PAC Water Treatment
Product Overview
Poly Aluminum Chloride (PAC) is a highly effective coagulant and flocculant widely used in water treatment processes. This versatile chemical compound is renowned for its superior performance in clarifying water and removing impurities. PAC is a key solution for industries and municipalities seeking reliable water treatment methods to ensure the quality and safety of water.
Key Features
High Purity:
Our PAC is manufactured to meet stringent quality standards, ensuring a high level of purity. This purity contributes to the effectiveness and reliability of water treatment processes.
Efficient Coagulation and Flocculation:
PAC excels in coagulating and flocculating suspended particles in water. It forms large, dense flocs that settle quickly, facilitating the removal of impurities and turbidity.
Wide pH Range Suitability:
One of the notable advantages of PAC is its effectiveness across a broad pH range. It performs well in both acidic and alkaline conditions, providing versatility in various water treatment applications.
Low Residual Aluminum Content:
Our PAC is designed to minimize the residual aluminum content in treated water, ensuring compliance with regulatory standards and environmental guidelines.
Rapid Settling and Filtration:
The rapid settling of flocs formed by PAC simplifies the filtration process, leading to improved water clarity and reduced processing time.
Reduced Sludge Production:
PAC generates less sludge compared to traditional coagulants, resulting in lower disposal costs and a more environmentally friendly water treatment process.
Packaging
Our PAC is available in various packaging options, including liquid and powder forms, to meet the specific requirements of different applications.
Storage and Handling
Store PAC in a cool, dry place away from direct sunlight. Follow recommended handling procedures to ensure product integrity and safety.
Choose our Poly Aluminum Chloride for a reliable and efficient solution in water treatment, delivering exceptional results across diverse applications.