2025-01-30 智能化学会动态 0
TFC/GFC/DFC型反吹风布袋除尘器是应用了分室循环反吹清灰的原理。DFC、GFC、TFC分室反吹布袋除尘器配有的自动程序控制清灰电控系统,为了调试维护检修和除尘系统的连续运行,电控系统还具有手动清灰功能。其中的电控系统具有反吹清灰自动监测功能,是一种下进风、内滤式的除尘器。作为净化含尘浓度小于1g/Nm³,颗粒为0.1μm以上,温度小于260℃含dust气体的设备,TFC/GFC/DFC型反吹风布袋除尘器除了效率可达99%以上。DFC/GFCType reverse blow bag dust collector is a type of cyclone separator that uses the principle of reverse blow to separate and collect dust particles.
The characteristics of TFC/GFCType reverse blow bag dust collectors are as follows:
Dust collection: The device can capture particles larger than 0.3 microns, with an efficiency rate of 99% or higher.
Flexibility in use: The device can handle airflow rates ranging from several hundred cubic meters per hour to tens of thousands of cubic meters per hour, making it suitable for both small-scale and large-scale applications.
Simple structure and stable operation: The device has a simple structure and runs stably, with lower initial investment compared to electrostatic precipitators.
Long-lasting filter materials: The key filter material used in the device typically lasts for more than two years, with some lasting up to four or six years.
Reduced sulfur dioxide emissions in dry or semi-dry flue gas desulfurization systems.
The working principle of TCF/GFCTType reverse blow bag dust collectors involves the following steps:
Firstly, dusty gas enters the collector through a cyclone separator, where coarse particles are separated out by centrifugal force before entering the main body of the collector.
Secondly, fine particles continue on into a series of filters housed within individual compartments within the collector's main body.
Finally, clean air exits through outlets at one end while collected dust accumulates inside designated receptacles at another end.
This type of equipment is widely used across various industries such as power generation plants; food processing facilities; metalworking factories; chemical manufacturing plants; construction sites; industrial furnaces & boilers etcetera due its versatility & high efficiency performance levels achieved during filtration processes undertaken by these devices when applied effectively throughout their operational lifetimes resulting ultimately leading towards achieving cleaner environments along side improved quality standards pertaining respective product outputs produced over time since inception till date now onwards henceforth forevermore so long may this be our mission statement going forward into future endeavors seeking continuous improvement striving always betterment never settling complacency embracing innovation constantly learning adapting evolving ever-changing times we live today tomorrow next week month year decade century millennia beyond eternity!
