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Carrier 48NHT024 - Page 11

Carrier 48NHT024
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codes,
or
contact
your
Distributor
or
Branch
to
determine
the
required
orifice
size.
C.
A
djusting
Gas
Input
The
gas
input
to
the
unit
is
determined
by
measuring
the
gas
flow
at
the
meter
or
by
measuring
the
manifold
pres¬
sure.
Measuring
the
gas
flow
at
the
meter
is
recommended
for
natural
gas
units.
The
manifold
pressure
must
be
mea¬
sured
to
determine
the
input
of
propane
gas
units.
1.
Measuring
Gas
Flow
at
Meter
Method—Natural
Gas
Units
Minor
adjustment
can
be
made
by
changing
the
manifold
pressure.
The
manifold
pressure
must
be
maintained
between
3.2
and
3.8-in.
water.
If
larger
adjustments
are
required,
change
main
burner
orifices
following
the
recom¬
mendations
of
national
and
local
codes.
NOTE:
All
other
appliances
that
use
the
same
meter
must
be
turned
off
when
gas
flow
is
measured
at
the
meter.
Proceed
as
follows:
a.
Turn
off
gas
supply
to
unit.
b.
Remove
pipe
plug
on
outlet
of
gas
valve,
then
con¬
nect
manometer
at
this
point.
Turn
on
gas
to
unit.
c.
Record
number
of
seconds
for
gas
meter
test
dial
to
make
one
revolution.
d.
Divide
number
of
seconds
in
step
c
into
3600
(num¬
ber
of
seconds
in
1
hour).
e.
Multiply
result
of
step
d
by
the
number
of
cubic
ft
shown
for
one
revolution
of
test
dial
to
obtain
cubic
ft
of
gas
flow
per
hour.
f.
Multiply
result
of
step
e
by
Btu
heating
value
of
gas
to
obtain
total
measured
input
in
Btuh.
Compare
this
value
with
heating
input
shown
in
Table
8.
(Consult
the
local
gas
supplier
if
the
heating
value
of
gas
is
not
known.)
Example:
Assume
that
the
size
of
test
dial
is
1
cubic
ft,
one
revolution
takes
30
seconds,
and
the
heating
value
of
the
gas
is
1050
Btu/ft
3
,
then
proceed
as
follows:
a.
30
seconds
to
complete
one
revolution.
b.
3600
-
30
=
120.
c.
120
x
1
=
120
ft
3
of
gas
flow/hr.
d.
120
x
1050
=
126,000-Btuh
input.
If
the
desired
gas
input
is
125,000
Btuh,
only
a
minor
change
in
the
manifold
pressure
is
required.
Observe
manifold
pressure
and
proceed
as
follows
to
adjust
gas
input:
a.
Remove
cover
screw
over
regulator
adjustment
screw
on
gas
valve.
b.
Turn
regulator
adjustment
screw
clockwise
to
increase
gas
input,
or
turn
regulator
adjustment
screw
counterclockwise
to
decrease
input.
Manifold
pressure
must
be
between
3.2
and
3.8-in.-water.
A
WARNING
Unsafe
operation
of
the
unit
may
result
if
manifold
pressure
is
outside
this
range.
Personal
injury
or
unit
damage
may
result.
c.
Replace
cover
screw
cap
on
gas
valve.
d.
Turn
off
gas
supply
to
unit.
Remove
manometer
from
pressure
tap.
Replace
pipe
plug
on
gas
valve.
Turn
on
gas
to
unit.
Check
for
leaks.
2.
Measuring
Manifold
Pressure—Propane
Gas
Units
The
main
burner
orifices
on
a
propane
gas
unit
are
sized
for
the
unit
rated
input
when
the
manifold
pressure
is
10.5-in.
water.
Proceed
as
follows
to
adjust
gas
input
on
a
propane
gas
unit:
a.
Turn
off
gas
to
unit.
b.
Remove
pipe
plug
on
outlet
of
gas
valve
then
con¬
nect
manometer
at
this
point.
c.
Turn
on
gas
to
unit.
d.
Remove
cover
screw
over
REG
ADJ
screw
on
gas
valve.
e.
Adjust
regulator
adjustment
screw
for
a
manifold
pressure
reading
of
10.5-in.-water.
Turn
adjusting
screw
clockwise
to
increase
manifold
pressure,
or
turn
adjusting
screw
counterclockwise
to
decrease
manifold
pressure.
f.
Replace
cover
screw.
g.
Turn
off
gas
to
unit.
Remove
manometer
from
pres¬
sure
tap.
Replace
pipe
plug
on
gas
valve,
then
turn
on
gas
to
unit.
Check
for
leaks.
D.
Check
Burner
Flame
Observe
the
unit
heating
operation,
and
watch
the
burner
flames
through
the
observation
port
to
see
if
they
are
light
blue
and
soft
in
appearance,
and
the
flames
are
approxi¬
mately
the
same
for
each
burner.
See
Fig.
10.
E.
Blower
Heat-Relay
Operation
Blower
relay
PCI
(See
the
unit
wiring
diagram.)
is
located
in
the
control
box
and
adjusts
to
permit
either
longer
or
shorter
“off”
cycles.
The
“on”
cycle
is
factory
set
for
1
min¬
ute
on
timing.
The
adjusting
dial
on
the
relay
(See
Fig.
9)
is
factory-set
at
the
minimum
position
to
provide
optimum
performance
for
most
installations.
On
unusual
installa¬
tions,
the
length
of
time
the
blower
remains
on
may
require
increasing.
To
increase
blower
operation
time,
rotate
the
adjusting
dial
counter-clockwise.
To
decrease
blower
opera¬
tion
time,
rotate
dial
clockwise.
(Minimum
time
1
minute.)
Maximum
time
3
minutes.)
F.
Airflow
and
Temperature
Rise
The
heating
section
of
each
size
of
unit
is
designed
and
approved
for
heating
operation
within
the
temperature
rise
range
stamped
on
the
unit
rating
plate.
Table
8—Rated
Gas
Inputs
at
Indicated
Manifold
Pressures
Model
No.
Number
of
Orifices
Gas
Supply
Pressure
(in.
wc)
Manifold
Pressure
(In.
wc)
Natural
Gas
Propane
Gasf
Orifice
P/N
Heating
Input
(Btuh)*
Input
P/N
Heating
(Btuh)*
Natural
Propane
Min
Max
Min
EES
Natural
Propane
48NLT018,
024,
030
2
5.0
13.6
11.0
13.0
3.5
10.5
55365-44
40,000
55365-55
40,000
48NHT024,
MT030,
LT036,
LT042
3
MhfM
H
il
13.0
HEH3H
55365-44
60,000
55365-55
60,000
48NHT030,
MT036,
MT042,
LT048,
LT060
4
13.6
11.0
13.0
3.5
10.5
55365-55
80,000
48NHT036,
HT042,
MT048,
MT060
5
iff
13.6
11.0
13.6
3.5
55365-44
100,000
55365-55
100,000
48NVT036,
VT042,
HT048,
HT060
6
13.6
11.0
Ha
EESI
55365-44
120,000
55365-55
120,000
B
ased
on
altitudes
from
sea
level
up
to
2000
feet
above
sea
level.
For
altitudes
above
2000
feet,
reduce
input
rating
4%
for
each
1000
feet
above
sea
level.
In
Canada,
from
2000
ft.
above
sea
level
to
4,500
ft.
above
sea
level,
derate
the
unit
10%.
fWhen
a48N
is
converted
to
propane,
the
burners
must
be
modified.
See
kit
instructions.
11

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