Experimental and theoretical studies on nitrate removal using epichlorohydrin-modified cross-linked chitosan derived from shrimp waste

Nitrates level in water is a worldwide problem that represents a risk to the environment and people’s health; efforts are currently devoted to the development and implementation of new biomaterials for their removal. In this study, chitosan (Ch) from shrimp waste and the related epichlorohydrin-modi...

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Veröffentlicht in:	Environmental science and pollution research international 2023-10, Vol.30 (49), p.107772-107789
Hauptverfasser:	EL Kaim Billah, Rachid, Lgaz, Hassane, Jiménez, Daniel Goma, Pal, Preeti, Trujillo-Navarrete, Balter, Ahrouch, Mohammadi, Algethami, Jari S., Abdellaoui, Youness, Majdoubi, Hicham, Alrashdi, Awad A., Agunaou, Mahfoud, Soufiane, Abdessadik, López-Maldonado, Eduardo Alberto
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Schlagworte:	adsorbents Adsorption Anions Aquatic Pollution Aqueous solutions Atmospheric Protection/Air Quality Control/Air Pollution biocompatible materials Biomaterials Biomedical materials Chitosan chlorides crosslinking Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Epichlorohydrin Nitrate removal Nitrates Nitrogen removal Nutrient removal Research Article risk shrimp Shrimps sulfates temperature Waste Water Technology wastes Water Management Water Pollution Control
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creator	EL Kaim Billah, Rachid Lgaz, Hassane Jiménez, Daniel Goma Pal, Preeti Trujillo-Navarrete, Balter Ahrouch, Mohammadi Algethami, Jari S. Abdellaoui, Youness Majdoubi, Hicham Alrashdi, Awad A. Agunaou, Mahfoud Soufiane, Abdessadik López-Maldonado, Eduardo Alberto
description	Nitrates level in water is a worldwide problem that represents a risk to the environment and people’s health; efforts are currently devoted to the development and implementation of new biomaterials for their removal. In this study, chitosan (Ch) from shrimp waste and the related epichlorohydrin-modified crossover chitosan (Ch-EPI) were used to remove nitrates from aqueous solutions. The mechanism of selective nitrate removal was elucidated and validated by theoretical calculations. The physicochemical performance of Ch and Ch-EPI was investigated through the main parameters pH, adsorption capacity, contact time, initial nitrate concentration, coexisting anions, and temperature. The experimental data were fitted to widely used adsorption kinetic models and adsorption isotherms. The maximum percentage of nitrate adsorption was reached at an equilibrium pH of 4.0 at an adsorbent dose of 2.0 g/L after a contact time of 50 min. Competing anion experiments show that chloride and sulfate ions have minimal and maximal effects on nitrate adsorption by Ch-EPI. Experimental adsorption data are best fitted to pseudo-second-order kinetic and isothermal Langmuir models. The maximum adsorption capacities of Ch and Ch-EPI for nitrate removal were 12.0 mg/g and 38 mg/g, respectively.
doi_str_mv	10.1007/s11356-023-29896-6
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subjects	adsorbents Adsorption Anions Aquatic Pollution Aqueous solutions Atmospheric Protection/Air Quality Control/Air Pollution biocompatible materials Biomaterials Biomedical materials Chitosan chlorides crosslinking Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Epichlorohydrin Nitrate removal Nitrates Nitrogen removal Nutrient removal Research Article risk shrimp Shrimps sulfates temperature Waste Water Technology wastes Water Management Water Pollution Control
title	Experimental and theoretical studies on nitrate removal using epichlorohydrin-modified cross-linked chitosan derived from shrimp waste
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