At NINGBO INNO PHARMCHEM CO.,LTD., we are passionate about the science behind effective chemical solutions. Our 98.5% granular Cyanuric Acid is more than just a pool chemical; it's a sophisticated water treatment agent that enhances disinfection through specific chemical interactions. Understanding this chemistry can help users appreciate the value of this essential compound.

The active sanitizing agent in swimming pools is hypochlorous acid (HOCl), which is formed when chlorine reacts with water. HOCl is a powerful oxidizer that effectively kills bacteria, viruses, and algae. However, HOCl is unstable, especially when exposed to UV radiation from sunlight. This is where Cyanuric Acid (CYA) plays its crucial role. CYA molecules, when dissolved in water, can reversibly bind with HOCl to form chlorinated isocyanurates. These compounds act as a slow-release reservoir of active chlorine.

When UV radiation attempts to break down HOCl, the cyanurate-bound chlorine is protected. As the concentration of free HOCl decreases due to microbial activity or other factors, the equilibrium shifts, and the chlorinated isocyanurates release more HOCl back into the water. This buffering effect ensures a more stable and consistent level of active disinfectant, prolonging its efficacy and reducing the rate at which it is consumed. It's this unique chemical property that makes our Cyanuric Acid 98.5% granular a superior disinfectant granular for water treatment.

For pool operators and industrial water managers, this means improved sanitation efficiency and potentially lower overall chlorine usage. As a premier water treatment chemicals supplier, NINGBO INNO PHARMCHEM CO.,LTD. ensures that our product provides the purity and consistency required for these complex chemical reactions to occur optimally. Whether you're looking to buy a reliable swimming pool chlorine stabilizer or a powerful water treatment agent for industrial applications, our Cyanuric Acid offers a scientifically backed solution to enhance your disinfection protocols.