Titanium anodes in water treatment applications: Discover the power of titanium anodes in revolutionizing water treatment processes. These advanced components play a crucial role in transforming water treatment by enhancing efficiency and ensuring safety.
(1) Electrolytic Preparation of Sodium Hypochlorite Using Titanium Anode: Unleash the potential of titanium anodes to create sodium hypochlorite through electrolysis. This innovative method effectively oxidizes sodium chloride found in seawater or brine, paving the way for superior water treatment solutions.
By electrolyzing seawater or brine, the sodium chloride present is transformed into sodium hypochlorite. This compound then undergoes hydrolysis to become hypochlorous acid, boasting remarkable oxidizing properties. It targets bacterial proteins and viral components, leading to their denaturation. This process results in the effective elimination of pathogenic microorganisms, ensuring comprehensive sterilization and disinfection, while preventing biological contamination.
1. Application Areas
Innovative applications include preventing pollution in power plant cooling systems, treating ballast water in large ships, utilizing small-scale sodium hypochlorite generators, and efficiently processing domestic sewage, among others.
Titanium anodes are primarily utilized in the electrochemical synthesis of succinic acid. As proficient oxygen evolution anodes, they significantly boost production efficiency and elevate product quality, all while slashing energy consumption and operational costs. Additional insights are presented below:
• Enhancing electrochemical synthesis efficiency [__LINK_ICON]: Discover the prowess of titanium-based IrO + SnO type coating electrodes, designed to lower oxygen evolution potential. In the realm of electrochemical synthesis of succinic acid, these electrodes can remarkably reduce cell voltage by 0.5V - 0.7V, leading to over 10% savings in direct current consumption. Moreover, they enable a current efficiency exceeding 95% for the electrolytic production of succinic acid.
• Extension of electrode service life [__LINK_ICON]: Within succinic acid synthesis, a 3%-10% HSO conductive medium is typically employed. Lead anodes, however, face rapid corrosion and dissolution, with a limited service life of merely 3-6 months. In contrast, titanium-based IrO + TaO anodes offer extraordinary corrosion resistance, extending electrode longevity, reducing replacement frequency, and significantly lowering maintenance costs.
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