Pollutant removal from tannery effluent by electrocoagulation

Pollutant removal from tannery effluent by electrocoagulation

An electrocoagulation laboratory scale system was studied for the removal of organic and inorganic pollutants from a wastewater of leather finishing industrial process. In order to obtain optimal values of the system state variables, a fractional factorial 2 3 experimental design was applied. The el...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 151; no. 1; pp. 59 - 65
Main Authors: Espinoza-Quiñones, Fernando R., Fornari, Marilda M.T., Módenes, Aparecido N., Palácio, Soraya M., da Silva, Fernando G., Szymanski, Nayara, Kroumov, Alexander D., Trigueros, Daniela E.G.
Format: Journal Article
Language:English
Published: Oxford Elsevier B.V 01-08-2009
Elsevier
Subjects:
Applied sciences
Chemical engineering
Chromium removal
EC treatment
Exact sciences and technology
Factorial design
General purification processes
Physicochemical parameters
Pollution
Reactor operating parameters
Reactors
Wastewaters
Water treatment and pollution
Chromium removal
Reactor operating parameters
Factorial design
EC treatment
Physicochemical parameters
Electrocoagulation
Laboratory scale
Tannery
Density
Operating conditions
Waste water
State variable
Pollutant
Electrolysis
Chemical oxygen demand
Experimental design
Leather industry
Turbidity
pH
Reactor
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Summary:An electrocoagulation laboratory scale system was studied for the removal of organic and inorganic pollutants from a wastewater of leather finishing industrial process. In order to obtain optimal values of the system state variables, a fractional factorial 2 3 experimental design was applied. The electrocoagulation process response was evaluated on the basis of chemical oxygen demand (COD), turbidity, total suspended solid, total volatile solid, and elements concentration values. The interactions between initial pH and electrolysis time, as well as between initial pH and current density were significant only for the total chromium removal. The reactor working conditions close to natural effluent pH and electrolysis time in the range of 30–45 min were enough to achieve the cost-effective reduction of COD, turbidity and chromium concentrations. The electrocoagulation method has shown similar pollutant removal efficiencies when compared with the conventional one and can be used successfully for industrial applications. Based on its low operational cost, the electrocoagulation method could be recommended instead of the conventional one.
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ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2009.01.043