Treatment of Saline Water Using Electrocoagulation with Combined Electrical Connection of Electrodes

Saline water treatment has become increasingly important for drinking water supplies. The aim of this study was to evaluate the ability of the electrocoagulation (EC) process with combined aluminum electrodes in removing various types of salt from water samples collected at Sawa Lake, Al-Muthanna, Iraq. The targeted types of salt include total dissolved solids (TDS), chloride salt (Cl-), bromine (Br-), and sulphate (SO42-). A bench scale consisting of combined EC configurations with static electrodes was employed under combined electrical connections. The effect of the six variables factors, such as applied current density (I), reaction time (RT), pH, temperature (T), stirring speed (M-rpm) and inter electrode distance (IED) were observed to achieve a higher removal of TDS, Cl-, Br- and SO42-. Initial results showed the following optimum operating conditions: I = 2 mA/cm(2), RT = 80 min, pH = 8, T = 25 degrees C, IED = 1 cm and M-rpm = 500. The maximum removal efficiency of TDS, Cl-, Br- and SO42- were 91%, 93%, 92% and 90%, respectively. It can be concluded that the EC method applied in the present study was effective to removing salts from lake water.