Ozone destruction catalyst for swimming pools

With the spread of the Olympic spirit, people's demand for sports is growing, and a large number of swimming pools have emerged. Of course, people are gradually improving the safety issues related to this, one of which is the safety of water quality and hygiene - the treatment of swimming pool water.

Previously, the market used chlorine for disinfection, but the impact of byproducts after chlorine disinfection cannot be ignored.

Taking sodium hypochlorite (NaClO) as an example, the reaction in the disinfection process is mainly the effect of hypochlorous acid. Hypochlorous acid (HClO) can decompose new ecological oxygen [O] with strong oxidizing properties in water, thereby playing a role in sterilization and disinfection. The reaction formula is as follows:

Sodium hypochlorite hydrolysis: NaClO + H₂O→HClO + NaOH;

Hypochlorous acid decomposition: HClO→HCl + [O].

However, long-term exposure to or ingestion of these byproducts may increase the risk of cancer. For example, trihalomethanes are believed to cause damage to the liver, kidneys and central nervous system, and are potentially carcinogenic. Haloacetic acids may also have adverse effects on human health, such as toxic effects on the liver and kidneys.

It can irritate the respiratory system and cause symptoms such as coughing and wheezing.

It can irritate the skin and eyes and may cause skin allergies, itching, redness and swelling, as well as discomfort such as eye pain and tears.

If these by-products are discharged into the environment, they may pollute water bodies and soil. For example, substances such as haloacetic acid and trihalomethanes have high solubility in water, which may cause harm to aquatic organisms and affect the balance of aquatic ecosystems.

Some by-products may be persistent and accumulate in the environment, causing long-term adverse effects on the ecological environment.

The emergence of ozone catalysts has greatly reduced the amount of chlorine disinfection and reduced the production of disinfection by-products. It mainly eliminates ozone in water, improves water quality, and reduces or removes possible irritation to the respiratory tract and skin of swimmers.

MINSLITE-B series ozone elimination catalysts are specialized in eliminating ozone and are very popular in the industrial field, safeguarding people's water safety.