Techflow Enterprises Pvt Ltd is skillfully one of the dependable and significant suppliers of goods like pulse jet Dust Collector for Mixer, Bag House, Dust Recovery System, Air Pollution Control Device, De-Dusting System, Furnace Fume Extraction System, Cassette Type Filter, Online Cleaning Bag Filter, Electrostatic Precipitator, Bag Filter, ESP, Silo Vent Filter, Air Pollution Control Equipment, Centrifugal Fans & Blowers, Flue Gas E
We, Techflow Enterprises Pvt Ltd, have been supplying vital equipment to many industries, including foundry & steel, solid drying, glass, wood-working & laminates, cement, hot gases & fumes, mining & minerals, boilers flue gas, coal handling, air pollution control systems, and more.
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| Dust Collector for Mixer Applications |
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The contaminated air rushes through the cartridges of the Pulse Jet Dust Collector for Mixer and traps the dust molecule, guaranteeing that only clean and contaminant-free air is left in the environment. The advantages of the Cartridge type Pulse Jet Dust Collector for Mixer include its small size and minimal space requirement. The main justification for the widespread adoption of these technologies in Mixer is this. Techflow offers a wide selection of Pulse Jet Dust Collectors for Mixers, with capacities ranging from 1000 to 100,000 cu metres per hour. These cartridge filters work with additional parts and alternatives such surface filtration technologies, discharge devices, and a range of textiles appropriate for different applications. |
TECHNOFLOW builds and provides a remarkably effective pollution control solution. We can list a few of the numerous names for these systems that are well-known both domestically and internationally: ESP for a boiler, Baghouse, Pulse Jet Bag Filter, Dust Collector for Mixer, and Bag Filter for Boiler.
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1. Online Cleaned Pulse Jet Dust Collector for Mixer
The air that is filled with dust enters the hopper where the heavy molecule falls out of the air stream. The heavier particles are caught in the air and rise into the filter bags as a result. As the cleaned air is drained through the collector, it passes through the filter bags, collecting dust particles on their exterior side surfaces. Through blowpipes and pulses, the pressured air jets moved through the venturies at precise intervals. This includes a secondary air flow that is strong and temporarily switches through the bags. As a result, an internal shock wave is created, which causes the bag to compress and expand outward as the shock propagates down its length. The procedure allows dust to be released from the inverted airflow on the bag's surface, which sinks into a collection known as a hopper. With this method, the airflow is temporarily switched across a row of bags. The dust collector will then have constant airflow as a result of this. A Solid State timer easily controls and adjusts the Cleaning Operation. The timer's faultless regulation is made possible and controlled by a differential pressure gauge. The pulse intervals and durations can be accurately and easily changed at the timer to reduce the process's use of compressed air.
2. Off line Cleaned Pulse Jet Dust Collector for Mixer
It's also feasible to divide the Pulse-Jet baghouses. In this instance, the isolation/poppet valves located in the clean air plenum regulate the passage of the impure air into the compartments. One of two options is to install a single pulse valve in each compartment, which pressurises the group of bags, or to install individual pulsing valves, which direct the immediate pulsing air into the blowpipes outside the bag rows in the compartment. During the cleaning procedure, the isolation damper closest to the compartment blocks the airflow. Air is blasted into the bags for around two seconds through the pulse valve's entrance as part of the cleaning procedure. The compartment doesn't turn on or off while it pulses. Depending on the circumstance, that period may be lengthened or shortened. The compartment is returned to the stream upon the isolation/automatic poppet's closure. Up to and unless all of the bags in the baghouse are cleaned, the alternate compartments are cleaned one after the other using a method called "off-line cleaning." The baghouse frequently uses fabric filters that are mounted on lower bulk density products or dust, allowing thorough bag cleaning while continuously achieving significantly lower emission levels.
