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Carrier 30HL - Cooler Description; Cooler Piping; Step 5 - Make Electrical Connections

Carrier 30HL
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3.
A
specific
head
pressure
must
be
maintained.
Set
water
regulating
valve
to
maintain
design
head
pressure.
Do
not
adjust
to
compensate
for
high
head
pressures
caused
by
fouled
condenser
tubes,
excess
refrigerant
or
the
presence
of
non-con¬
densables.
Due
to
changes
in
water
temperature,
it
may
be
necessary
to
adjust
valve
seasonally.
After
adjusting
for
design
head
pressure,
shut
unit
down.
Water
regulating
valve
should
shut
off
flow
of
water
in
a
few
minutes.
If
it
does
not,
raise
head
pressure
setting.
Make
sure
that
capillary
tube
from
water
regulating
valve
is
connected
to
condenser
purge
valve.
^
Instead
of
water
regulating
valve(s),
a
bypass
arrangement
may
be
used.
This
permits
leaving
condenser
water
to
mix
with
condenser
supply
water,
in
order
to
maintain
entering
chilled
water
temperature
above
70
F
or
an
appropriate
tem¬
perature
necessary
to
maintain
a
specific
head
pressure.
Water
leaving
condenser
is
under
pressure
and
should
not
be
connected
directly
into
sewer
lines.
Check
local
codes.
A
3/
8-in.
drain
plug
is
located
in
the
head
at
each
condenser
end.
Refer
to
PRESSURE
RELIEF
DEVICES
and
CHECK
VALVE,
page
8,
concerning
piping
con¬
nections
for
these
components.
COOLER
DESCRIPTION
The
cooler
is
a
direct-expansion
type
with
removable
heads
and
is
partitioned
for
multi-pass
refrigerant
flow.
Water
flow
across
the
tube
bundle
is
directed
by
baffles
designed
for
minimum
water-
pressure
drop.
The
tubes
have
integral
internal
fins
for
maximum
heat
transfer
efficiency.
Viewed
from
unit
front,
the
return
chilled
water
enters
at
left
end
of
cooler
and
leaves
at
right
end.
The
sensing
bulb
for
the
water
temperature
con¬
troller
is
in
the
return-water
nozzle,
the
return-
water
temperature
being
the
control
point.
The
sensor
for
the
low
water-temperature
cutout
is
located
in
the
leaving-water
nozzle.
The
cooler
is
insulated
with
a
flexible,
closed¬
cell
plastic
foam
insulation
of
suitable
thickness.
Water
vapor
cannot
penetrate
the
cellular
structure
to
condense
either
within
cells
or
on
the
cooler
shell.
Thus,
the
insulation
itself
is
a
vapor
barrier.
Because
of
the
toughness
of
insulation,
a
protective
sheet
metal
covering
is
not
necessary.
The
standard
cooler
can
be
used
for
all
glycol
brines
down
to
-20
F.
However,
for
calcium
or
sodium
chloride
brines,
it
is
improtant
that
the
proper
inhibitors
be
carefully
selected
for
protection
of
the
copper
tubes.
Refer
to
publications
of
the
Calcium
Institute
or
the
Mutual
Chemical
Division
of
Allied
Chemical
Corporation
for
information
on
corrosion
control
in
calcium
or
sodium
chloride
systems.
COOLER
PIPING
Plan
piping
for
minimum
number
of
changes
in
elevation.
Install
manual
or
automatic
vent
valve
at
high
points
in
line.
Maintain
system
pressure
by
using
a
pressure
tank
or
combination
relief
and
reducing
valve.
See
Carrier
System
Design
Manual,
Part
3,
Piping
Design,
for
chilled-water
piping
details.
Install
thermometers
in
entering
and
leaving
water
lines.
Provide
drain
connections
at
all
low
points
to
permit
complete
drainage
of
system.
Connect
shutoff
valve
to
drain
line
before
oper¬
ating
unit.
Install
shutoff
valves
near
entering
and
leaving
water
connections.
Use
flexible
connections
to
reduce
vibration
transmission.
Insulate
piping
afler
leak
iesiing
to
prevent
heat
transfer
and
sweating.
Cover
insulation
with
moisture
seal.
A
chilled
water
flow
switch
is
factory
installed
in
the
line
entering
the
cooler.
See
Table
3
for
min¬
imum
recommended
cooler
and
condenser
flow
rates
and
loop
volume.
^
Table
3
Minimum
Cooler
and
Condenser
Water
Flow
Rates
and
Minimum
Loop
Volume
UNIT
MINIMUM
FLOW
(GPM)
PRESSURE
DROP
(ft
wg)
MINIMUM
VOLUME!
(Gal)
Cooler
ConcJenser*
Cooler
Condenser
36hK,HL015
25
34
3,2
2A
020
32
34
5.1
2,1
60
025
38
41
5.5
2,1
81
030
38
41
5,5
2.1
88
‘Applicable
to
30HK
units
only.
tMinimum
system
water
volumes:
Gallons
=
V
x
ARl
Capacity
in
Tons
NOTE:
Minimum
condenser
water
flow
based
on
3
tt/sec
to
minimize
condenser
fouling.
Flow
rates
below
3
ft/sec
may
reguire
more
frequent
tube
cleaning.
Normal
Air
Conditioning
Process
Type
Cooling
'
Low
Ambient
<
Step
5
Make
Electrical
Connections
All
field
wiring
must
conform
with
local
code
requirements.
Control
circuit
is
115
volts
on
all
60-Hertz
units.
Control
power
is
supplied
from
a
separate
source,
thru
a
!5-amp
fused
disconnect.
Inside
the
control
box,
provisions
are
made
to
connect
the
ground
wires
which
must
be
installed
with
each
field
power
supply.
The
30HK,HL015
units
are
factory
supplied
with
across-the-line
start
at
all
voltages
and
cannot
be
converted
to
part-winding
start.
The
30HK,
HL020,025,030
units
are
factory
supplied
with
part¬
winding
start
at
208/230
volts
and
across-the-line
start
at
460,575
volts.
1090
4

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