2.5. Electrochemical disinfectionDi

2.5. Electrochemical disinfection
Disinfection is a common water treatment process to eliminate various pathogenic microorganisms. Chlorination is the most popular method for water disinfection since the last century. But excessive presence of chlorine in water is associated with the generation of residual carcinogenic chloroform when natural organic matter (NOM) presence in the water [41]. Other disinfection methods such as ozonation, UV radiation and ClO2 oxidation are also effective, especially for getting instant disinfection results. However, these treatments are more expensive and the treatment efficiency starts to dissipate as soon as the process is finished. On the other hand, electrochemical disinfection has advantages such as elimination of a wide range of microorganisms, minimal chemical usage, no issues on their storage, easy operation and low cost [42]. During electrochemical disinfection, water flows through a disinfector equipped with electrodes charged with electric current [43]. Electrochemical disinfection setups can be classified into two types: direct electrolyzer and mixed oxidants generator. Direct electrolyzer produces oxidants directly from the contaminated water via electrolyzer; whereas mixed oxidants generator produces strong oxidizing species such as free chlorine, chlorine dioxide, hydrogen peroxide, ozone, and other short-live radicals from a supplied concentrated brine solution [44] and [45]. The active chlorine species such as Cl2, HOCl and OCl− are the most common oxidants used in saline water.

It was demonstrated that reactive oxygen species (OH, O3, H2O2 and.O2−) generated through water oxidation has higher disinfection efficiency compared to electro-chlorination efficiency [46]. Important parameters for electrochemical disinfection process are electrochemical cell configuration, electrode system, electrolyte composition, present of microorganism׳s species, flow rate and current density [42], [44], [45] and [46].