Municipal waste water treatment by natural coagulant assisted electrochemical technique—Parametric effects

Municipal waste water treatment was investigated in an electrocoagulation reactor employing a novel natural coagulant synthesized from Pisum sativum. The influence of operating variables, namely, type of electrode (copper, steel and aluminum), effluent pH (3.0–9.0), initial COD of the effluent (190–...

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Bibliographic Details
Published in:Environmental technology & innovation 2018-05, Vol.10, p.71-77
Main Authors: Natarajan, Rajamohan, Al Fazari, Fatma, Al Saadi, Amal
Format: Article
Language:English
Subjects:
Dye
Effluent
Kinetics
Modeling
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Summary:Municipal waste water treatment was investigated in an electrocoagulation reactor employing a novel natural coagulant synthesized from Pisum sativum. The influence of operating variables, namely, type of electrode (copper, steel and aluminum), effluent pH (3.0–9.0), initial COD of the effluent (190–760 mg/L) ,coagulant dosage (1.0–6.0 g/L), voltage (10–30 V) and current (1.0–2.0 A) on the COD removal efficiency was investigated. Aluminum electrode proved to be an effective choice for this application and resulted in enhanced flocs formation though aluminum hydroxides. The optimal conditions for better COD removal efficiency were identified as pH 5.0, coagulant dose-4.0 g/L, voltage 20 V and current 1.5 A. An empirical relationship between COD removal efficiency and coagulant dose was proposed (R2=0.966). This research study proved the feasibility of parallel plate electrocoagulation reactor with a natural coagulant as a sustainable method for treating municipal waste water. •A novel natural coagulant was synthesized from Pisum sativum.•Municipal waste water was characterized.•Optimal conditions were identified: pH 5.0, coagulant dose-4.0 g/L,voltage 20 V and current 1.5 A.•An empirical relationship between COD removal efficiency and coagulant dose was proposed.
ISSN:2352-1864
2352-1864
DOI:10.1016/j.eti.2018.01.011