Description
Provide durable, high-performance filtration solutions for demanding industrial environments.
Industries – Efficient Dust Collection in Extreme Conditions
Exceptional Heat Resistance
Operates continuously up to 260°C (500°F), ideal for high-temperature applications.
Superior Chemical Resistance
Resistant to most acidic gases and oxidizing atmospheres, ensuring longevity.
Low Shrinkage & Stable Dimensions
Maintains shape and performance under high heat, reducing maintenance needs.
High Dust Collection Efficiency
Captures submicron particles effectively, improving air quality.
Features
Made from woven or needle-punched glass fiber fabrics, these acrylic pocket filter bags are engineered to withstand extreme temperatures, high-volume dust loads, and aggressive chemical environments. They feature a smooth surface for efficient dust cake release and can be equipped with a PTFE membrane for enhanced fine-particle capture.
Benefits
By choosing our acrylic pocket filter bags, industries can significantly reduce downtime and maintenance costs associated with filter replacements. Their exceptional heat and chemical resistance ensure consistent performance in harsh conditions, leading to improved air quality and compliance with environmental regulations.
Use Cases
Our acrylic pocket filter bags are preferred in demanding industrial processes such as cement production (kiln exhaust, clinker coolers), steel and metal smelting (induction furnaces, arc furnaces), waste incineration (municipal or hazardous waste plants), coal-fired boilers, power plants, and chemical production. They are ideal for applications where conventional materials like polyester or aramid may fail.
Why Choose Acrylic Pocket Filter Bags?
Our acrylic pocket filter bags offer exceptional heat and chemical resistance, making them ideal for harsh industrial environments. They ensure efficient dust collection, reducing maintenance costs and improving air quality.
Key Features
Made from durable glass fiber fabrics, these bags withstand extreme temperatures and aggressive chemicals. Their smooth surface facilitates efficient dust cake release, while optional PTFE membranes enhance fine-particle capture.
Applications
Perfect for cement production, steel and metal smelting, waste incineration, coal-fired boilers, and chemical production. They outperform conventional materials in demanding conditions.
