Removal of Some Heavy Metals From Aqueous Solution Using Biosorbent Materials and Nanoparticles

El-Nagar, Doaa Ahmed; Khalil, Gamal Abdel-Nasser; Shalaby, Thanaa I.; Ahmed, Azza Rashad; Ali, Wafaa H.

doi:10.21608/jalexu.2016.188165

Journal of the Advances in Agricultural Researches

2016

DOI: 10.21608/jalexu.2016.188165

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Removal of Some Heavy Metals From Aqueous Solution Using Biosorbent Materials and Nanoparticles

Doaa Ahmed El-Nagar

Gamal Abdel-Nasser Khalil

Thanaa I. Shalaby

et al.

Abstract: A batch sorption experiments were carried out to study the role of biosorbent and nano-particles on removal of some heavy metals from aqueous solution. The rice straw waste was used as biosorbent material( by-product of agricultural activity). In addition, Nano-Hydroxyapatite (60 nm) and nano-Zero Valent Iron (25 nm) were used as nanoparticles. The batch sorption was done using rice straw waste (RSW) with three sizes as 0.125, 0.25 and 0.5 mm with Pb 2+ and Ni 2+ with concentrations up to 28.14 and 100 mg/l, … Show more

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2021

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“…Hydroxyapatite nanoparticles (HapNPs) immobilize HM in contaminated soil. This is due to high adsorption capacity, high stability, and low water solubility (Doaa et al, 2016;Mobasherpour et al, 2011;Xenidis et al, 2010;Zhang et al, 2010). The application of HapNP decreased exchangeable and reducible fractions of Pb in the soil, and converted them into oxidizable, reducing their susceptibility to availability (Ling et al, 2017;Seleiman & Kheir, 2018).…”

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Remediation of heavy metals in contaminated soil by using nano‐bentonite, nano‐hydroxyapatite, and nano‐composite

El-Nagar

Abdel-Halim

2021

Land Degrad Dev

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Soil and water contaminants have an impact on ecosystems, agricultural productivity, groundwater, and human health. Therefore, it is necessary to develop new technologies to treat pollution, one of these techniques is the use of nanomaterials (NMs).This study aimed to evaluate the efficiency of bentonite nano-sheet structure (n-Be), hydroxyapatite nanoparticles (HapNP), and their nano-composite (n-Be/HapNC) on immobilizing nickel (Ni), copper (Cu), and lead (Pb) in peanut-cultivated soil. The prepared materials were characterized by X-ray powder diffraction, atomic force microscopy, surface area, and Fourier transform infrared. Eight levels of material were used T1 (bentonite, 1 t ha À1 ), T2 (hydroxyapatite, 1 t ha À1 ), T3 (HapNPs, 50 kg ha À1 ), T4 (HapNPs, 100 kg ha À1 ), T5 (n-Be, 50 kg ha À1 ), T6 (n-Be, 100 kg ha À1 ), T7 (n-Be/ HapNC, 50 kg ha À1 ), and T8 (n-Be/HapNC, 100 kg ha À1 ). The results indicated that the available Ni, Cu, and Pb showed a significant decline in the treated soil, in comparison to untreated. Levels of Ni exhibited a decrease in the following order: T8 < T6 < T7 < T5. Similar patterns were observed for Cu and Pb levels, where treatment T8 exhibited the greatest decline compared to the control. Uptake of heavy metals (HM) by peanut components (leaves, stems, and seeds) showed significant declines for the treatments, compared to the control. Treatment (n-Be/HapNC, 100 kg ha À1 ) showed the lowest transfer coefficient of Ni (0.53) and Cu (0.048) compared to control (0.71 and 0.097), respectively. Treatments of NMs significantly exhibited increases in fresh weight, pods, and seeds, compared to the control. From all findings, it is obtained that nano-forms of such materials can immobilize HM in contaminated soil, enhance its characteristics, decrease HM-uptake by plants, and are considered good immobilizers for HM in soil. These materials play a role in treating contaminated soil and thus making it suitable for agriculture.

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confidence: 99%

Remediation of heavy metals in contaminated soil by using nano‐bentonite, nano‐hydroxyapatite, and nano‐composite

El-Nagar

Abdel-Halim

2021

Land Degrad Dev

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Removal of Some Heavy Metals From Aqueous Solution Using Biosorbent Materials and Nanoparticles

Cited by 1 publication

References 42 publications

Remediation of heavy metals in contaminated soil by using nano‐bentonite, nano‐hydroxyapatite, and nano‐composite

Remediation of heavy metals in contaminated soil by using nano‐bentonite, nano‐hydroxyapatite, and nano‐composite

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