Electrocoagulation/electroflotation as a combined process for the laundry wastewater purification and reuse

Electrocoagulation/electroflotation as a combined process for the laundry wastewater purification and reuse

[Display omitted] •Electrocoagulation/ electroflotation methods allow for the simultaneous removal of surfactants, color, and turbidity.•The anode dissolution rate is a function of quantity of electricity and the water temperature.•Current density, pH, and treatment time have a significant effect on...

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Bibliographic Details
Published in:Journal of water process engineering Vol. 31; p. 100877
Main Authors: Dimoglo, A., Sevim-Elibol, P., Dinç, Ö., Gökmen, K., Erdoğan, H.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2019
Subjects:
Electrocoagulation
Electroflotation
Laundry wasterwater
Electroflotation
Laundry wasterwater
Electrocoagulation
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Summary:[Display omitted] •Electrocoagulation/ electroflotation methods allow for the simultaneous removal of surfactants, color, and turbidity.•The anode dissolution rate is a function of quantity of electricity and the water temperature.•Current density, pH, and treatment time have a significant effect on the wastewater cleaning.•The process under study appeared to be cost-effective for the laundry wastewater purification and reuse.•The study showed that economic effect of EC and EF processes is due to low electrical energy consumption. The purpose of this work is to purify wastewater from industrial laundries and return them to the washing process. By means of the methods of electrocoagulation and electroflotation, laboratory and pilot studies on the wastewater treatment were carried out using aluminium electrodes. The process of wastewater treatment has been studied in dependence on treatment time, temperature, pH and current density. The effectiveness of the cleaning process under different values of operating parameters of the reactor was estimated as the percentage of color, turbidity and surfactant removal from the wastewater. As a result of laboratory studies, the optimum values of the operating parameters of the reactor at 90% removal of contamination were the following: current density value as 5.26 mA/cm2, pH as 5.5 and 5 min processing time. The consumption of electrical energy in this case amounted to 1.25 kW h/ m3. The quality control of the purified water was carried out according to such additional parameters as total suspended solids, chemical oxygen demand, total organic carbon, and the content of metal ions and phosphate and nitrate anions in the water. The study of the wastewater treatment in a pilot plant with laboratory values of operating parameters showed the reproducibility of the purification results for the controlled parameters of water quality and suitability of the water for reuse. The washing performed with purified water was estimated by the whiteness index for bed linen and was not inferior to the traditional washing with water from a source of water supply.
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2019.100877