6
OUTLET DEWPOINT
DEW POINT
TEMPERATURE
MULTIPLIER
°
F
°
C
38
3
1.0
40
4
1.1
45
7
1.2
50
10
1.3
COOLING MEDIUM*
AMBIENT
TEMPERATURE
MULTIPLIER
°
F
°
C
80
27
1.12
90
32
1.06
100
38
1.00
110
43
0.94
INLET COMPRESSED AIR CONDITIONS
INLET
INLET TEMPERATURES
PRESSURES
80
°
F
90
°
F
100
°
F
110
°
F
psig
kgf/cm
2
27
°
C
32
°
C
38
°
C
43
°
C
50
3.5
1.35
1.05
0.84
0.69
80
5.6
1.50
1.17
0.95
0.79
100
7.0
1.55
1.23
1.00
0.82
125
8.8
1.63
1.31
1.07
0.91
150
10.5
1.70
1.37
1.13
0.95
175
12.3
1.75
1.42
1.18
0.99
200
14.0
1.80
1.47
1.22
1.03
3.1 Condenser coil—
Clean off accumulated dust and dirt monthly or as
necessary in dirty environments.
3.2 Moisture separator/Filter and optional Oil
Removal Filter—
Replace filter element when pressure drop across
dryer is excessive or annually.
3.3 Check separator daily to be sure automatic
drain is discharging.
3.4 Replace or rebuild drain mechanism annually.
To facilitate service, maintenance kits are available.
Please refer to page 11.
3.0 Maintenance
Sizing
Determining dryer capacity at actual operating
conditions
To determine the maximum inlet flow capacity of a dryer
at various operating conditions, multiply the rated
capacity from Table 1 by the multipliers shown in Table 2.
Example:
How many scfm can an air-cooled model
RNC100 handle when compressed air to be dried is at 80
psig and 90
°
F; ambient air temperature is 80
°
F; and a
38
°
F dew point temperature is desired?
Answer:
100 x 1.17 x 1.12 x 1.0 = 131 scfm.
TABLE 2
Air capacity correction factors (Multipliers)
25
35
50
75
100
MODEL
Rated capacity of
60 Hz
25
35
50
75
100
air-cooled models (scfm)
50 Hz
21
29
42
63
84
TABLE 1
Rated capacity (scfm) and pressure drop @ 100 psig inlet
pressure, 100
°
F inlet temperature, and 100
°
F ambient
temperature
*Air-cooled models
Bowl
O-Ring
Wave Spring
Pneumatic Pilot
Operated Drain
Tube
Separator Element
or Optional Oil Removal
Element
Timer Drain Valve
(ONLY with I-Controller Level 2)
