Photovoltaic cell electro-fenton oxidation process for treatment of organic content in methyl orange wastewater


Citation

Isra’A Sadi Samaka, . and Ahmed Samir Naje, . and Haider M. Zwain, . and Mohammed A. Ajeel, . Photovoltaic cell electro-fenton oxidation process for treatment of organic content in methyl orange wastewater. pp. 53-63. ISSN 2672-7226

Abstract

This paper explores the performance of Photovoltaic cell Electro-Fenton oxidation during the treatment of methyl orange wastewater. The treatment setup comprises a photovoltaic cell a battery DC to AC inverter and an electrooxidation reactor. Throughout the Photovoltaic cell Electro-Fenton oxidation experiment the effect of operating parameters like current H‚‚O‚‚ rotation speed and electrolysis time on the total organic carbon and energy consumption were examined. The optimization study was performed by varying the current (0.5-2 mA) hydrogen peroxide (25-100 mg/L) rpm (100- 200) and the electrolysis time (5-15 min) using response surface methodology (RSM) and Minitab-17. The pH and the amount of NaCl in the solution were maintained as 3 0.2g respectively. The optimization study shows that 98 removal efficiency is achievable consuming 39.4 kWh/m energy.


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Abstract

This paper explores the performance of Photovoltaic cell Electro-Fenton oxidation during the treatment of methyl orange wastewater. The treatment setup comprises a photovoltaic cell a battery DC to AC inverter and an electrooxidation reactor. Throughout the Photovoltaic cell Electro-Fenton oxidation experiment the effect of operating parameters like current H‚‚O‚‚ rotation speed and electrolysis time on the total organic carbon and energy consumption were examined. The optimization study was performed by varying the current (0.5-2 mA) hydrogen peroxide (25-100 mg/L) rpm (100- 200) and the electrolysis time (5-15 min) using response surface methodology (RSM) and Minitab-17. The pH and the amount of NaCl in the solution were maintained as 3 0.2g respectively. The optimization study shows that 98 removal efficiency is achievable consuming 39.4 kWh/m energy.

Additional Metadata

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Item Type: Article
AGROVOC Term: Photovoltaic cells
AGROVOC Term: Oxidation
AGROVOC Term: Waste treatment
AGROVOC Term: Dyes
AGROVOC Term: Electrolysis
AGROVOC Term: Organic compounds
AGROVOC Term: Energy consumption
AGROVOC Term: Wastewater treatment
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:55
URI: http://webagris.upm.edu.my/id/eprint/9959

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