Biosorption of cationic dyes BY1, BY2 and BG4 by moss Rhytidiadelphus squarrosus from binary solutions

Lucia Remenárová,Jozef Augustín,Martin Pipíška,Miroslav Horník

doi:10.36547/nbc.1132

Lucia Remenárová, Jozef Augustín + Show 2 more

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https://doi.org/10.36547/nbc.1132

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Abstract

A biosorbent prepared from moss Rhytidiadelphus squarrosus biomass was used for biosorption of cationic dyes – Malachite green (BG4), Auramine O (BY2) and Thioflavine T (BY1) from binary aqueous solutions. Sorption data obtained at non-equilibrium conditions were analyzed by Sheindorf-Rebuhn-Sheintuch (SRS) equation (competitive model for binary systems derived from Freundlich isotherm) and extended model of Freundlich isotherm. Following the comparison of coefficient of determination values (R2) as well as values of root mean squared error (RMSE), the extended model of Freundlich isotherm was more suitable for description of investigated binary systems BG4-BY1 (R2 BG4 = 0.983, R2 BY1 = 0.993) and BG4-BY2 (R2 BG4 = 0.976, R2 BY2 = 0.995). The competition coefficients aij, obtained from SRS model can be considered as a way to quantify mutual competitive interactions. The competition coefficients indicated that the presence of BY1 in binary system decreased the sorption of BG4 (aBY1,BG4 = 0.835) while presence of BG4 (aBG4,BY1 = 0.208) has less pronounced competitive effect on the sorption of BY1 onto biosorbent. Competition coefficients obtained for binary system BY1-BG4 indicate that BG4 (aBG4,BY2 = 0.186) was more significantly affected by the presence of BY2 (aBY2,BG4 = 1.167). Finally, equations used in this work were represented by the three-imensional biosorption isotherm surfaces.

Highlights

Pollution of water sources by many organic contaminants over the past decades has become an issue of growing importance
Our previous study concerned with the sorption of cationic dyes Thioflavine T (BY1), Auramine O (BY2) and Malachite green (BG4) from single aqueous solutions onto moss biosorbent and Freundlich and Langmuir isotherm models were used to describe the equilibrium characteristics of monocomponent adsorption
On the basis of the results obtained from single systems, Sheindorf-Rebuhn-Sheintuch (SRS) equation and extended model of Freundlich isotherm were chosen for analyzing equilibrium data and describing competitive effect of BG4, BY1 and BY2 in binary systems

Summary

Introduction

Pollution of water sources by many organic contaminants over the past decades has become an issue of growing importance. Our previous study concerned with the sorption of cationic dyes Thioflavine T (BY1), Auramine O (BY2) and Malachite green (BG4) from single aqueous solutions onto moss biosorbent and Freundlich and Langmuir isotherm models were used to describe the equilibrium characteristics of monocomponent adsorption. The Freundlich isotherm was found to represent the measured sorption data of BG4, BY1 and BY2 well (REMENÁROVÁ et al, 2009). Within this context, the aim of our work was to study the sorption of cationic dyes from binary aqueous solutions by moss Rhytidiadelphus squarrosus. On the basis of the results obtained from single systems, Sheindorf-Rebuhn-Sheintuch (SRS) equation and extended model of Freundlich isotherm were chosen for analyzing equilibrium data and describing competitive effect of BG4, BY1 and BY2 in binary systems

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