So’ooo – Carrier 48GH User Manual

Table 3 — Rated Gas Inputs (Btuh) for Various

Burner Orifices at Indicated Manifold Pressures*

MANIFOLD

NATURAL GAS

LP (Propan

NUMBER

PRESSURE

- — — -

■ -

. -

OF

(in. wg)

Orifice

Orifice

ORIFICES

Nat

LP (Propane)

(Btuh)t

2

3 5

105

LH32DB-205t (Min)

40,000

LH32DB-201

LH32DB-207 (Max)

50,000

LH32DB-060

3

3 5

105

LH32DB-205t (Min)

60,000

LH32DB-201

LH32DB-207 (Max)

75,000

LH32DB-060

4

3 5

105

LH32DB^200t (Min)

80,000

LH32DB-201

LH32DB-096 (Max)

100,000

LH32DB-060

5

3 5

105

LH32DB-200t (Min)

100,000

LH32DB-201

LH32DB-096 (Max)

125,000

LH32DB-060

LH32DB-200t (Min)

120,000

LH32DB-201

6

3 5

10 5

- --------

------

-

LH32DB-096 (Max)

150,000

LH32DB-060

MODEL

NO. 48

GL018,024,030

GH024,030

GL036,042

GH042; GL048

GH036,048

GL060

GH060

‘Data in this table is based on altitudes from sea level up to either

7000 ft above sea level at the minimum rated input, or 2000 ft
above sea level at the maximum rated input For higher altitudes,
follow the recommendations of national and local codes

tGas inputs for natural gas are based on a heating value of

1050 Btu/ft^ with a specific gravity of 0 65 at the factory-set

GAS ___

Heating

Input

(Btuh)t

40.000

50.000

60.000

75,000

so’ooo^

100,000

100

,

000

^

125.000

120

,

000

^

150.000

manifold pressure of 3 5 in wg Gas inputs for LP (propane) gas
are based on a heating value of 2500 Btu/ft^ with a specific
gravity of 1 5 at a manifold pressure of 10 5 in wg

JThese natural gas burner orifices are the factory-supplied

orifices All other natural gas orifices shown are optional field-
supplied orifices

The minimum and maximum rated gas inputs

shown in Table 3 are for altitudes from sea level up
to either 7000 ft above sea level at minimum input,
or 2000 ft above sea level at maximum input. These
inputs are based on natural gas with a heating value

of 1050 Btu per cubic foot at 0.65 specific gravity,
or LP (propane) gas with a heating value of 2500 Btu
per cubic foot at 1.5 specific gravity. For elevations
above either 7000 ft at minimum input or 2000 ft
at maximum input, reduce ratings 4% of maximum
input for each 1000 ft above sea level. When gas
supply being used has a different heating value or
specific gravity, refer to Carrier training and
application materials, national and local codes, or
contact your Carrier dealer to determine required
orifice size.

ADJUSTING GAS INPUT

CAUTION: When adjusting the gas input, do
not change manifold pressure more ihan
03 in. wg above or below setting shown in
Table 3. If larger adjustments are required,
change burner orifices following recommenda­
tions of national and local codes.

Gas input to unit is adjusted by changing mani­

fold pressure. Use REG ADJ screw on gas valve to
change manifold pressure as follows:

To increase input: Turn screw clockwise.

To decrease input: Turn screw counterclockwise.

Gas input can be determined and adjusted by

using one of tbe following 2 recommended methods:

1. Measuring gas flow at meter.

2. Measuring manifold pressure.

Measuring Gas Flow at Meter

NOTE: All other gas appliances that use the same
meter must be turned off when the gas flow is
measured at the meter.

Proceed as follows to measure gas flow at meter

to determine gas input:

a. Determine number of seconds for gas meter test

dial to make one revolution.

b. Divide number of seconds in step a into 3600

(number of seconds in an hour).

c. Multiply result of step b by number of cu ft

shown for one revolution of test dial to obtain
cu ft of gas flow per hour.

d. Multiply result from step cby Btuh heating value

of gas to obtain total measured input in Btuh.
Compare this value with input shown in Table 3.

NOTE: Consult local gas supplier if heating value of
gas is not known.

Example: Assume that size of the test dial is 1 cu ft,
one revolution takes 30 seconds, and heating value
of gas is 1050 Btuh per cubic foot, then proceed

as follows:
a. 30 seconds to complete one revolution.

b. 30 divided into 3600 equals 120.
c. 120 times 1 equals 120 cu ft of gas flow per hour.
d. 120 times 1050 equals 126,000 Btuh input.

If desired gas input is 125,000 Btuh, only a minor

change in manifold pressure is required.

Measuring Manifold Pressure — When heating

value of gas is significantly more or less than design
value, or slight manifold pressure changes are
necessary for other reasons, manifold pressure
may be changed to adjust gas input. Use a water

manometer to measure manifold pressure. If a
spring manometer is used, make sure manometer
is calibrated.

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