13-18-604 Page 47
Normal Package Operation -
The AirSmart controller includes an algorithm that determines, in real time,
and on the basis of the intake temperature and the programmed target discharge pressure, the minimum
discharge temperature the compressor must attain in order to keep water vapor from condensing in the oil
system. Signals from the controller command the 3-way ball valve servo to rotate and mix hot and cold oil
streams until the desired compressor discharge temperature is achieved. Refer to Figure 5-4 for the dew
point trends of the compressed air at four typical pressure levels.
At startup, the mixing valve is on full bypass mode. As system heat load increases with ambient
temperature or load, the mixing valve sends more oil flow to the cooler to maintain adequate compressor
discharge temperature.
While the mixing valve is in its modulating range (between extremes of valve position), a compressor
discharge temperature deviation exc/- 10
°
F from the calculated value will trigger an alarm display
to caution that a system malfunction is taking place. Note that the alarm is not triggered once the valve
has reached either end-of-travel position, as oil mixing no longer controls the compressor discharge
temperature.
Low Air Demand and Package Operation
– During periods of very low air demand, such as when the
package is operated in short cycles, the oil system may not reach a high enough temperature to keep
water vapor from condensing, in spite of the oil mixing valve bypassing all flow around the heat
exchanger.
Under these conditions, it is recommended that the package operation be prolonged after each unload
condition is achieved - this can be easily accomplished by adjusting the “Auto Timer” option in the
AirSmart controller. Refer to the AirSmart controller user’s manual 13-17-600 for detailed programming
instructions of this parameter and adjust the “Auto Timer” parameter to a value of at least 5 minutes.
Pressure Dew Point Trend
80
90
100
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
30
40
50
60
70
80
90
100
110
120
130
Am bient Tem p - °F
Discharge PDP -°F
100psig
125psig
150psig
175psig
Figure 5-4 – PRESSURE DEW POINT OF COMPRESSED AIR