AAF International Millennium User Manual

9

the dust on the outside surface of the individual filter bags. The

cleaned air leaves the filter bags and discharges into the plenum at

the top of the collector, where it is then exhausted through the outlet.
The filter bags are periodically cleaned by bursts of compressed air

that are directed down the inside of the bags. A venturi located in the

top of the bag cage induces additional air to the inside of the bags

being cleaned. This reverses the flow of air through the bags and

dislodges the dust cake from the surface of the bag, allowing it to

settle into the hopper. Since only a small percentage of the bags are

cleaned at one time, the unit remains in continuous operation.
Hoppers are designed to receive the dust and are not for

storage. The recommended practice is to continuously empty the

hopper by means of a rotary lock and/or screw conveyor, or by some

other discharge device.

6.0 Maintenance

6.1 Daily

Record the collector pressure drop daily for at least the first 30 days

of operation. Adverse operating conditions can be detected by a

change in pressure drop. An optional pressure gauge is available from

AAF to provide the pressure drop reading across the dust cake and

fabric. After startup, the pressure drop will gradually rise to its normal

operating level of approximately 2" to 5" w.g.
6.2 Monthly

A regular inspection of the filter bags should be made within 30 days

of start up. Any faulty or worn bags/tubes must be replaced to prevent

damage to the collector. The compressed air line regulator, dryer, and

filter should be checked for proper operation. Also inspect the dust

discharge device on the hopper outlet for proper operation.
6.3 Six Months

Ducts leading to and from the collector should be inspected for dust

accumulation at a minimum of every six months. In addition, the

following inspections should be made:
1. Examine the bags for wear with special attention to seams

and stitching.

2. Examine the internal components for wear.
3. Inspect all joints for evidence of air or dust leakage.
4. Check for evidence of moisture or dust accumulation within

the collector.

5. Check all electrical apparatus for proper operation.
6. Ensure the diaphragm and solenoid valves are pulsing when

energized by the timer.

7. Check discharge gas condition for signs of dust.
8. Check explosion vents.

7.0 Troubleshooting

7.1 High Pressure Drop Reading

1. Improper Timer Operation

Check the wiring, fuses, and setting of pulse duration and interval.

CAUTION: Do not adjust the pulse duration without consulting an

AAF representative.

2. Insufficient Compressed Air

Check the air supply to ensure the compressor is providing 80 to

100 psig. Check for a plugged filter in the compressed air line.

3. Solenoid Pilot Valve Malfunction

Listen to verify the solenoid valves are firing. Check for momentary

air venting each time they fire. Clean or replace, if necessary.

4. Pulse Valve Malfunction

Pulse pipe jets should be checked to verify operation of the

pulse valves. Pulse valves can be easily disassembled and

rebuilt in place.

5. Leaking Dust Discharge Device

A leaking rotary lock, screw conveyor, slide gate, etc. can overload

the Millennium by preventing dust discharge after pulsing. This

causes high pressure drop, excessive bag wear, and reduced air

volume. Seal any such leaks.

6. Condensation

High humidity may cause blinding of bags, which results in

excessive pressure drop. Run the cleaning mechanism with the

fan off and the program timer on, or with the pressure switch set to

zero, to release the dust cake. If condensation is a recurring

problem, pre-processing warm-up and post-processing purge

periods of 15 to 30 minutes each may help. Exterior insulation may

also be necessary. Sources of moisture may come from leaking

process ductwork, moisture in the process gas stream, or moisture

in the compressed air system.

7. Static Electricity

Static buildup can cause a high pressure drop. If possible,

increase the humidity using discretion to avoid creating

condensation. Grounded bags may also be required in situations

where a spark may result in ignition of an explosive dust.

8. Collector Overloads

Too much air or dust will create high pressure drops across the

collector. Check the fan speed, system design, pre-cleaners, and

the damper position. Also ensure the dust load and air volume is

within the system design parameters.