# Waste-derived zeolite from sugarcane bagasse ash and water treatment plant sludge for sustainable industrial dye removal

**Authors:** Joana Eliza de Santana, Antônio Elias dos Santos Neto, Fábio Gabriel Silva de Andrade, Aldebarã Fausto Ferreira, Marcos Gomes Ghislandi, Maurício Alves da Motta Sobrinho

PMC · DOI: 10.1007/s11356-026-37455-y · 2026-02-04

## TL;DR

This paper shows how to make a zeolite from industrial waste to efficiently remove dyes from water, offering a sustainable solution for wastewater treatment.

## Contribution

The novel contribution is the synthesis of a high-performance adsorbent from sugarcane bagasse ash and water treatment sludge for dye removal.

## Key findings

- The adsorbent achieved a maximum dye removal capacity of 250 mg·g−1.
- The material maintained performance over three regeneration cycles using a diluted NaOH solution.
- Competitive anions like sulfate and bicarbonate reduced dye uptake due to competitive adsorption.

## Abstract

This study presents a sustainable route for synthesizing zeolites by valorizing two abundant industrial residues: sugarcane bagasse ash and water treatment plant sludge. The synthesized material, primarily composed of sodalite as confirmed by XRD and SEM, was applied for the removal of Acid Red 27 (AR27), a synthetic dye widely used in the food, cosmetics, and household product industries. The adsorption kinetics followed a pseudo-second-order model, suggesting dependence on active site availability, while isotherm analysis indicated multilayer adsorption consistent with the BET model, with an adsorption capacity reaching 250 mg·g−1. Experiments conducted with competitive anions suggest the adsorption mechanism in the first layer predominantly involved electrostatic interactions; the dye structure suggests π–π stacking for subsequent layers. Coexisting anions, particularly sulfate and bicarbonate, significantly hindered AR27 uptake due to competitive adsorption. Importantly, the adsorbent maintained its performance over three regeneration cycles using a diluted NaOH solution (0.01 M). Compared to granular and powdered activated carbons, the synthesized zeolite exhibited superior performance, especially at medium to high contaminant loads. These findings highlight the potential of waste-derived zeolites as a low-cost, efficient, and environmentally friendly material for wastewater treatment, contributing to circular economy strategies and sustainable resource management.

The online version contains supplementary material available at 10.1007/s11356-026-37455-y.

## Linked entities

- **Chemicals:** Acid Red 27 (PubChem CID 13506), sulfate (PubChem CID 1117), bicarbonate (PubChem CID 769), NaOH (PubChem CID 14798)

## Full-text entities

- **Chemicals:** water (MESH:D014867), zeolite (MESH:D017641), sulfate (MESH:D013431), bicarbonate (MESH:D001639), activated carbons (-), AR27 (MESH:D000548), NaOH (MESH:D012972)

## Figures

17 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12982224/full.md

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Source: https://tomesphere.com/paper/PMC12982224