 11.9 mg RY/g char. Under the experimental conditions of the adsorption assays, the char presented positive charges at its surface, able to attract the deprotonated sulfonate groups (SO3−) of RY; therefore, electrostatic attraction was considered the most plausible mechanism for dye removal.

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Recovery of Cr(III) by using chars from the co-gasification of agriculture and forestry wastes

Godinho

Nogueira

Bernardo

et al. 2019

Environ Sci Pollut Res

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Miguel Costa Nogueira

New adsorbents from maize cob wastes and anaerobic digestate for H2S removal from biogas

Char from Spent Tire Rubber: A Potential Adsorbent of Remazol Yellow Dye

Recovery of Cr(III) by using chars from the co-gasification of agriculture and forestry wastes

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