Ratthiwa Deewan scite author profile

Ratthiwa Deewan

2Publications

1Citation Statement Received

29Citation Statements Given

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Khon Kaen University

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Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles

Deewan

Yan

Khamdahsag

et al. 2022

Environ Sci Pollut Res

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The optimal conditions for the green synthesis of nano zero-valent iron ( G-NZVI) using mango peel extract were investigated using a Box-Behnken Design approach. Three factors were considered, including the ratio of iron solution to mango peel extract ratio (1:1-1:3), feeding rate of mango peel extract (1-5 mL/min), and agitation speed (300-350 rpm). The results showed that the optimal conditions for the synthesis of G-NZVI for arsenate removal were a 1: 1 ratio of iron solution to mango peel extract, a mango peel extract feeding rate of 5 mL/ min, and an agitation speed of 300 rpm. Under these conditions, nearly 100% arsenate removal was achieved. X-ray diffractometry ( XRD) , Fourier transform infrared spectroscopy (FTIR), Transmission Electron Microscopy (TEM), Brunauer-Emmett-Teller (BET), and Scanning Electron Microscopy (SEM)with Energy Dispersive X-Ray Analysis ( EDX) methods were used to characterize the properties of the G-NZVI. Finally, the arsenate removal efficiency of the G-NZVI was compared against commercial nano zero-valent iron (C-NZVI). The results revealed that the G-NZVI was roughly five times more efficient at arsenate removal than the C-NZVI. The influence of background species such as chloride (Cl -), phosphate (PO4 3-), calcium (Ca 2+ ), and sulfate (SO4 2-) was studied to evaluate their effects on arsenite removal. As a result, Cland Ca 2+ were shown to play a role in promoting arsenite removal, whereas SO4 2and PO4 3were observed to play an inhibiting role.

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Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles

Deewan

Yan²,

Khamdahsag

et al. 2022

Preprint

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The optimal conditions for the green synthesis of nano zero-valent iron (G-NZVI) using mango peel extract were investigated using a Box-Behnken Design approach. Three factors were considered, including the ratio of iron solution to mango peel extract ratio (1:1–1:3), feeding rate of mango peel extract (1–5 mL/min), and agitation speed (300–350 rpm). The results showed that the optimal conditions for the synthesis of G-NZVI for arsenate removal were a 1:1 ratio of iron solution to mango peel extract, a mango peel extract feeding rate of 5 mL/min, and an agitation speed of 300 rpm. Under these conditions, nearly 100% arsenate removal was achieved. X-ray diffractometry (XRD), Fourier transform infrared spectroscopy (FTIR), Transmission Electron Microscopy (TEM), Brunauer-Emmett-Teller (BET), and Scanning Electron Microscopy (SEM) with Energy Dispersive X-Ray Analysis (EDX)methods were used to characterize the properties of the G-NZVI. Finally, the arsenate removal efficiency of the G-NZVI was compared against commercial nano zero-valent iron (C-NZVI). The results revealed that the G-NZVI was roughly five times more efficient at arsenate removal than the C-NZVI. The influence of background species such as chloride (Cl−), phosphate (PO43−), calcium (Ca2+), and sulfate (SO42−) was studied to evaluate their effects on arsenite removal. As a result, Cl− and Ca2+ were shown to play a role in promoting arsenite removal, whereas SO42− and PO43− were observed to play an inhibiting role.

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Ratthiwa Deewan

Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles

Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles

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