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Carrier 59SC2A - Page 63

Carrier 59SC2A
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les
UO
D
The
NATURAL
GAS
manifold
pressure
adjustments
in
Table
21
compensate
for
BOTH
altitude
AND
gas
heating
value.
DO
NOT
apply
an
additional
de-rate
factor
to
the
pressures
show
in
Table
21.
The
values
in
this
table
are
NOT
referenced
to
sea
level;
they
are
AS-MEASURED
AT
ALTITUDE.
The
heating content
of
natural
gas
at
altitude
may
already
provide
for
a
reduction
in
capacity
of
the
furnace.
Be
sure
to
obtain
the
expected
in-season
gas
heating
value
of
the
gas
from
the
gas
supplier
BEFORE
making
any
adjustments
for
capacity
or
altitude.
Refer
to
Table
21.
No
adjustments
to
the
furnace
may
be
necessary
at
altitude
for
certain
gas
heating
values.
Refer
to
the
instructions
provided
in
the
factory-specified
LP/Propane
conversion
kit
for
instructions
for
setting
gas
manifold
pressures
for
LP/Propane
applications.
In
the
USA,
the
input
rating
for
altitudes
above
2000
ft.
(609.6M)
must
be
reduced
by
2
percent
for
each
1000
ft.
(304.8M)
above
sea
level.
Refer
to
Table
19.
The
natural
gas
manifold
pressures
in
Table
21
adjust
for
BOTH
altitude
and
natural
gas
heating
value.
In
Canada,
the
input
rating
must
be
reduced
by
5
percent
for
altitudes
of
2000
ft.
(609.6M)
to
4500
ft.
(1371.6M)
above
sea
level.
The
natural
gas
manifold
pressures
in
Table
21
adjust
for
BOTH
altitude
and
natural
gas
heating
value.
NOTE:
For
Canadian
altitudes
of
2000
to
4500
ft.
(610
to
1372
M),
use
USA
altitudes
of
2001
to
3000
ft.
(611
to
914
M)
in
Table
21.
To
adjust
manifold
pressure
to
obtain
the
proper
input
rate,
first,
determine
if
the
furnace
has
the
correct
orifice
installed.
At
higher
altitudes
or
different
gas
heat
contents,
it
may
be
necessary
to
change
the
factory
orifice
to
a
different
orifice.
Tables
have
been
provided
in
the
furnace
installation
instructions
to
match
the
required
orifice
to
the
manifold
pressure
to
the
heat
content
and
specific
gravity
of
the
gas.
To
do
this:
1.
Obtain
average
yearly
gas
heat
value
(at
installed
altitude)
from
local
gas
supplier.
bo
.
Obtain
average
yearly
gas
specific
gravity
from
local
gas
supplier.
3.
Find
installation
altitude
in
Table
21.
4.
Find
closest
natural
gas
heat
value
and
specific
gravity
in
Table
21.
Follow
heat
value
and
specific
gravity
lines
to
point
of
intersection
to
find
orifice
size
and
manifold
pres-
sure
settings
for
proper
operation.
5.
Check
and
verify
burner
orifice
size
in
furnace.
NEVER
ASSUME
ORIFICE
SIZE.
ALWAYS
CHECK
AND
VERIFY.
If
orifice
hole
appears
damaged
or
it
is
suspected
to
have
been
redrilled,
check
orifice
hole
with
a
numbered
drill
bit
of
correct
size.
Never
redrill
an
orifice.
A
burr-free
and
squarely
aligned
orifice
hole
is
essential
for
proper
flame
characteristics.
6.
Replace
orifice
with
correct
size,
if
required
as
shown
in
Table
21.
Use
only
factory-supplied
orifices.
See
EX-
AMPLE
1.
EXAMPLE
1:
0
-
2000
ft.
(0
-
609.6M)
altitude
Heating
value
=
1050
Btu/cu
ft.
Specific
gravity
=
0.62
Therefore:
Orifice
No.
44
(Furnace
is
shipped
with No.
44
orifices.
In
this
example,
all
main
burner
orifices
are
the
correct
size
and
do
not
need
to
be
changed
to
obtain
proper
input
rate.)
Manifold
pressure:
3.4-in.
w.c.
(847
Pa).
NOTE:
To
convert
gas
manifold
Table
pressures
to
Pascals,
multiply
the
in.
w.c.
value
by
249.1
Pa/in.
w.c.
(1
in.
w.c.
=
249.1
Pa).
1.
Adjust
manifold
pressure
to
obtain
proper
gas
input
rate.
See
Fig.
53.
a.
Turn
gas
valve
ON/OFF
switch
to
OFF.
b.
Remove
manifold
pressure
tap
plug
from
gas
valve.
c.
Connect
a
water
column
manometer
or
similar
device
to
manifold
pressure
tap.
d.
Turn
gas
valve
ON/OFF
switch
to
ON.
e.
Manually
close
blower
door
switch.
f.
Jumper
R
and
W
thermostat
connections
on
control
to
start
furnace.
See
Fig.
36.
g.
Remove
regulator
adjustment
cap
from
gas
valve
pressure
regulator
and
turn
adjusting
screw
(3/16
or
smaller
flat-
tipped
screwdriver)
counterclockwise
(out)
to
decrease
in-
put
rate
or
clockwise
(in)
to
increase
input
rate.
See
Fig.
53.
DO
NOT
set
manifold
pressure
less
than
2.8-in.
w.c.
(697
Pa)
or
more
than
3.8
in.
w.c.
(947
Pa)
for
natural
gas.
If
required
manifold
pressure
is
outside
this
range,
change
main
burner
orifices
to
obtain
manifold
pressure
in
this
range.
h.
When
correct
input
is
obtained,
replace
cap
that
conceals
gas
valve
regulator
adjustment
screws.
Main
burner
flame
should
be
clear
blue,
almost
transparent
See
Fig.
61.
i.
Remove
jumper
R
to
W.
2.
Verify
natural
gas
input
rate
by
clocking
meter.
NOTE:
Contact
your
HVAC
distributor
or
gas
supplier
for
metric
gas
meter
Tables,
if
required.
a.
Turn
off
all
other
gas
appliances
and
pilots
served
by
the
meter.
b.
Jumper
R
to
W.
c.
Run
furnace
for
3
minutes.
d.
Measure
time
(in
sec)
for
gas
meter
to
complete
one
revolu-
tion
and
note
reading.
The
2
or
5
cubic
feet
dial
provides
a
more
accurate
measurement
of
gas
flow.
e.
Refer
to
Table
20
for
cubic
ft.
of
gas
per
hr.
f.
Multiply
gas
rate
cu
ft./hr
by
heating
value
(Btuh/cu
ft.)
to
obtain
input
rate.
g. If
clocked
rate
does
not
match
required
input
from
Step
1,
increase
manifold
pressure
to
increase
input
or
decrease
manifold
pressure
to
decrease
input.
Repeat
steps
b
through
e
of
Step
1
until
correct
heat
input
is
achieved.
Re-install
regulator
seal
cap on
gas
valve.
3.
Restore
furnace
to
normal
operating
condition.
a.
Turn
gas
valve
ON/OFF
switch
to
OFF.
b.
Remove
water
column
manometer
or
similar
device
from
manifold
pressure
tap.
c.
Replace
manifold
pressure
tap
plug
to
gas
valve.
d.
Turn
gas
valve
ON/OFF
switch
to
ON.
e.
Check
for
gas
leaks
and
verity
furnace
operation.
59SC2A

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