Affiliation:
1. Chemistry Laboratory of Advanced Materials and Processes Engineering Faculty of Sciences Ibn Tofail University P.O. Box 1246 Kenitra Morocco
2. Biology Laboratory of Natural Resource and Sustainable Development, Faculty of Science P.O. Box 1246 Kenitra Morocco
3. Chemistry Superior School of Technology Ibn Tofail University P.O. Box 1246 Kenitra Morocco
Abstract
AbstractIn this work, we investigated the feasibility of ammonium removal by electrodialysis (ED), a well‐known electro‐membrane process, based on the selective migration of anions and cations through anion exchange membranes (AEMs) and cation exchange membranes (CEMs). ED experiments are performed using a laboratory pilot. The ion exchange membranes (IEMs) pair used is AXE/CMX, AXE as an AEMs and CMX as a CEMs. The first tests are performed with real groundwater solutions from Kenitra city (Morocco), spiked with an initial concentration of 3 mg/L NH4Cl. The results gave a specific demineralization (SD) to NH4+ ions of 84.60 %; for a demineralization rate (DR) of 80 % and a time of 60 min. The multivariate principal component analysis (PCA) presents a total inertia of 99.23 %, the majority of the variables of which are positively correlated on the C1 axis with a variance of 95.5 % than that of C2 of 3.78 %. The quality of the diluted water determined by the Legrand‐Poirier method showed that the water was aggressive and that the addition of 4.54 mg/L Ca2+ was necessary to balance the water and make it fit for human consumption.