GrassGreen FCT industrial baghouse dust collector is designed for high-demand working conditions and harsh industrial environments such as high temperature, heavy load, and humidity.

FCT has the characteristics of high reliability, high purification efficiency, easy maintenance and use, etc. It can be used in steel, non-ferrous metallurgy, building materials, mining, chemical industry, grain, carbon black and other industries to control dust pollution and purify the environment.

Compared to dust collectors produced by other factories, our units are mainly assembled using bolt connections, requiring only a small amount of welding for on-site installation, reducing the workload of on-site installation and significantly lowering the requirements for workers' abilities.

Main Features:

l Better filtration effect:

n The pleated filter is used internally. The filtration area of the pleated filtercan be 300% higher than that of traditional filters, and it is easy to install.

n The filter material membrane technology can enhance the air filtration performance of the filter material surface, making the dust removal efficiency reach more than 99.99%, and achieving ultra-low emissions.

l Longer service life of the Baghouse filters:

n Because the filtration method is bottom in and top out, a deflector and a settling chamber are set up at the lower air inlet, which can reduce the contact between dust and the filter element and reduce the wear of the filter element;

n The built-in sedimentation chamber has a certain pre-separation function. For dust whose gravity is greater than the upward floating force, it will be deposited into the dust bucket through pre-separation and no longer exert a load on the filter element.

n The special design of the downward air inlet also allows dust to enter the filter more uniform inside the container.

l Save compressed air:

n Since dust remains on the surface instead of under the PTFE coating layer, it is easy to be blown away from the PTFE coating layer by pulses. Therefore, compared with traditional depth media, compressed air pulsation blowing can be greatly reduced. number of scans.

l Saves costs:

n The filtration work is almost entirely completed by the PTFE-coated surface layer. The surface is a barrier that prevents submicron particles from entering and becoming embedded in the filter media beneath the PTFE membrane. This way, the pressure cannot increase quickly, significantly reducing power requirements.

n Due to lower pressure drop and fewer pulsation cleaning times, the service life of the PTFE coated filter element can be doubled and the replacement cost can be reduced by half.

l Modular design:

n The structure of the dust collector adopts a modular design, which can be expanded and extended at will according to the site conditions, and has excellent scalability.

n Each FCT industrial-grade cartridge dust collector can be customized according to user requirements and can be equipped with different filter media to optimize system performance.

n Each part of the system, including hoppers, dirty air inlets, fans and controls, can be configured to meet the specific needs of each plant.

Purification principle:

Dusty air enters through the air inlet. When passing through the deflector, large particles hit the deflector and sink into the ash hopper. The rest of the dusty air enters the settling chamber. Due to the sudden expansion of the flow section, the rising speed slows down and some particles fall into the ash hopper again. .

Under the action of the induced draft fan, the airflow containing fine dust rises and evenly fills the entire filter chamber. The fine dust is retained on the surface of the filter cartridge, and the clean gas passes through the filter cartridge and enters the upper box and is discharged from the air outlet.

When the dust accumulated on the filter cartridge reaches a certain resistance, the pulse valve opens, and the compressed air rushes into the filter cartridge at high speed through the small hole on the blow pipe facing the filter cartridge. When it rushes into the inside of the filter cartridge, it induces a wave of The secondary air flow, which is several times that of compressed air, generates an instantaneous shock wave and propagates downward along the length of the entire filter cartridge, causing the dust accumulated on the outer surface of the filter cartridge to fall from the filter cartridge. After the dust cleaning is completed, the pulse valve is closed, and the fallen dust is discharged through the discharge valve through the conveying equipment.