Using saltwater as the raw material, it directly produces sodium hypochlorite (NaClO) via electrolysis, efficiently generating chlorine-based disinfectant to rapidly eliminate harmful bacteria, viruses and various microorganisms in water, and safeguard water quality safety.
Compared with traditional chemical disinfection solutions, it eliminates the need for adding harsh chemical agents, avoiding the potential risks of chemical residues to human health and the ecological environment from the source. It is a safer and more eco-friendly modern disinfection choice.
With the excellent performance of titanium electrodes, electrolysis efficiency is greatly improved, enabling on-site continuous production of sodium hypochlorite. It meets the immediate needs of various water treatment and sanitation disinfection scenarios, and is widely applicable to the entire field of water treatment and purification.
Working Principle
The titanium electrode for saltwater electrolysis operates on the principle of electrolyzing aqueous sodium chloride solutions. During electrolysis, chloride ions (Cl⁻) undergo oxidation at the anode to generate chlorine gas (Cl₂). The resultant chlorine gas then reacts with water to yield sodium hypochlorite (NaClO), hypochlorous acid (HOCl), and hypochlorite ions (OCl⁻).
The electrode plates feature a precision-engineered configuration and layout, which is optimized to maximize the electrolysis surface area and thereby enhance disinfection efficiency. The integrated system boasts a compact footprint, facilitates straightforward installation, and demands minimal maintenance.
The overall reaction equation is as follows: NaCl + H₂O → NaClO + H₂
