Valorization of Solid Wastes from Textile Industry as an Adsorbent Through Activated Carbon Production

Parmakoğlu, Emire Ülkü; Çay, Ahmet; Yanık, Jale

doi:10.1177/24723444221147983

Cited by 6 publications

(3 citation statements)

References 56 publications

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“…64 PET-containing textiles and blends can also be treated by hydrothermal carbonisation yielding activated carbon with applications to pollutant adsorption and smart textiles conception. [65][66][67] Solvolysis, requires water use, alcohols (mainly methanol or ethylene glycol), or amines. The reaction mechanism for PET depolymerisation consists of three nucleophilic substitution steps.…”

Section: Global Overviewmentioning

confidence: 99%

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Chemical recycling of polyester textile wastes: shifting towards sustainability

El Darai,

Ter-Halle,

Blanzat

et al. 2024

Green Chem.

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Section: Global Overviewmentioning

confidence: 99%

Section: Chemical Recycling Of Polyester Fibresmentioning

confidence: 99%

Chemical recycling of polyester textile wastes: shifting towards sustainability

El Darai,

Ter-Halle,

Blanzat

et al. 2024

Green Chem.

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“…It is noteworthy that a mere 242 articles, less than 0.001%, focus on dye recovery, with the majority concentrating on repurposing waste for dye treatment using alternative methods. Only a fraction of these articles address the recovery of solid waste from the textile industry [443,444]. Marazzi et al [445] propose the use of algae for the treatment of dyes and their subsequent transformation into energy in biogas plants through anaerobic digestion.…”

mentioning

confidence: 99%

Use of Zero-Valent Iron Nanoparticles (nZVIs) from Environmentally Friendly Synthesis for the Removal of Dyes from Water—A Review

Rodríguez-Rasero,

Montes-Jimenez,

Alexandre-Franco

et al. 2024

Water

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This review article addresses the increasing environmental concerns posed by synthetic dyes in water, exploring innovative approaches for their removal with a focus on zero-valent iron nanoparticles (nZVIs) synthesized through environmentally friendly methods. The article begins by highlighting the persistent nature of synthetic dyes and the limitations of conventional degradation processes. The role of nanoparticles in environmental applications is then discussed, covering diverse methods for metallic nanoparticle production aligned with green chemistry principles. Various methods, including the incorporation of secondary metals, surface coating, emulsification, fixed support, encapsulation, and electrostatic stabilization, are detailed in relation to the stabilization of nZVIs. A novel aspect is introduced in the use of plant extract or biomimetic approaches for chemical reduction during nZVI synthesis. The review investigates the specific challenges posed by dye pollution in wastewater from industrial sources, particularly in the context of garment coloring. Current approaches for dye removal in aqueous environments are discussed, with an emphasis on the effectiveness of green-synthesized nZVIs. The article concludes by offering insights into future perspectives and challenges in the field. The intricate landscape of environmentally friendly nZVI synthesis has been presented, showcasing its potential as a sustainable solution for addressing dye pollution in water.

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