DEGRADATION OF AMOXICILLIN USING MODIFIED GRAPHITE FELT AND FE3O4 NANOCATALYST AS ELECTRO-FENTON PROCESS

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RAHMATINIA MASUME; REZAEI KALANTARI ROSHANAK; FARZADKIA MEHDI; KERMANI MAJID

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Paper Information

Journal: JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING Year:2017 | Volume:4 | Issue:4 Page(s): 243-256

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Title

DEGRADATION OF AMOXICILLIN USING MODIFIED GRAPHITE FELT AND FE3O4 NANOCATALYST AS ELECTRO-FENTON PROCESS

Author(s)

RAHMATINIA MASUME | REZAEI KALANTARI ROSHANAK | FARZADKIA MEHDI | KERMANI MAJID | Issue Writer Certificate

Keywords

AMOXICILLINQ2

ELECTRO-FENTONQ2

MODIFIED GRAPHITE FELTQ2

FE3O4Q1

Abstract

Background: AMOXICILLIN is the most commonly used antibiotics that draws more attractions due to induce bacterial resistance.This compound can enter the aquatic environment through different routes including sewage and waste disposal of medical health centers, veterinary and industries. The aim of this study was removal of AMOXICILLIN from aqueous environments by ELECTRO-FENTON process using MODIFIED GRAPHITE FELT and synthesized Fe3O4 nanoparticles.Methods: Fe3O4 nanoparticles were synthesized by co- precipitation method. Graphite felt also modified due to avoid aeration. The structural and physical characteristics of nanocatalyst and also MODIFIED GRAPHITE FELT were analyzed by SEM, EDS and BET techniques. After optimization of pH and time variables, the parameters of applied current, AMOXICILLIN concentration, catalyst load and the distance between electrodes were designed using Design Expert 7.0 software and optimized by the response surface method.Results: The graphite felt modification resulted in increase in surface area from 0.89 to 1.92 m2/g.The maximum removal of AMOXICILLIN (97.11%) was obtained in optimal operational conditions (pH=3, time=60 min, applied current=180 mA, AMOXICILLIN concentration=20 mg/L, catalyst load 1 g/L, the distance between electrodes=2 cm) Conclusion: The result of this study indicated that ELECTRO-FENTON process using Fe3O4 nanoparticles and MODIFIED GRAPHITE FELT without external aeration is an effective method for AMOXICILLIN removal.

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APA: Copy

RAHMATINIA, MASUME, REZAEI KALANTARI, ROSHANAK, FARZADKIA, MEHDI, & KERMANI, MAJID. (2017). DEGRADATION OF AMOXICILLIN USING MODIFIED GRAPHITE FELT AND FE3O4 NANOCATALYST AS ELECTRO-FENTON PROCESS. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, 4(4 ), 243-256. SID. https://sid.ir/paper/360023/en

Vancouver: Copy

RAHMATINIA MASUME, REZAEI KALANTARI ROSHANAK, FARZADKIA MEHDI, KERMANI MAJID. DEGRADATION OF AMOXICILLIN USING MODIFIED GRAPHITE FELT AND FE3O4 NANOCATALYST AS ELECTRO-FENTON PROCESS. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING[Internet]. 2017;4(4 ):243-256. Available from: https://sid.ir/paper/360023/en

IEEE: Copy

MASUME RAHMATINIA, ROSHANAK REZAEI KALANTARI, MEHDI FARZADKIA, and MAJID KERMANI, “DEGRADATION OF AMOXICILLIN USING MODIFIED GRAPHITE FELT AND FE3O4 NANOCATALYST AS ELECTRO-FENTON PROCESS,” JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, vol. 4, no. 4 , pp. 243–256, 2017, [Online]. Available: https://sid.ir/paper/360023/en

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