Sterling RF-30 User Manual
21
PRIMARY AIR SHUTTER ADJUSTMENT
Primary air adjustment is made at the factory. No field adjustments are necessary.
GAS INPUT RATE
Check the gas input rate as follows (Refer to General
Safety Information section for metric conversions).
Safety Information section for metric conversions).
Never overfire the unit heater, as this
may cause unsatisfactory operation, or shorten the
life of the heater.
life of the heater.
1.
Turn off all gas appliances that use gas through the
same meter as the unit heater.
same meter as the unit heater.
2.
Turn the gas on to the unit heater.
3.
Clock the time in seconds required to burn 1 cubic
foot of gas by checking the gas meter.
foot of gas by checking the gas meter.
4.
Insert the time required to burn one cubic foot of
gas into the following formula and compute the input
rate.
gas into the following formula and compute the input
rate.
3600 (Sec. per Hr.) X BTU/Cu. Ft.
= Input Rate
Time (Sec.)
For example:
Assume the BTU content of one cubic foot of gas is
1000, and that it takes 48 seconds to burn one cubic
foot of gas.
Assume the BTU content of one cubic foot of gas is
1000, and that it takes 48 seconds to burn one cubic
foot of gas.
3600 x 1000
= 75,000
48
NOTICE: If the computation exceeds, or is less than
95% of the gas BTU/hr. input rating (see Table 1),
adjust the gas pressure.
95% of the gas BTU/hr. input rating (see Table 1),
adjust the gas pressure.
Adjust the gas pressure as follows:
1.
NATURAL GAS: Best results are obtained when
the unit heater is operating at its full rated input
with the manifold pressure of 3.5 inches W.C. (0.9
kPa). Adjustment of the pressure regulator is not
normally necessary since it is preset at the factory.
However, field adjustment may be made as follows:
a. Attach manometer at the pressure tap plug below
the unit heater is operating at its full rated input
with the manifold pressure of 3.5 inches W.C. (0.9
kPa). Adjustment of the pressure regulator is not
normally necessary since it is preset at the factory.
However, field adjustment may be made as follows:
a. Attach manometer at the pressure tap plug below
the control outlet.
b. Remove the regulator adjustment screw cap,
located on the combination gas valve.
c. With a small screwdriver, rotate the adjustment
screw counterclockwise to decrease pressure,
or clockwise to increase pressure.
or clockwise to increase pressure.
d. Replace regulator adjustment screw cap.
2.
PROPANE GAS: An exact manifold pressure of
10.0 inches W.C. (2.5 kPa) must be maintained for
proper operation of the unit heater. If the unit is
equipped with a pressure regulator on the
combination gas valve, follow steps "a" through "d"
above. If the unit is not so equipped, the propane
gas supply system pressure must be regulated to
attain this manifold operating pressure.
10.0 inches W.C. (2.5 kPa) must be maintained for
proper operation of the unit heater. If the unit is
equipped with a pressure regulator on the
combination gas valve, follow steps "a" through "d"
above. If the unit is not so equipped, the propane
gas supply system pressure must be regulated to
attain this manifold operating pressure.
3.
The adjusted manifold pressure should not vary
more than 10% from pressure specified in Tables 5
& 6.
more than 10% from pressure specified in Tables 5
& 6.
Table 5 - Main Burner Orifice Schedule*
TUBULAR UNIT HEATER
HIGH ALTITUDE DERATION
This Tubular Unit Heater has been manufactured utilizing
standard burner orifices and a normal manifold pressure
setting as per the specifications shown on your unit
rating plate (refer to Tables 3, 5 and 6).
HIGH ALTITUDE DERATION
This Tubular Unit Heater has been manufactured utilizing
standard burner orifices and a normal manifold pressure
setting as per the specifications shown on your unit
rating plate (refer to Tables 3, 5 and 6).
All unit deration must be done through field adjustments
by a qualified technician (refer to Table 6). Once the
proper adjustments are made in the field, attach label
#J17-06459 to the unit, and record adjusted manifold
pressure, altitude of the unit installation and the
technician’s name and date on the label using a
permanent marker.
by a qualified technician (refer to Table 6). Once the
proper adjustments are made in the field, attach label
#J17-06459 to the unit, and record adjusted manifold
pressure, altitude of the unit installation and the
technician’s name and date on the label using a
permanent marker.
*
INPUT
IN
1000
BTU
2500 BTU/Ft
3
(93.1 MJ/m
3
)
PROPANE
TYPE OF GAS
NATURAL
1075 BTU/Ft
3
(40.1 MJ/m
3
)
3.5" W.C.
(0.87kPA)
10" W.C.
(2.49 kPA)
NO. OF
BURNER
ORIFICES
MANIFOLD
PRESSURE
2
3
4
5
5
30
45
60
75
90
FT
3
/HR
ORIFICE DRILL
FT
3
/HR
ORIFICE DRILL
FT
3
/HR
ORIFICE DRILL
FT
3
/HR
ORIFICE DRILL
FT
3
/HR
ORIFICE DRILL
28
49
42
49
56
49
70
49
84
47
49
42
49
56
49
70
49
84
47
12
57
18
57
24
57
30
57
36
55
57
18
57
24
57
30
57
36
55
HEATING VALUE
*This schedule is for units operating at normal altitudes of 2000 ft. (610m)
or less.
or less.
When installed in Canada, any references to deration at altitudes in excess
of 2000 ft. (610m) are to be ignored. At altitudes of 2000 to 4500 ft. (610 to
1372m), the unit heaters must be orificed to 90% of the normal altitude
rating, and be so marked in accordance with ETL certification.
of 2000 ft. (610m) are to be ignored. At altitudes of 2000 to 4500 ft. (610 to
1372m), the unit heaters must be orificed to 90% of the normal altitude
rating, and be so marked in accordance with ETL certification.