Aircel AHLD E-Series, Инструкция по установке и эксплуатации

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10
Technical Specifications
How Does it Work?
(see diagram 1)
Moisture saturated compressed air enters the
coalescing pre filter (F1) where aerosols are
coalesced then drained via an automatic drain
system. The moist water vapor-laden inlet air
free of liquid water flows to the inlet of the dryer
through the APV (Automatic Piston Valve) (V1)
which diverts the inlet air to one of the towers, in
this example tower (T1). Air flows upward through
the adsorbent bed removing the moisture vapor,
the dried airflow exits the tower through the outlet
APV valve (V2) flowing to the outlet particulate
after filter (F2) which removes particulates from
the air stream. Clean and dry air now flows to the
process air distribution system.
As one tower is drying air, the other tower will be
regenerating (purging) the adsorbent bed. In this
example, tower (T2) will be regenerating. Prior
to regeneration, the exhaust valve (V4) is opened
and the tower is depressurized to near atmospheric
pressure, the tower will now be regenerating.
During the regenerating process a small portion of
dry outlet compressed air is used, 15% on average
based on standard design capacity of 100 psig,
100°F inlet air, 100°F ambient air and PDP of
-40°F. The dry regeneration airflow is channeled
through the outlet APV valve to the regenerating
tower (T2) removing moisture from the adsorbent
bed and exits the regenerating tower (T2) through
exhaust valve (V4) and exhaust muffler to ambient.
After regeneration cycle is complete, valve (V4)
closes causing tower (T2) to repressurize to line
pressure.
Next, the towers will switch when exhaust valve
(V3) opens causing tower (T1) to depressurize and
regenerate, simultaneously the inlet and outlet APV
valves (V1) and (V2) will shift the pistons to the
low pressure tower (T1) causing the inlet airflow
to be diverted to tower (T2) which will now be the
drying tower. This switching process will continue
repeatedly.
The dryer control system is completely automatic
and cycles the system through the drying and
regeneration cycles. The standard cycle drying time
is 5 minutes, regeneration cycle is 4 minutes, and
repressurizing cycle is 1 minute.
The Aircel AHLD E-Series Heatless Dryer
incorporates a unique energy saving control system
to reduce purge air loss with its integrated Energy
Management Purge Reduction System which utilizes
a moisture sensor sampling the air from mid bed of
the on-stream drying tower, after the fixed purge
time is complete the regenerating/purging tower will
repressurize. If the moisture sensor senses a low
moisture condition or low load in the drying tower,
the drying tower will remain in the drying mode
after the fixed drying time cycle for an extended
period of time. The end result is an overall purge
reduction and significant energy savings.
CAUTION!
• Do not misuse or modify under any
conditions. Misuse or modification
of this equipment may result in
personal injury.
Aircel AHLD E-Series - Models 70 - 750