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Enhanced wastewater bioremediation by a sulfur-based copolymer as scaffold for microalgae immobilization (AlgaPol)

António Léon-Vaz, Juan Cubero‐Cardoso, Ángeles Trujillo-Reyes, Fernando G. Fermoso, Rosa León, Christiane Funk, Javier Vigara, Juan Urbano

2023Chemosphere25 citationsDOIOpen Access PDF

Abstract

In recent years, there has been an increasing concern related to the contamination of aqueous ecosystems by heavy metals, highlighting the need to improve the current techniques for remediation. This work intends to address the problem of removing heavy metals from waterbodies by combining two complementary methodologies: adsorption to a copolymer synthesized by inverse vulcanization of sulfur and vegetable oils and phytoremediation by the microalga Chlorella sorokiniana to enhance the metal adsorption. After studying the tolerance and growth of Chlorella sorokiniana in the presence of the copolymer, the adsorption of highly concentrated Cd2+ (50 mg L−1) by the copolymer and microalgae on their own and the combined immobilized system (AlgaPol) was compared. Additionally, adsorption studies have been performed on mixtures of the heavy metals Cd2+ and Cu2+ at a concentration of 8 mg L−1 each. AlgaPol biofilm is able to remove these metals from the growth medium by more than 90%. The excellent metal adsorption capacity of this biofilm can be kinetically described by a pseudo-second-order model.

Topics & Concepts

Chlorella sorokinianaAdsorptionChemistryCopolymerBioremediationSulfurBiosorptionEnvironmental remediationWastewaterChlorellaEnvironmental chemistryContaminationOrganic chemistryEnvironmental scienceEnvironmental engineeringAlgaePolymerBotanySorptionBiologyEcologyAlgal biology and biofuel production
Enhanced wastewater bioremediation by a sulfur-based copolymer as scaffold for microalgae immobilization (AlgaPol) | Litcius