Coleman DGAA Installation Manual page 22
High efficiency sealed combustion gas furnace (single stage downflow only) 56-90 mbh input (16.41 -26.38 kw)input
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Also See for DGAA:
- User's information manual (15 pages) ,
- User's information, maintenance and service manual (14 pages)
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129098-UIM-H-1011
In the USA use the following
formula
to calculate the furnace
input.
For natural gas multiply the heat content of the gas BTU!SCF or Default 1030 BTU!SCF (38.4 Mj/m3), times 2 cubic ft. (0.056 m) of gas measured at
the gas meter, times a barometric
pressure and temperature
correction factor of 0.960; times 3600, then divided by the time (In seconds) it took to
measure 2 cubic ft. (0.056 m) of gas from the gas meter.
For propane (LP) gas multiply the heat content of the gas BTU/SCF or Default 2500 BTU/SCF (93.15 Mj/m3), times 1 cubic ft. (0.028 m) of gas mea-
sured at the gas meter, times a barometric pressure and temperature correction factor of 0.960; times 3600, then divided by the time (In seconds) it
took to measure 1 cubic ft. (0.028 m) of gas from the gas meter.
The formula
for US input calculation
using a cubic foot gas meter:
BTU/ft 3 x 2 cu.ft, x 0.960 x 3600
Seconds it took to measure the 2 cu.ft, of gas
NATURAL
GAS INPUT CALCULATION
EXAMPLE:
1030 x 2 x 0.960 x 3600
90.5
Natural Gas
1030 BTU/SCF
=
BTU/H
=
78,666.90
BTU/ft3 x 1 cu,ft, x 0.960 x 3600
=
Seconds it took to measure the 1 cu.ft, of gas
PROPANE (LP) GAS INPUT CALCULATION
EXAMPLE:
2500 x 1 x 0.960 x 3600
=
108
Propane Gas
2500 BTU/SCF
BTU/H
80.000.00
In Canada you will use the following
formula
to calculate the furnace
input if you are using a cubic foot gas meter.
For Natural Gas multiply the Heat content of the gas MJ/m 3 (or Default 38.4), times 2 cubic ft. of gas x 0.028 to convert from cubic feet to cubic
meters measured at the gas meter, times a barometric
pressure and temperature
correction factor of 0.960; times 3600, then divided by the time it
took to measure 2 cubic ft. (0.056 m) of gas from the gas meter.
For Propane (LP) Gas multiply the Heat content of the gas M Jim 3 (or Default 93.15), times 1 cu. ft. of gas x 0.028 to convert from cubic feet to cubic
meters measured at the gas meter, times a barometric
pressure and temperature
correction factor of 0.960; times 3600, then divided by the time it
took to measure 1 cubic ft. (0.028 m) of gas from the gas meter.
The formula
for metric input calculation
using a cubic foot gas meter:
0.2777
=
kW
x
3412.14
=
BTU/H
=
77,796.80
0.2777
=
22.80
x
3412.14
MJ/m 3 x 2 cu.ft, x 0.028 x 0.960 x 3600
=
MJ/H
x
Seconds it took to measure the 2 cu.ft, of gas
NATURAL
GAS INPUT CALCULATION
EXAMPLE:
38.4 x 2 x 0.028 x 0.960 x 3600
=
82.12
x
90.5
Natural Gas
1030 BTU/SCF = 38.4 MJ/m 3
PROPANE
(LP) GAS INPUT CALCULATION
EXAMPLE:
93.15 x 1 x 0.028 x 0.960 x 3600
=
83.46
x
108
Propane Gas
2500 BTU/SCF
= 93.15 MJ/m 3
0.2777
=
23.18
x
3412.14
=
79,093.4
In Canada use the following
formula
to calculate the furnace
input if you are using a gas meter that measures cubic meters.
For Natural Gas multiply the Heat content of the gas MJ/m 3 (or Default 38.4), times 0.10 m3 of gas measured at the gas meter, times a barometric
pressure and temperature correction factor of 0.960; times 3600, then divided by the time it took to measure 0.10 m3 of gas from the gas meter.
For Propane (LP) Gas multiply the Heat content of the gas M Jim 3 (or Default 93.15), times 0.10 m 3 of gas measured at the gas meter, times a baro-
metric pressure and temperature correction factor of 0.960; times 3600, then divided by the time it took to measure 0.10 m3 of gas from the gas
meter.
The formula
for metric input calculation
using a cubic meter gas meter:
0.2777
=
kW
x
3412.14
=
BTU/H
=
78,581.60
0.2777
=
23.03
x
3412.14
MJ/m 3 x m 3 x 0.960 x 3600
=
MJ/H
x
Seconds it took to measure the 0.10 m 3 of gas
NATURAL
GAS INPUT CALCULATION
EXAMPLE:
38.4 x 0.1 x 0.960 x 3600
=
82.94
x
160
Natural Gas
1030 BTU/SCF = 38.4 M Jim 3
PROPANE
(LP) GAS INPUT CALCULATION
EXAMPLE:
93.15 x 0.1 x 0.960 x 3600
=
83.19
x
387
Propane
Gas
2500 BTU/SCF
= 93.15 M Jim 3
0.2777
=
23.10
x
3412.14
=
78,826.3
DO NOT ADJUST the manifold pressure regulator if the actual input is equal to or within 8% less than the furnace input specified on the rating plate
or if the furnace rise is above the specified rise range on the rating plate.
If the actual input is significantly
higher than the furnace
input specified
on the rating
plate then replace the gas orifices with the gas orifices
of the proper size for the type of gas you are using.
For altitudes above 2,000 ft. (610 m) the furnace input MUST BE DERATED. Refer to the GAS CONVERSION
FOR PROPANE (LP) AND HIGH
ALTITUDES
IN SECTION IV for information on high altitude conversions.
22
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