One of the most common chemicals used in water treatment is chlorine. Chlorination began in the late 19th century and has since become a staple in public water treatment systems. Chlorine effectively kills a wide range of pathogens, including bacteria, viruses, and protozoa. It is typically added at the water source to disinfect the water before it enters the distribution system. Despite its effectiveness, the use of chlorine can create by-products, such as trihalomethanes (THMs), which have raised health concerns. Consequently, water treatment facilities are constantly seeking alternative disinfection methods or ways to limit chlorination by-products.
Additionally, this compound plays a role in the synthesis of polymers and other materials. It can be used to modify the properties of certain polymers or incorporated into polymer matrices to create novel materials with unique characteristics. The ability to introduce a chlorinated acyl group into organic compounds offers opportunities for fine-tuning the physical and chemical properties of the resulting materials.
- Water Quality The presence of certain contaminants may dictate the choice of flocculant. For example, water with high turbidity may require a stronger, synthetic flocculant.
Additionally, NMN has shown promise in boosting the body’s ability to repair damaged DNA. Our DNA is constantly exposed to various forms of stress that can lead to mutations and cellular dysfunction. NAD+ plays a crucial role in activating enzymes known as sirtuins, which are involved in DNA repair and the regulation of cellular health. By increasing NAD+ levels through NMN supplementation, individuals may enhance their body’s natural repair mechanisms, thus potentially staving off some effects of aging and cellular deterioration.
