Defluoridation of Water Using Natural and Activated Coal

Regassa, Merga; Melak, Fekadu; Birke, Wondessen; Alemayehu, Esayas

doi:10.17148/iarjset.2016.3101

Cited by 16 publications

(2 citation statements)

References 12 publications

(12 reference statements)

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“…Te increase in removal efciency with increase of adsorbent dose is due to the increase in the availability of binding sites. As a result, 0.75 g of adsorbent was discovered to be the best optimum dosage and this result has better matching with some of the previous research work [44,45].…”

Section: Efect Of Adsorbent Dosesupporting

confidence: 78%

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Ganta

Hirpaye

Sabu

et al. 2022

Journal of Chemistry

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Hydroxyapatite (Ca10(PO4)6(OH)2) calcium phosphate is a robust and viable magnetic material for the treatment of polluted air, water, and soil. Because of its unique structure and appealing properties such as high adsorption capabilities, acid-base adaptability, ion-exchange capability, and thermal stability, hydroxyapatite (HAp) has a lot of potential in the field of environmental management. An aqueous extract of Monoon longifolium leaves was used for the preparation of hydroxyapatite nonparticles as the adsorbent for fluoride ion removal from aqueous solution in this work, resulting in bio-based hydroxyapatite nanoparticles. The prepared adsorbent was characterized by using instrumental techniques such as TGA/DTA, XRD, AAS, FT-IR, and UV-Vis spectroscopy as well as SEM. The batch adsorption approach was used to determine the optimum adsorption efficiency of HAp NPs under various experimental conditions. As a result, the best removal efficiency corresponds to 0.75 g HAp NPs, 15 mg/L, and pH 7 at 50 minutes (96%). The equilibrium adsorption data were better fitted into the Freundlich isotherms (R2 = 0.99), and the pseudo-second-order kinetic model was found to be suitable (R2 = 0.99) for the kinetic model. Fluoride ion adsorption on HAp NPs is spontaneous, endothermic, and possible at temperatures over 318 K, according to thermodynamic calculations. The results hint at a conclusion that the synthesized HAp NPs were an efficient adsorbent for the removal of fluoride ions and the overall process can be an economical choice for scaled-up water treatment processes.

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Section: Efect Of Adsorbent Dosesupporting

confidence: 78%

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Ganta

Hirpaye

Sabu

et al. 2022

Journal of Chemistry

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“…As 1/n value was in the range of 0-1 (1/n = 0.44) adsorption process is suitable (Abdoallahzadeh et al , 2016). As a result of the Dubinin–Radushkevich model analysis, where the determined E value was less than 8 kJ/mol (E = 4.45), it can be assumed that the adsorption process of diazinon onto the Fe 3 O 4 @SiO 2 is probably physical (Regassa et al , 2016).…”

Section: Resultsmentioning

confidence: 99%

Fe₃O₄@SiO₂ magnetic nanocomposites as adsorbents for removal of diazinon from aqueous solution: isotherm and kinetic study

Shamsizadeh

Ehrampoush

Firouzabadi

et al. 2020

PRT

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Purpose The purpose of this study was to the synthesis of Fe3O4@SiO2 nanocomposites and using it as an adsorbent for removal of diazinon from aqueous solutions. Structural characteristics of the synthesized magnetic nanocomposite were described by Fourier transform infrared spectroscopy and scanning electron microscopy. Design/methodology/approach The effects of different parameters including pH (2-10), contact time (1-180 min), adsorbent dosage (100-2000 mg L−1) and initial diazinon concentration (0.5–20 mg L−1) on the removal processes were studied. Finally, isotherm and kinetic and of adsorption process of diazinon onto Fe3O4@SiO2 nanocomposites were investigated. Findings The maximum removal efficiency of diazinon (96%) was found at 180 min with 1000 mg L−1 adsorbent dosage using 0.5 mg L−1 diazinon concentration at pH = 7. The experimental results revealed that data were best fit with the pseudo-second-order kinetic model (R2 = 0.971) and the adsorption capacity was 10.90 mg g−1. The adsorption isotherm was accordant to Langmuir isotherm. Originality/value In the present study, the magnetic nanocomposites were synthesized and used as an absorbent for the removal of diazinon. The developed method had advantages such as the good ability of Fe3O4@SiO2 nanocomposites to remove diazinon from aqueous solution and the magnetic separation of this absorbent that make it recoverable nanocomposite. The other advantages of these nanocomposites are rapidity, simplicity and relatively low cost.

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A comparative study of using barberry stem powder and ash as adsorbents for adsorption of humic acid

Khodadadi

Al-Musawi

Kamranifar

et al. 2019

Environ Sci Pollut Res

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Defluoridation of Water Using Natural and Activated Coal

Cited by 16 publications

References 12 publications

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Fe₃O₄@SiO₂ magnetic nanocomposites as adsorbents for removal of diazinon from aqueous solution: isotherm and kinetic study

A comparative study of using barberry stem powder and ash as adsorbents for adsorption of humic acid

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Defluoridation of Water Using Natural and Activated Coal

Cited by 16 publications

References 12 publications

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Green Synthesis of Hydroxyapatite Nanoparticles Using Monoon longifolium Leaf Extract for Removal of Fluoride from Aqueous Solution

Fe3O4@SiO2 magnetic nanocomposites as adsorbents for removal of diazinon from aqueous solution: isotherm and kinetic study

A comparative study of using barberry stem powder and ash as adsorbents for adsorption of humic acid

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Fe₃O₄@SiO₂ magnetic nanocomposites as adsorbents for removal of diazinon from aqueous solution: isotherm and kinetic study