In the fields of industrial wastewater treatment and municipal sewage treatment, companies often face the problems of low treatment efficiency, high operating costs and large amounts of chemical agents. As environmental protection regulations become increasingly stringent, how to improve treatment efficiency and reduce operating costs has become an urgent issue for companies to solve. High-energy purifying polyacrylamide (PAM) provides you with excellent solutions. As an efficient flocculant, high-energy purifying PAM can achieve solid-liquid separation and significantly improve wastewater treatment efficiency. Its multiple model designs adapt to different types of wastewater treatment needs, allowing you to be more flexible and convenient in selection and use. In the process of industrial wastewater treatment, high-energy purifying PAM can not only improve treatment efficiency, but also reduce the use of chemicals. This not only helps to reduce operating costs, but also effectively reduces the negative impact of chemicals on the environment. For example, a chemical company used high-energy purifying PAM in a wastewater treatment project, reducing the use of chemical agents by 30% and reducing the total cost of wastewater treatment by 25%. On the other hand, high-energy purifying PAM performs equally well in municipal sewage treatment. It improves mud-water separation efficiency and saves energy consumption. Statistics show that municipal sewage treatment plants using high-energy purifying PAM have reduced sludge production by 20% and saved unit treatment energy consumption by 15%. In short, high-energy purifying polyacrylamide (PAM) has become the best choice for solid-liquid separation and treatment of industrial wastewater and municipal sewage in various industries due to its high efficiency, energy saving and environmental protection. By using high-energy purifying PAM, companies can not only improve environmental protection benefits, but also improve production efficiency, perfectly combining environmental protection with economic benefits.