Preparation and Characterization of Cattail-Derived Biochar and Its Application for Cadmium Removal

Wang, Xiaoshu; Yan, Zhaoxiong; Song, Lingchao; Wang, Yangyang; Zhu, Jun; Xu, Nan; Wang, Jinsheng; Chang, Ming; Wang, Lei

doi:10.3390/su13169307

Cited by 5 publications

(1 citation statement)

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“…Once entering the aquatic ecosystem, cadmium inhibits plant growth by affecting photosynthesis and enzyme activities, and finally damages the key organs of animal organism and restrains metabolism. According to statistics, the farmland field with Cd pollution has exceeded 20×10 4 hm 2 ( Wang et al, 2021 ). Adsorption has been proved a cost-effective technology to duce the toxicity and chemical activity of Cd pollution in the media, with the advantages of being widely available, high affinity, simple design, and easy operation ( Che et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Adsorption behavior of biochar pyrolyzed from barracuda grass for cadmium ions

et al. 2022

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This work investigated the removal of cadmium ions (Cd2+) by using biochar derived from Barracuda Grass. The biochars derived from the pyrolysis of roots (BGR), stems (BGS) and leaves (BGL) were characterized and their performance for cadmium adsorption was studied at varying parameters of temperature, time, and alkali (earth) metal concentrations. The maximum adsorption amount at equilibrium of BGR, BGS and BGL was determined experimentally as 8.38 mg/g, 42.12 mg/g, and 30.39 mg/g. Adsorption fitting results revealed that Cd2+ adsorbed on BGR and BGS preferred to be multilayer-covered, and BGL was more likely to have monolayer-covered functions. The kinetic data fitted well to the pseudo-second-order model (R2 > 0.99), revealing the adsorption process was a spontaneous monolayer chemisorption process. The results of alkaline (earth) metals leaching of biochar revealed that the inherent alkaline (earth) metals in biochar made inhibitory functions on the Cd2+ adsorption behavior by occupying the active sites. And in the process of wastewater treatment, the leaching of alkaline earth metals might enhance the complexation reaction between surface groups and Cd2+. This study provides a feasible strategy for the resource utilization of abundant hydrophytic plants in waste management.

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Section: Introductionmentioning

confidence: 99%

Adsorption behavior of biochar pyrolyzed from barracuda grass for cadmium ions

et al. 2022

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Remediation of emerging pollutants using biochar derived from aquatic biomass for sustainable waste and pollution management: a review

Verma,

Singh,

Dhanorkar

2023

J of Chemical Tech & Biotech

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The Coronavirus disease pandemic over the last three years has shifted the attention of the entire world population from a self‐centred monitory growth to a holistic growth, with health and environment as the central focus. Pharmaceuticals and microplastics have emerged as most prominent environmental contaminants in recent times. Although adsorption is recognized globally as a low cost and effective remediation process, the removal of a variety of pollutants from environmental niche still remains a challenge. This review highlights the use of valorised waste aquatic biomass as an adsorbent for the withdrawal of various emerging pollutants (pharmaceuticals, microplastics and heavy metals). The unwanted invasive aquatic plants can be used as a valuable resource and converted into an ideal precursor and value product for the development of carbon‐based adsorbents that have numerous industrial and environmental applications. There lacks a comprehensive review and analysis on the use of biochar, derived from aquatic biomass, for the extraction of emerging pollutants, especially for microplastics. This distinctive, timely work will aid in the expansion of research on the production of biochar from a waste resource, strengthen their use as adsorbent and help combat the increasing pollution due to various emerging pollutants, including pharmaceuticals and microplastics.This article is protected by copyright. All rights reserved.

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