Cationic Polyacrylamide (CPAM) is a specialized type of Polyacrylamide (PAM) that plays a critical role in various water and wastewater treatment applications, particularly where positively charged contaminants or sludge solids are present. NINGBO INNO PHARMCHEM CO.,LTD. offers high-performance CPAM products that are engineered to deliver superior results in demanding industrial and municipal settings.

CPAM is distinguished by its cationic charge density and molecular weight, which are carefully controlled during manufacturing to optimize its performance. Its primary function is to act as a flocculant, binding with negatively charged suspended solids and colloids to form larger, more manageable flocs. This is particularly effective in the dewatering of sludge, a common challenge in wastewater treatment plants. By improving the ability of sludge particles to aggregate and release water, CPAM significantly enhances the efficiency of dewatering equipment such as belt filters and centrifuges, reducing sludge volume and disposal costs.

In general water treatment, CPAM is used to clarify raw water and treat industrial wastewater. Its cationic nature allows it to effectively neutralize negative charges present in many types of industrial effluents, promoting rapid settling and clarification. This is invaluable for industries that produce wastewater with high organic content or fine suspended solids. The purchase of appropriate CPAM grades ensures efficient removal of pollutants and compliance with discharge standards.

The application of CPAM extends to areas like organic mud dehydration in oilfields, where its ability to flocculate fine particles is highly beneficial. NINGBO INNO PHARMCHEM CO.,LTD. ensures that its CPAM products are manufactured to rigorous standards, guaranteeing consistent performance and reliability. Understanding the specific requirements of your water or sludge treatment process allows us to recommend the most effective CPAM product. Our commitment is to provide solutions that not only improve treatment efficiency but also contribute to cost savings through optimized chemical usage and process performance.