AMOXICILLIN REMOVAL FROM AQUEOUS SOLUTIONS USING US / H2O2 / NZVI PROCESS

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VAHIDI HOSSEIN; RAHMANI SALMAN

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Journal: Journal of Environmental Health Engineering Year:2018 | Volume:5 | Issue:2 Page(s): 184-196

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Information Journal Paper

Title

AMOXICILLIN REMOVAL FROM AQUEOUS SOLUTIONS USING US / H2O2 / NZVI PROCESS

Author(s)

VAHIDI HOSSEIN | RAHMANI SALMAN | Issue Writer Certificate

Keywords

AMOXICILLIN ANTIBIOTICQ1

PHARMACEUTICAL COMPOUNDSQ1

FENTON-LIKE PROCESSQ1

ULTRASONIC WAVES (US)Q1

Abstract

Background and Aim: High concentrations of antibiotics are now detected in aquatic environments, reducing their quality. These compounds generally have a high toxicity and low biodegradability, and some are reported to have mutagenic and/or carcinogenic characteristics. Conventional treatment systems have proven inadequate to effectively remove this type of organic compound, largely due to its complex molecular structure. Therefore, it is necessary to remove an effective method for the removal of these compounds is suggested. The purpose of this study was to apply zero-valent iron nanoparticles in the presence of hydrogen peroxide and the process of sonolysis in the removal of antibiotic amoxicillin from aquatic environments.Materials and Methods: This research was carried out on a laboratory scale on a synthetic wastewater containing AMOXICILLIN ANTIBIOTIC that the effects of some parameters, such as ultrasound (35 and 130 kHz), contact time (30–150 min), concentration of hydrogen peroxide (0.5–3 %), concentrations of nZVI (0.06–0.2 g/L), pH (3–10), and concentration of AMX (45–100 mg/L) were investigated.Results: Optimum removal conditions were pH=3, H2O2 concentration=1%, ultrasonic frequency=130 kHz and nZVI concentration=0.2 g/L. so that 97.3% of AMOXICILLIN ANTIBIOTIC after 150 min of reaction at pH=3, nZVI=0.1 g/L, ultrasonic frequency=130 kH, H2O2=1% and 45 mg/L concentration of AMX was removed.Conclusion: The experiments showed the efficient removal of AMOXICILLIN ANTIBIOTIC in wastewater by Fenton’s oxidation process. The efficiency of this method can also be considered in eliminating other antibiotics resistant to biological treatment.

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APA: Copy

VAHIDI, HOSSEIN, & RAHMANI, SALMAN. (2018). AMOXICILLIN REMOVAL FROM AQUEOUS SOLUTIONS USING US / H2O2 / NZVI PROCESS. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, 5(2 ), 184-196. SID. https://sid.ir/paper/259204/en

Vancouver: Copy

VAHIDI HOSSEIN, RAHMANI SALMAN. AMOXICILLIN REMOVAL FROM AQUEOUS SOLUTIONS USING US / H2O2 / NZVI PROCESS. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING[Internet]. 2018;5(2 ):184-196. Available from: https://sid.ir/paper/259204/en

IEEE: Copy

HOSSEIN VAHIDI, and SALMAN RAHMANI, “AMOXICILLIN REMOVAL FROM AQUEOUS SOLUTIONS USING US / H2O2 / NZVI PROCESS,” JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, vol. 5, no. 2 , pp. 184–196, 2018, [Online]. Available: https://sid.ir/paper/259204/en

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