| |
Sizing
ThermaPhase Units
To size a ThermaPhase unit, you must know the
volume of air being compressed, the relative humidity of the air
and the inlet temperature. Table 1 is a chart showing the
SCF/M of compressed air required to produce one gallon per hour of
condensate at various inlet temperatures and relative humidities.
|
Step 1
|
Locate on
Table
1 the SCF/M of air factor using the inlet temperature
and relative humidity of the application. |
|
Step 2
|
Divide the SCF/M of air
required by the application of the SCF/M of air factor
obtained from Table 1. This
number is the gallons of condensate per hour required to be
processed by the ThermaPhase. |
|
Step 3
|
Pick a ThermaPhase unit
with capacity to handle the condensate from Table
2. |
500 SCF/M • Air Temp - 70ºF
• Relative Humidity -70%
|
Step 1
|
Referring to
Table 1 for
an air temperature of 70ºF and a relative humidity of 70%,
we find an air factor of 174.3 |
|
Step 2
|
Dividing our compressor
capacity of 500 SCF/M by the air factor:
500SCF/M / 174.3 SCF/M/Gal/Hr
= 2.87 Gal/Hr.
|
|
Step 3 |
Referring to
Table 2, we
find it takes a ThermaPhase TP-12 to handle this application. |
|
TABLE
1
SCF/M
Air Per Gallon of Water Per Hour |
|
Relative
Humidity |
40ºF |
50ºF |
60ºF |
70ºF |
80ºF |
90ºF |
100ºF |
|
40% |
923.5 |
628.9 |
436.5 |
307.3 |
219.1 |
158.1 |
115.5 |
|
50% |
737.3 |
502.8 |
348.9 |
245.1 |
174.6 |
125.9 |
91.8 |
|
60% |
613.5 |
418.8 |
290.0 |
203.8 |
145.0 |
104.4 |
76.0 |
|
70% |
525.4 |
358.1 |
248.2 |
174.3 |
123.8 |
89.1 |
64.7 |
|
80% |
459.4 |
313.3 |
216.6 |
152.1 |
108.0 |
77.5 |
56.2 |
|
90% |
408.1 |
278.1 |
192.2 |
134.8 |
90.8 |
68.6 |
49.6 |
|
100% |
367.1 |
250.0 |
172.7 |
121.0 |
85.8 |
61.4 |
44.4 |
|
TABLE
2
Evaporation
Rate - Gallons per Hour |
| |
UNIT |
GALS.
/ HOUR |
|
|
TP -
6 |
1.9 |
|
TP -
12 |
4.1 |
|
TP -
18 |
6.2 |
|
TP -
24 |
8.3 |
|
TP -
36 |
12.5 |
|
TP -
54 |
18.8 |
|
TP -
72 |
25.1 |
|
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