Treatment of hospital wastewater by potassium ferrate

It has been investigated how well potassium ferrate (K2FeO4) treats hospital wastewater effluents. In the treatment of water and wastewater, potassium ferrate serves as an oxidant, disinfectant, and coagulant with several functions. The effects of combining the oxidation and coagulation processes on...

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Veröffentlicht in:	Al-Qadisiyah journal for engineering science 2022-08, Vol.15 (2), p.136-141
Hauptverfasser:	Gafil, Zahraa M., Al.Tameemi, Husham M., Obaid, Ahmed A.
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creator	Gafil, Zahraa M. Al.Tameemi, Husham M. Obaid, Ahmed A.
description	It has been investigated how well potassium ferrate (K2FeO4) treats hospital wastewater effluents. In the treatment of water and wastewater, potassium ferrate serves as an oxidant, disinfectant, and coagulant with several functions. The effects of combining the oxidation and coagulation processes on features have not been extensively studied. The objective of this study is to evaluate the oxidation and coagulation effects of potassium ferrate treatment methods. An optimization technique based on response surface mythology (RSM) and Box-Behnken design was utilized to identify the ideal conditions for increased removal efficiency of chemical oxygen demand COD.. Potassium ferrate has a significant impact, according to experiments. With a COD of 790 ppm as the starting point, the effects of oxidation time (30-90 minutes), potassium ferrate concentration (20-100 ppm), pH (3-9), and process stirring speed (100-400 rpm) on COD removal efficiency were examined. To find the best COD removal efficiency, it also used an optimization strategy based on Box-Behnken design via the Surface Response Method (RSM). According to the findings, time, mixing speed, and pH are the factors that have the highest impact on the effectiveness of COD removal.. Based on the study of the Minitab-19 program, Regression analysis results revealed that a Fisher value of 13.68. pH value 3, oxidation time of 62 minutes, mixing speed of 300 rpm, and potassium ferrate content of 92 ppm were discovered to be the optimal operating parameters. Based on this ideal scenario, the final concentration reached had a COD elimination effectiveness of 98 percent.
doi_str_mv	10.30772/qjes.v15i2.843
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In the treatment of water and wastewater, potassium ferrate serves as an oxidant, disinfectant, and coagulant with several functions. The effects of combining the oxidation and coagulation processes on features have not been extensively studied. The objective of this study is to evaluate the oxidation and coagulation effects of potassium ferrate treatment methods. An optimization technique based on response surface mythology (RSM) and Box-Behnken design was utilized to identify the ideal conditions for increased removal efficiency of chemical oxygen demand COD.. Potassium ferrate has a significant impact, according to experiments. With a COD of 790 ppm as the starting point, the effects of oxidation time (30-90 minutes), potassium ferrate concentration (20-100 ppm), pH (3-9), and process stirring speed (100-400 rpm) on COD removal efficiency were examined. 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title	Treatment of hospital wastewater by potassium ferrate
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