Fluorescent Mersa high-temperature dedusting bags are composed of a blend of two or more fibers and are layered to achieve new physical and chemical properties. The composite needle-punched felt product is named FMS (Fluorescent Mersa).

Fluon Mesote high-temperature dedusting bags feature resistance to bending. After different surface chemical treatments and finishing techniques, they also offer easy cleaning capabilities. They are suitable for a series of products designed for different temperature ranges: 150-200°C, 200-250°C, and 250-300°C.

Fluoromesh high-temperature dedusting bags are widely used in steel, non-ferrous metallurgy, chemical industry, building materials, and power sectors.

Dust collector bags are a crucial part of the baghouse dust collector's operation, typically hung vertically within the collector. Fumisu high-temperature dust collector bags are a type of filter element made from woven fibers to capture solid particles from dusty gases. Their principle of operation is that dust particles collide with and are intercepted by the filter fabric fibers due to the force of inertia. In pulse and reverse-jet pulse dust collectors, dust adheres to the outer surface of the filter bags. As the dusty gas passes through the dust collector, the dust is collected on the outer surface of the filter bags, while the clean gas passes through the filter material into the interior of the bags. The cage inside the filter bags supports them, preventing collapse and also aiding in the agglomeration and redistribution of dust.

Fluorescent mesophase is a new type of high-temperature filter material developed for dry dust removal of blast furnace gas. It boasts excellent temperature resistance, capable of reaching 260 degrees, and features good abrasion resistance, flexibility, and bend resistance, significantly improving mechanical strength, reducing initial and operating resistance, increasing filtration speed, enhancing the filtration air velocity, and significantly extending service life, with improved adaptability to dust.

The FMS high-temperature dedusting bags have significantly improved abrasion resistance, bend resistance, and剥离 strength compared to glass fiber materials, enabling them to handle high filtration loads. The filtration speed can reach over 1.0 m/min with low operating resistance. Compared to synthetic fiber materials, they overcome the weaknesses of synthetic fiber materials, such as high elongation, significant deformation, and low temperature resistance. They offer good size stability, strength, and are priced competitively with other chemical fibers. The FMS filter material is a new product developed in line with China's national conditions and is widely used in industries such as steel, non-ferrous metallurgy, chemicals, carbon black, building materials, and electricity.

It is quite important to control the velocity of flue gas passing through the filter media (referred to as filtration velocity) during the operation of Flosmelt high-temperature dedusting bags. Generally, the filtration velocity is set at 0.5-2 m/min, with a particle rate greater than 0.1 μm, resulting in equipment resistance loss of approximately 980-1470 Pa. Compared to glass fiber filter media, Flosmelt high-temperature dedusting bags have significantly improved resistance to wear, bending, and剥离 strength, enabling them to handle high filtration loads. The filtration velocity of Flosmelt high-temperature dedusting bags can reach 1.0 m/min, with low operating resistance. Flosmelt dedusting bags overcome the weaknesses of synthetic fiber filter media, such as high elongation, significant deformation, and low temperature resistance; and they offer good size stability, strength, and reasonable pricing compared to other chemical fibers.

Application of Fluoromesh High-Temperature Dust Filter Bags:

1. High or fluctuating temperature conditions.

2. High acidity and alkalinity operating conditions.

3. Fine high-temperature dust filtration and valuable metal recovery.

4. High bonding strength or high humidity conditions where coated filter material cannot be used.

5. Suitable Applications: Cement Kiln (kiln head, kiln tail), Vertical Kiln Tail

6. Blast furnace gas purification, iron alloy smelting furnaces, waste incineration furnaces, power plant coal-fired boilers, etc.