Faced with the dual challenges of tightening global environmental regulations and water resource shortages, the water treatment industry is experiencing a surge in technological upgrades. As a core agent in water treatment, polyacrylamide (PAM) has evolved from a traditional flocculant to a key component of intelligent, green water systems.

Polyacrylamide: The All-Rounder for Modern Water Treatment

As a water-soluble polymer, polyacrylamide has become a preferred agent for wastewater treatment and sludge dewatering due to its efficient flocculation, strong adsorption and bridging capabilities, and flexible ionic properties.

Diverse Application Scenarios: From Municipal Wastewater to Zero Industrial Emissions

Municipal Wastewater Treatment Upgrade:

High-Standard Phosphorus and Nitrogen Removal: Effectively address new environmental regulations through a coordinated flocculation and sedimentation process;

Deep Sludge Dewatering: Reduces sludge moisture content, lowers disposal costs, and maximizes sludge reduction and resource utilization.

Industrial wastewater treatment:

Closed circulation of papermaking white water: Improves fiber recovery and achieves water resource recycling;

Decolorization of printing and dyeing wastewater: Combined with a composite bleaching agent, overcomes the challenge of color removal;

Mining wastewater treatment: Efficiently settles suspended solids and recovers useful mineral resources.

Emerging resource recycling areas:

Aquaculture wastewater as fertilizer: Flocculation and separation of solid organic matter to produce organic fertilizer;

Data center cooling water treatment: Inhibiting microbial growth and improving water resource efficiency.

Why Choose Polyacrylamide? Core Advantages

High-efficiency flocculation and fast settling speed: Significantly improves solid-liquid separation efficiency, reduces sedimentation tank footprint, and is suitable for high-load wastewater treatment scenarios.

Sludge reduction and lower disposal costs: By optimizing sludge dewatering performance, the sludge moisture content can be reduced from 99% to below 80%, significantly saving transportation and handling costs.

Wide adaptability and strong anti-interference performance: Maintains excellent flocculation even in complex water conditions such as large pH fluctuations, high salinity, and low temperatures.

Conclusion

With water resources becoming increasingly scarce, polyacrylamide has evolved from an auxiliary agent to a core component of water treatment systems. Choosing technologically advanced polyacrylamide products not only meets increasingly stringent environmental requirements but also creates significant economic benefits by improving treatment efficiency and resource recovery rates.