Original scientific paper

Dynamic model for phosphate reduction in water using an electrocoagulation device

Goran Lončar orcid.org/0000-0002-6466-3677 ; Faculty of Civil Engineering, University of Zagreb, Zagreb, Croatia
Ivan Halkijević ; Faculty of Civil Engineering, University of Zagreb, Zagreb, Croatia
Hana Posavčić orcid.org/0000-0001-6555-482X ; Faculty of Civil Engineering, University of Zagreb, Zagreb, Croatia
Dražen Vouk ; Faculty of Civil Engineering, University of Zagreb, Zagreb, Croatia

Abstract

An investigation was carried out into the impact of the electrocoagulation process with aluminium (Al) and iron (Fe) electrodes on the reduction of mass concentration of phosphate in water. The current densities of 30, 75 and 150 A m-2 and the initial phosphate concentration of 27 mg dm-3 (PO4-P) were applied. The removal efficiency of 86% (Al) and 82% (Fe) was achieved after a 90-minute operation of the reactor with installed Al and Fe electrodes at the current density of 75 A m-2 and initial NaCl concentration of 2 g dm-3. In addition to phosphate (PO4-P) concentration, changes in the concentrations of dissolved oxygen (DO), water temperature and pH were also monitored in the chamber of the electrocoagulation laboratory pilot device. A 3D numerical model was implemented for simulation of the electric field and phosphate concentration in the chamber of the electrocoagulation device. The model of phosphate transfer included the processes of generation and sedimentation of floccules and the adsorption of phosphate on the floccules. The model parametrization is based on the measurement results. The results of measurements and numerical simulations indicate a linear dependency of the phosphate removal coefficient on the current strength when aluminium electrodes are implemented.

Keywords

electrocoagulation; pilot device; numerical model; phosphate

Hrčak ID:

226670

URI

https://hrcak.srce.hr/226670

Publication date:

30.9.2019.

Article data in other languages: croatian

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