Efficiency of H2O2-treated eucalyptus biochar on the removal of Cu(II), Cd(II) and Ni(II) from aqueous solution

Souza, Elias Costa de; Pimenta, Alexandre Santos; Silva, A.J.F.; Braga, Renata Martins; Azevêdo, Tatiane Kelly Barbosa de; Neto, Praxedes

doi:10.5039/agraria.v15i3a6530

Cited by 2 publications

(1 citation statement)

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“…Removal efficiency of metals and organic molecules from aqueous solutions varies widely according to biochar feedstock, pyrolysis temperature, and experimental conditions (Exhibit 6), indicating the need to evaluate biochar adsorption potential for different contaminants. Furthermore, biochar chemical modification or its use in composite materials can significantly increase removal efficiency of nutrients, toxic metals, and organic molecules (Nardis et al., 2021; Souza et al., 2020). Also, biochar anchored with Ti oxides has been used for adsorption and photocatalytic degradation of organic molecules (Lazarotto et al., 2020).…”

Section: Discussionmentioning

confidence: 99%

A data synthesis on the biochar properties and implications for air, soil, and water quality in Brazil

Pôggere

Santana

Barbosa

et al. 2022

Environmental Quality Mgmt

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Biochar has been intensively researched worldwide. In Brazil, there is a variety of feedstock production that can be turned into soil amendments of high performance through biochar conversion, especially solid wastes. However, advances in biochar research in Brazil have not been systematically evaluated to indicate possible gaps and suggest future research for eco-friendly applications. Thus, in this work we evaluated biochar properties and effects on air, water, and soil quality based on data gathered from researches performed in Brazil. Biochar has been mainly evaluated as soil conditioner (37%), material characterization (17%), water treatment (12%), and greenhouse gases emissions (9%). Based on the data synthesis of 68 feedstocks used for biochar production, we observed that the pyrolysis temperature profoundly affects biochar properties. Meta-analysis indicated benefits of biochar addition to soils for chemical, physical, microbiological and biochemical attributes that have resulted in increases in root growth (+30%), and plant shoots (+45%). Pyrolysis temperature and feedstock are key choices to design biochar properties aiming to retain dyes, aromatic hydrocarbon, pesticides, and metals in water and wastewater treatment. It was also observed an increase in CO 2 and a decrease in N 2 O emissions after biochar application to soils in short-term experiments. Although there is a growing interest in the development of electrochemical sensors and biochar-based fertilizers, technological applications of biochar are still incipient in Brazil. Future research should prioritize long-term and mechanistically evaluations of biochar under field conditions and the development of eco-friendly technological applications.

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Section: Discussionmentioning

confidence: 99%