The Dust Collector; Fabric,
Baghouse, Cartridge and Jet Dust Collector
by Gary Berwick, P. Eng.
Quality Air Management
Waterloo, Ontario, Canada
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History
The first
pulse jet
dust collector was developed ... early 1960’s... The pulse valves selected
were diaphragm valves ...They decided to use several valves in a
baghouse dust collector
and pulse them with an electronic timer ... It became apparent that the
frequency of cleaning was a function of the load to the fabric dust collector. ... for
loadings of 300 grains the collectors would operate at a filtering velocity
of between 7 and 9 feet per minute. At material handling facilities such
as a quarry would operate at a filtering velocity of 14 to16 feet per minute.
The typical pressure drop in these baghouse dust collector designs were about 2 to 3.5
inches water gage pressure ... Determining the filter velocity (then referred
to as filter ratio) became a rather complicated procedure. The ratio presumably
was determined by dust load, fineness of the dust, temperature of process
gas stream, and other factors. The hopper inlet was a carry over design
from both the blow ring fabric dust collectors and the previous mechanical shaker
dust collectors.
By 1969, there were over 10,000 collectors in operation. Almost all of them
were installed on process equipment or in Foundries.... units had nominally
eight foot long bags. Bag life was usually 4 to 7 years.
Select the dust collector best suited for your needs
Engineering Disaster 1971
...The market changed radically because Air Pollution Control Regulations
became effective. Many new suppliers entered the market. In order to compete
... They went from 6 foot to 10 foot bags. They increased their pulse pipe
holes by the same ratio. The whole industry followed and copied the new
design... At the time ... kept the same venturi sizes. This increased the
jet velocity of the cleaning jet by 66 per cent.
...With the new designs pressure drop increased to 4 ½ - 6 ½ inches w.c..
Compressed air consumption increased by over 50% for similar applications.
Bag life was reduced by over 50%.
In reaction to these problems the filter ratios were reduced to between
4-6 on almost all applications.
Reasons for Disaster ... obvious truth, that the velocity with
which the dust is ejected from the bag during cleaning is proportional to
the velocity of the cleaning jet. At the new velocities, dust is driven
toward adjacent rows of bags in the filter mode. Depending on the dust density,
the dust will be driven through the adjoining cake into the clean side of
the bags... Even after the equilibrium the dust still penetrates and bag
wear is high...
More information on baghouse dust
collectors
Reverse Air Fan induced pulsed air collectors
...compressed air as it left the pulse pipes was subject to refrigeration
cycle as the compressed air expanded. The first approach was to apply reverse
air blowers to the cleaning system ... The downside of these collectors
was that the fan on top of the roof of the collectors were difficult to
service ...
Air Pump Pulse Jet collectors with 8-10 psi operation
...They used the technique of a cylindrical housing and a rotating pulsing
arm but reduced the effects of the refrigerant cycle and loss of energy
... Also in the advanced technology concepts, they reduced the velocity
and the effect of the air leaving the bags propelled to adjoining bags during
cleaning.... The collectors usually had the effect of a high inlet as the
air entered the bags mostly through the hollow cylinder in the middle of
the cylindrical housing...
Today’s Conditions
The disastrous design, mentioned above, continues to be employed by most
of the pulse jet collector suppliers in the world... equipment is built
by the lowest cost suppliers.
New Technology
Some 25 years ago ... developed a
new pulse jet collector that basically changed the cleaning system design. The key to this design
was that he changed the jet velocity to a fraction of the existing designs.
This eliminated the penetration of dusts from the row of cleaning bags to
the adjoining rows in a filtering mode.
This allowed pulse jet collectors to operate at lower pressure drops
(2-3 inches w.c.), lower air consumption (50-75% less), 3 to 4 times more
bag life and filter ratios of over 12 : 1 on any application while decreasing
dust penetration by up to 90%.
The New Pulse Jet Collector
Baghouse dust
collectors now available and manufactured in the USA and Canada.
There are many different considerations of using this
new technology more
effectively... This technology is an on going process. We have seen radical
changes in periods of less than six months as new components and new manufacturing
procedures are developed.
This technology allows the client to adapt to different field conditions...
These collectors have been applied to incinerators which operate under the
most difficult conditions... There are techniques to design nozzles to install
on pulse pipes which will increase the velocity to around 1690 feet per
second and lower air consumption by 30%.
More information on baghouse dust
collectors
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