Electrochemical Disinfection in Water and Wastewater Treatment: Identifying Impacts of Water Quality and Operating Conditions on Performance

Abstract: Electrochemical disinfection—a method in which chemical oxidants are generated in situ via redox reactions on the surface of an electrode—has attracted increased attention in recent years as an alternative to traditional chemical dosing disinfection methods. Because electrochemical disinfection does not entail the transport and storage of hazardous materials and can be scaled across centralized and distributed treatment contexts, it shows promise for use both in resource limited settings… Show more

“…Figure 1(e) shows the influence of the electrolyte. Water conductivity highly affects the EO process: treating water with 100 μS/cm instead of 550 μS/cm caused an increase of voltage from 40 to 75 V (therefore increasing electricity consumption) and a decrease of almost 2 log in disinfection capacity This observation corresponds to previous recommendations which suggest that electro-oxidation leads to better disinfection yields and lower electricity consumptions when treating waters that have moderate to high conductivity (Hand & Cusick 2021). Therefore, optimal conditions for EO batch experiments were set as follows: Stainless steel and BDD as cathode and anode, respectively, with 6 mm of distance between them, using a current density of 29 mA/cm 2 and Na 2 SO 4 as electrolyte up to a conductivity of 550 μS/cm.…”

Advanced hybrid electro-oxidation & O3 technology for water reuse in the fruit and vegetable process industry

“…Figure 1(e) shows the influence of the electrolyte. Water conductivity highly affects the EO process: treating water with 100 μS/cm instead of 550 μS/cm caused an increase of voltage from 40 to 75 V (therefore increasing electricity consumption) and a decrease of almost 2 log in disinfection capacity This observation corresponds to previous recommendations which suggest that electro-oxidation leads to better disinfection yields and lower electricity consumptions when treating waters that have moderate to high conductivity (Hand & Cusick 2021). Therefore, optimal conditions for EO batch experiments were set as follows: Stainless steel and BDD as cathode and anode, respectively, with 6 mm of distance between them, using a current density of 29 mA/cm 2 and Na 2 SO 4 as electrolyte up to a conductivity of 550 μS/cm.…”

Advanced hybrid electro-oxidation & O3 technology for water reuse in the fruit and vegetable process industry

“…The design of electrochemical reactors is still very system-specific without standardized reactor shape and electrode configuration requirements for similar industrial usage [65], and often require extensive modelling and evaluation work and laboratory studies to identify the optimal configuration and operating conditions [67,68].…”

Diamond electrode facilitated electrosynthesis of water and wastewater treatment oxidants

“…The chemical processing of COVID-19 waste can be categorized within chlorine- and nonchlorine-dependent operations. The antiseptic solution utilized as NaOCl or ClO 2 in a chlorine-based processing method, where the electronegativity of chlorine assists during oxidizing peptide bonds and denaturing proteins, supports the diffusion of cell sheets at neutral pH [137] . NaOCl is one of the first chemical sanitisers that delivers halo acetic acid, dioxins, and chlorinated aromatic composites.…”

Key ingredients and recycling strategy of personal protective equipment (PPE): Towards sustainable solution for the COVID-19 like pandemics