Carrier 19XR Series Assembly instructions
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
PC 211 Catalog No. 531-984 Printed in U.S.A. Form 19XR-6SI Pg 1 5-04 Replaces: 19XB-1SI
Book 2
Ta b 5 a
Installation, Operating, and
Maintenance Instructions
Positive pressure storage systems are designed to provide
safe and reliable service when operated within design specifi-
cations. When operating this equipment, use good judgment
and safety precautions to avoid damage to equipment and
property or injury to personnel.
Installation, start-up, and servicing of this equipment can be
hazardous due to system pressures, electrical components,
and equipment location (roofs, elevated structures, etc.). Only
trained, qualified installers and service technicians should
install, start up, and service this equipment.
Be sure you understand and follow the procedures and safety
precautions contained in this guide.
DO NOT VENT refrigerant relief valves within a building. Outlet from
rupture disc or relief valve must be vented outdoors in accordance with
the latest edition of ASHRAE 15 (American Society of Heating,
Refrigeration, and Air Conditioning Engineers). The accumulation
of refrigerant in an enclosed space can displace oxygen and cause
asphyxiation.
PROVIDE adequate ventilation in accordance with ASHRAE 15, espe-
cially for enclosed and low overhead spaces. Inhalation of high concen-
trations of vapor is harmful and may cause heart irregularities,
unconsciousness, or death. Misuse can be fatal. Vapor is heavier than
air and reduces the amount of oxygen available for breathing. Product
causes eye and skin irritation. Decomposition products are hazardous.
DO NOT USE OXYGEN to purge lines or to pressurize a machine for
any purpose. Oxygen gas reacts violently with oil, grease, and other
common substances.
NEVER EXCEED specified test pressures, VERIFY the allowable test
pressure by checking the instruction literature and the design pressures
on the equipment nameplate.
DO NOT USE air for leak testing. Use only tracer gases and dry
nitrogen.
DO NOT VALVE OFF any safety device.
BE SURE that all pressure relief devices are properly installed and
functioning before operating any machine.
DO NOT WELD OR FLAMECUT any refrigerant line or vessel until
all refrigerant (liquid and vapor) has been removed from chiller. Traces
of vapor should be displaced with dry air or nitrogen and the work area
should be well ventilated. Refrigerant in contact with an open flame
produces toxic gases.
DO NOT USE eyebolts or eyebolt holes to rig machine sections or the
entire assembly.
DO NOT work on high-voltage equipment unless you are a qualified
electrician.
DO NOT WORK ON electrical components, including control panels,
switches, starters, or oil heater until you are sure ALL POWER IS
OFF and no residual voltage can leak from capacitors or solid-state
components.
LOCK OPEN AND TAG electrical circuits during servicing. IF
WORK IS INTERRUPTED, confirm that all circuits are deenergized
before resuming work.
AVOID SPILLING liquid refrigerant on skin or getting it into the eyes.
USE SAFETY GOGGLES. Wash any spills from the skin with soap
and water. If any enters the eyes, IMMEDIATELY FLUSH EYES with
water and consult a physician.
NEVER APPLY an open flame or live steam to a refrigerant cylinder.
Dangerous overpressure can result. When necessary to heat refrigerant,
useonlywarm(110F[43C])water.
DO NOT REUSE disposable (nonreturnable) cylinders or attempt to
refill them. It is DANGEROUS AND ILLEGAL. When cylinder is
emptied, evacuate remaining gas pressure, loosen the collar and
unscrew and discard the valve stem. DO NOT INCINERATE.
CHECK THE REFRIGERANT TYPE before transferring refrigerant
to the machine. The introduction of the wrong refrigerant can cause
damage or malfunction to this machine.
Operation of this equipment with refrigerants other than those cited
herein should comply with ASHRAE 15 (latest edition). Contact
Carrier for further information on use of this machine with other
refrigerants.
ENSUREthatrefrigerantisonlypumpedtoorstoredintanksthatare
ASME (American Society of Mechanical Engineers) certified for the
pressures appropriate to the refrigerant being handled.
DO NOT ATTEMPT TO REMOVE fittings, covers, etc., while
machine is under pressure or while machine is running. Be sure pres-
sure is at 0 psig (0 kPa) before breaking any refrigerant connection.
CAREFULLY INSPECT all relief devices, rupture discs, and other
relief devices AT LEAST ONCE A YEAR. If machine operates in a
corrosive atmosphere, inspect the devices at more frequent intervals.
DO NOT ATTEMPT TO REPAIR OR RECONDITION any relief
device when corrosion or build-up of foreign material (rust, dirt, scale,
etc.) is found within the valve body or mechanism. Replace the device.
DO NOT install relief devices in series or backwards.
USE CARE when working near or in line with a compressed spring.
Sudden release of the spring can cause it and objects in its path to act as
projectiles.
EQUIPMENT should be operated by certified personnel only.
DO NOT STEP on refrigerant lines. Broken lines can whip about and
cause personal injury and damage to the machine.
DO NOT climb over a machine. Use platform, catwalk, or staging. Fol-
low safe practices when using ladders.
USE MECHANICAL EQUIPMENT (crane, hoist, etc.) to lift or move
inspection covers or other heavy components. Even if components are
light, use such equipment when there is a risk of slipping or losing your
balance.
BE AWARE that certain automatic start arrangements CAN ENGAGE
THE STARTER. Open the disconnect ahead of the starter in addition to
shutting off the machine or pump.
USE only repair or replacement parts that meet the code requirements
of the original equipment.
DOUBLE-CHECK that coupling nut wrenches, dial indicators, or other
items have been removed before rotating any shafts.
DO NOT LOOSEN a packing gland nut before checking that the nut
has a positive thread engagement.
PERIODICALLY INSPECT all valves, fittings, and piping for corro-
sion, rust, leaks, or damage.
DO NOT MIX REFRIGERANT from chillers that use different com-
pressor oils. Compressor damage can result.
19XR
Positive Pressure Storage System
50/60 Hz
2
CONTENTS
Page
SAFETY CONSIDERATIONS ......................1
INTRODUCTION ..................................2
INSTALLATION ................................ 2-10
Complete Pre-Installation Checks ................2
• IDENTIFY UNIT
• INSPECT SHIPMENT
Mount the Pumpout Unit .........................3
• MOUNTING ON THE CHILLER
• FLOOR MOUNTING
Rig the Storage Tank .............................3
Make Piping Connections ........................6
• INSTALL VENT PIPING TO RELIEF DEVICES
Make Electrical Connections .....................6
CONTROLS AND COMPONENTS ................11
Pumpout Unit ...................................11
• CONTROLS
• SAFETY CONTROL SETTINGS
• COMPRESSOR
• CONDENSER
•OILSEPARATOR
• SUCTION AND DISCHARGE VALVES
Storage Tank ....................................11
•DRAINVALVE
• DUAL RELIEF VALVES
• PRESSURE GAGE
• LEVEL GAGE
OPERATION .................................. 11-15
Overview ........................................11
• REFRIGERANT TRANSFER
• TRANSFERRING LIQUID REFRIGERANT FROM
THE CHILLER COOLER TO THE CHILLER
CONDENSER OR PUMPOUT STORAGE TANK
• TRANSFERRING LIQUID REFRIGERANT FROM
THE CHILLER CONDENSER OR PUMPOUT
STORAGE TANK TO THE CHILLER COOLER
• DISTILLING THE REFRIGERANT
Pumpout and Refrigerant Transfer Procedures ..12
• OPERATING THE PUMPOUT UNIT
• TO READ REFRIGERANT PRESSURES
• POSITIVE PRESSURE CHILLERS WITH STORAGE
TANKS
• CHILLERS WITH ISOLATION VALVES
• DISTILLING THE REFRIGERANT
MAINTENANCE............................... 15,16
Pumpout Compressor Oil Charge ...............15
Storage Tank ....................................16
Ordering Replacement Parts ....................16
TROUBLESHOOTING............................16
INTRODUCTION
The 19XR Positive Pressure Storage (PPS) System has been
designed to help owners and operators of positive pressure
chillers store HFC-134a refrigerant during service and repair
work. The 19XR system conserves this refrigerant and pre-
vents the release of excessive amounts of refrigerant into the
atmosphere. The proper use of this equipment minimizes the
loss of HFCs.
The 19XR PPS system shown in Fig. 1 consists of a pump-
out unit mounted on a storage tank. The pumpout unit is
offered as a free-standing unit that can be used with chillers
that have an existing storage tank or with chillers that have iso-
lation valves that permit built-in refrigerant storage.
The 19XR PPS systems are factory tested and certified to
the American Society of Mechanical Engineers (ASME) pres-
sure vessel code. The tanks are constructed of certified steel
and are pressure rated at 185 psig (1276 kPa). The PPS storage
tank is equipped with dual relief valves for proper venting per
ASHRAE 15 (American Society of Heating, Refrigeration, and
Air Conditioning Engineers) guidelines. An automatic level
switch is prewired to the control circuit to ensure proper stor-
age levels.
The 19XR pumpout unit is a complete, hermetic, compact
unit that consists of:
• a hermetic reciprocating compressor with a direct-drive
motor
• a water-cooled refrigerant condenser
• an oil separator
• suction and discharge valves to control refrigerant flow
• prewired safety and control devices.
INSTALLATION
Complete Pre-Installation Checks
IDENTIFY UNIT — Identify the assembly number (Table 1)
printed on the pumpout unit and storage tank nameplates.
Check this information against the job requirements. Fig. 1
shows the PPS system and its major components. Refer to
Tables 2 and 3 for physical data.
INSPECT SHIPMENT — Inspect unit for damage before
removing unit from shipping conveyance. If unit appears dam-
aged, it should be inspected by a shipping inspector before
removal. File a claim with the shipping company if shipment is
damaged or incomplete. The manufacturer is not responsible
for damage incurred during transit.
Check all components. Notify the supplier immediately if
any item is missing. To prevent loss or damage, leave all parts
in their original package until they are needed.
3
Table 1 — Positive Pressure System Assembly Numbers (R-134a)
LEGEND NOTES:
1. All storage vessels are 185 psig (1276 kPa) designs per the
ASME (American Society of Mechanical Engineers) Boiler Pres-
sure Vessel Code, Section VIII Division 1.
2. All units above are shipped with a 15 psig (103 kPa) nitrogen
charge.
3. Nominal horsepower for all pumpout units is 3.0.
Mount the Pumpout Unit — The pumpout unit, if
purchased separately, may be mounted directly on the chiller or
it may be floor mounted.
MOUNTING ON THE CHILLER — See instructions pro-
vided with the chiller for mounting the pumpout unit. A typical
chiller mount is shown in Fig. 2.
FLOOR MOUNTING — Select a ventilated and accessible
area, free of traffic or other hazards. Remove and discard the
4 angle supports at the base of the pumpout unit and bolt the
unit to the floor through the holes at the base of the pumpout
unit. Special isolation is unnecessary. Contact surface and
dimensions for the pumpout unit are given in Fig. 3.
Rig the Storage Tank — The complete 19XR system
can be rigged as a single assembly. See the rigging instructions
on the label attached to the assembly. Also refer to the rigging
guide (Fig. 4), physical data in Tables 2 and 3, and contact
surface and dimensions for the complete system in Fig. 5. Lift
the assembly only from the 4 points indicated in the rigging
guide. Each rigging cable must be capable of supporting the
entire weight of the assembly.
PUMPOUT SYSTEM
ARRANGEMENT
NUMBER
PUMPOUT UNIT
ASSEMBLY NUMBER
COMPRESSOR MOTOR
(V-Ph-Hz)
MAXIMUM
RLA LRA STORAGE TANK
19XR04027401 19XR04026501 208/230-3-50/60 15.8 105.0 28 cu ft (0.8 cu m)
19XR04027402 19XR04026502 460-3-60 7.8 52.0 28 cu ft (0.8 cu m)
19XR04027403 19XR04026503 400-3-50 7.8 52.0 28 cu ft (0.8 cu m)
19XR04027501 19XR04026501 208/230-3-50/60 15.8 105.0 52 cu ft (1.5 cu m)
19XR04027502 19XR04026502 460-3-60 7.8 52.0 52 cu ft (1.5 cu m)
19XR04027503 19XR04026503 400-3-50 7.8 52.0 52 cu ft (1.5 cu m)
19XR04026801 19XR04026501 208/230-3-50/60 15.8 105.0 Free-standing
19XR04026802 19XR04026502 460-3-60 7.8 52.0 Free-standing
19XR04026803 19XR04026503 400-3-50 7.8 52.0 Free-standing
19XR14017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 1
19XR14017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 1
19XR14017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 1
19XR34017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 2 or 3
19XR34017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 2 or 3
19XR34017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 2 or 3
19XR44017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 4
19XR44017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 4
19XR44017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 4
19XR54017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 5
19XR54017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 5
19XR54017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 5
19XR64017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 6
19XR64017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 6
19XR64017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 6
19XR74017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 7
19XR74017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 7
19XR74017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 7
19XR84017801 19XR04026501 208/230-3-50/60 15.8 105.0 Unit-mounted, frame 8
19XR84017802 19XR04026502 460-3-60 7.8 52.0 Unit-mounted, frame 8
19XR84017803 19XR04026503 400-3-50 7.8 52.0 Unit-mounted, frame 8
LRA — Locked Rotor Amps
RLA — Rated Load Amps
Lifting the assembly from points other than those speci-
fied may result in serious damage to the assembly and
personal injury. Rigging equipment and procedures must
be adequate for assembly. See Tables 2 and 3 for weights.
(These weights are broken down into pumpout unit and
storage tank weights. For the complete assembly weight,
add all components together.)
4
COMPRESSOR
OIL
SEPARATOR
CONDENSER
LEAVING
WATER
ENTERING
WATER
VALVE
5
VALVE
4
VALVE
2
CONTROL
PA N E L
FRAME
ASSEMBLY
OIL
HEATER
VALVE
3
CONTACTOR
TERMINAL
STRIP FUSES
TRANSFORMER
SWITCH
COMPRESSOR
CONTROL
BOX
VALVE
ASSEMBLY
CONDENSER
OIL
SEPARATOR
Fig. 1 — 19XR Positive Pressure Storage System
19XR PUMPOUT UNIT
19XR CONTROL BOX (INTERIOR)
Fig. 2 — 19XR Pumpout Unit: Typical Chiller Mount
5
(438)
(250)
(337)
(241)
(73)
(116)
(25)
(247)
(333)
(584)
(108)
(461)
(294)
(209)
(33)
(202) (267)
(723)
(629)
(83)
WATER CONNECTIONS
3/4" FNPT
VAPOR CONNECTIONS
1/2" MALE FLARE
CONDENSER OIL SIGHTGLASS
OIL FILL FITTING
MOUNTING HOLES
COMPRESSOR
VACUUM SWITCH
OIL SEPARATOR
HIGH PRESSURE SWITCH
CONTROL PANEL
ELECTRICAL
CONNECTION
LOCATION
23.00
13.12
9.74
1.00
2.88
4.58
9.50
13.25
9.48
19.00
4.25
18.13
11.59
8.21
(2X) 1.82
7.94 10.50
3.25
28.45
24.75
Fig. 3 — Pumpout Unit Contact Surfaces and Dimensions
Fig. 4 — Rigging Guide
ELECTRICAL CONNECTION OPTION LIST
TRADE
SIZE QTY LOCATION
1/2
″1TOP
3/4
″1BOTTOM
1″1 MIDDLE
11/4
″1 MIDDLE
NOTES:
1. Each chain must be capable of supporting the entire weight of the machine.
2. Minimum chain length:
28 ft3(0.79 m3) tank — 10′-0″(3098 mm)
52 ft3(1.47 m3) tank — 15′-6″(4724 mm)
STORAGE
TANK
SIZE
CENTER OF GRAVITY
DIMENSIONS
ft-in. (mm)
APPROX.
OVERALL DIMENSIONS
(APPROX.)
ft-in. (mm)
EMPTY
WEIGHT
lb (kg)
ABCDE
28 cu ft
(0.8 cu m)
4-91/8
(1451)
1-77/8
(505)
10-5
(3175)
2-43/4
(730)
4-41/4
(1327)
2,385
(1082)
52 cu ft
(1.5 cu m)
6-115/8
(2124)
1-83/4
(527)
14-111/4
(4553)
2-81/2
(826)
4-81/4
(1429)
3,415
(1549)
Dimensions in inches (millimeters).
6
Table 2 — Physical Data — 19XR Pumpout Unit
*The pumpout unit weight includes the compressor/condenser, control box, and the oil separator.
NOTES:
1. The motor is hermetic with thermal protection.
2. The control box is mounted and wired with an ON/OFF/AUTO. switch according to NEMA 1 (National
Electrical Manufacturing Association).
3. The starter contactor is located in the control box. The overloads on the motor are wired and the
internal disconnect switch is supplied by the customer.
Table 3 — 19XR Storage Tank Rated Dry Weight and Refrigerant Capacity
LEGEND
*The above dry weight includes the pumpout unit weight of 164 lb (75 kg).
Make Piping Connections — Figure 6 represents typ-
ical pumpout unit/chiller piping connections. Standard connec-
tions for 1/2-in. OD copper tubing are provided. Install the
field-supplied FPT tee with pipe plug in the piping as shown in
Fig. 6. This tee is used for refrigerant charging.
NOTE: If any field piping runs exceed 50 ft in length, use
7/8-in. OD copper tubing to minimize pressure drop.
Pumpout unit water piping connections are shown in Fig. 6.
Both connections are 3/4-in. NPT (female). A shutoff valve
should be installed in the water line. Provide a means for blow-
ing water from the condenser coil at winter shutdown to
prevent freeze-up damage. Refer to the Job Data for water
piping particulars.
INSTALL VENT PIPING TO RELIEF DEVICES — The
pumpout storage tank is factory-equipped with relief devices.
RefertoFig.5andTable4forsizeandlocationoftherelief
devices. Vent the relief devices to the outdoors in accordance
with ANSI/ASHRAE 15 Safety Code (latest edition) for
Mechanical Refrigeration and all other applicable codes.
Pumpout unit relief devices are set to relieve at 235 psig
(1620 kPa). Storage tank relief devices are set to relieve at
185 psig (1276 kPa).
1. If relief devices are manifolded, the cross-sectional area
of the relief pipe must at least equal the sum of the areas
required for individual relief pipes.
2. Provide a pipe plug near outlet side of each relief device
for leak testing. Provide pipe fittings that allow vent pip-
ing to be disconnected periodically for inspection of valve
mechanism.
3. Piping to relief devices must not apply stress to the
device. Adequately support piping. A length of flexible
tubing or piping near the device is essential on spring-
isolated machines.
4. Cover the outdoor vent with a rain cap and place a con-
densation drain at the low point in the vent piping to pre-
vent water build-up on the atmospheric side of the relief
device.
Make Electrical Connections — See nameplate on
compressor of pumpout unit and Table 1 for motor electrical
data. Wire unit according to the diagram inside the control box.
Figure 7 is the wiring schematic for a complete system that
includes the 19XR storage tank and the pumpout unit. Fig. 8 is
the wiring schematic for the pumpout unit. Use this schematic
for installations that do not include an auxiliary pumpout
storage tank.
NOTE: Use copper conductors only.
ENGLISH SI
Pumpout Unit Weight* lb (kg) 164 (75)
Pumpout Condenser Water Flow Rate gpm (L/s) 7-9 (.45-.58)
Pumpout Condenser Water Pressure Drop psig (kPa) 0.3 (2.0)
Maximum Entering Condenser Water Temperature F (C) 85 (29)
Maximum Leaving Condenser Water Temperature F (C) 100 (37)
Relief Valve psig (kPa) 235 (1620)
Condenser Pressure Rating
Refrigerant Side psig (kPa) 450 (3102)
Waterside psig (kPa) 450 (3102)
SIZE
cu ft (cu m)
TANK OD
in. (mm)
DRY WEIGHT*
lb (kg)
MAXIMUM REFRIGERANT CAPACITY lb (kg)
ASHRAE/ANSI 15 UL 1963
R-134a R-134a
28 (0.8) 24.00 (610) 2334 (1059) 1860 (844) 1716 (778)
52 (1.5) 27.25 (692) 3414 (1549) 3563 (1616) 3286 (1491)
ANSI — American National Standards Institute
ASHRAE — American Society of Heating, Refrigeration,
and Air Conditioning Engineers
UL — Underwriters’ Laboratories
Refrigerant discharged into confined spaces can displace
oxygen and cause asphyxiation.
7
2’-6"
[762mm] 3/8" MALE FLARE
RELIEF VALVE CONN.
1/2" DIA. K.O.
ELECTRICAL CONN.
(PUMPOUT POWER)
0’-9"
[229 mm]
TYPICAL
2’-8 1/2"
[826 mm]
1’-4 1/4"
[413 mm]
14’-4 1/2"
[4381mm]
0’-5 7/8"
[149mm]
(2) 1" NPT RELIEF
VALVE OUTLET (SEE FIELD
INSTALLATION NOTES)
5’-0 1/2"
[1537mm]
1’-7"
[483mm]
2’-0 5/8"
[625mm]
PRESSURE GAGE
0’-5 1/2"
[140mm]
LEVEL GAGE
0’-33/8"
[86mm]
2’-101/8"
[867mm]
2’-51/4"
[742mm]
6’-115/8"
[2124mm]
0’-97/8"
[249mm]
7’-21/4"
[2191mm] 14’-111/4"
[4553mm]
1" NPT
LIQUID CONN.
52 CU. FT. [1.47 CU. METER]
STORAGE TANK WITH PUMPOUT UNIT
3’-83/4"
[1137mm]
3’-17/16"
[951mm]
0’-9"
[229mm]
TYPICAL
3’-81/2"
[1130mm]
3’-41/2"
[1029mm]
ELECTRICAL SERVICE
ACCESS SPACE
203/4"X83/4"X41/2"
(BOTH SIDES)
3/4" NPT
PUMPOUT CONDENSER
WATER OUTLET CONN.
1/2" MALE FLARE
VAPOR CONN.
3/4" NPT
PUMPOUT CONDENSER
WATER INLET CONN.
VAPOR
1’-03/4"
[324mm]
3/8" MALE FLARE
RELIEF VALVE CONN.
1/2" DIA. K.O.
ELECTRICAL CONN.
(PUMPOUT POWER)
(FAR SIDE)
0’ - 0 15/16"
[202mm]
(FARSIDE)
0’ - 2 3/4"
[70mm]
4’ - 3 1/4"
[1302mm]
4’-1"
[1225mm]
0’-31/4"
[83mm]
0’ - 10"
[254mm]
1’-83/4"
[527mm]
4’-81/4"
[1429mm]
Fig. 5 — Storage Tank with Pumpout Unit
NOTES:
1. Denotes center of gravity.
2. Dimensions in [ ] are in millimeters.
3. The weights and center of gravity values given are for an empty
storage tank.
4. For additional information on the pumpout unit, see certified
drawings.
5. Conduit knockout is located on the side of the control box.
6. Storage tank weight: 3414 lb (1549 kg).
FRONT VIEW
TOP VIEW
LEFT SIDE VIEW
52 CU FT [1.5 CU METER] STORAGE TANK WITH PUMPOUT UNIT
8
2’- 5 3/4"
[756mm]
LEVEL GAGE
0’ - 5 1/2"
[140mm]
PRESSURE GAGE
3/8" MALE FLARE
RELIEF VALVE CONN.
1/2" DIA. K.O.
ELECTRICAL CONN.
(PUMPOUT POWER)
2’ - 0 3/8"
[619mm] 1’-7"
[483mm]
5’ - 0 1/4 "
[1530mm]
9’-10"
[2997mm]
0’ - 5 7/8 "
[149mm]
(2) 1" NPT RELIEF
VALVE OUTLET (SEE FIELD
INSTALLATION NOTES)
2’ - 4 3/4 "
[730mm]
0’-9"
[229mm]
TYPICAL
1’ - 2 3/8 "
[365mm]
0’- 3 1/2"
[89mm]
2’- 9 7/8"
[860mm]
2’- 5"
[737mm]
0’- 9 7/8"
[249mm]
4’- 9 1/2"
[1451mm]
6’- 4 3/16"
[1935mm]
1" NPT
LIQUID CONN. 0’- 9"
[229mm]
TYPICAL
3’- 1 1/4"
[946mm]
3’- 4 5/8"
[1032mm]
3’- 4 7/8"
[1038mm]
2’- 9 9/16"
[852mm]
VAPOR
3/4" NPT
PUMPOUT CONDENSER
WATER INLET CONN.
1/2" MALE FLARE
VAPOR CONN.
3/4" NPT
PUMPOUT CONDENSER
WATER OUTLET CONN.
ELECTRICAL SERVICE
ACCESS SPACE
20 3/4" X 8 3/4" X 4 1/2"
(BOTH SIDES)
28 CU.FT. [.79 CU. METER]
STORGE TANK WITH PUMPOUT UNIT
10’- 5 "
[3175mm]
Fig. 5 — Storage Tank with Pumpout Unit (cont)
NOTES:
1. Denotes center of gravity.
2. Dimensions in [ ] are in millimeters.
3. The weights and center of gravity values given are for an empty
storage tank.
4. For additional information on the pumpout unit, see certified
drawings.
5. Conduit knockout is located on the side of the control box.
6. Storage tank weight: 2334 lb (1059 kg).
TOP VIEW
FRONT VIEW
1’-0 3/4"
[324mm]
3/8" MALE FLARE
RELIEF VALVE CONN.
1/2" DIA. K.O.
ELECTRICAL CONN.
(PUMPOUT POWER)
(FAR SIDE)
3’- 11 3/8"
[1203mm]
3’- 9"
[1143mm]
0’- 3 1/4"
[83mm]
0’- 10"
[254mm]
1’- 7 7/8"
[505mm]
4’- 4 1/4"
[1327mm]
0’- 2 3/4"
[70mm]
0’- 7 15/16"
[202mm]
(FARSIDE)
28 CU FT [0.8 CU METER] STORAGE TANK WITH PUMPOUT UNIT
LEFT SIDE VIEW
9
SERVICE VALVES
PUMPOUT
COMPRESSOR
PRESSURE RELIEF
VALVE
OIL
SEPARATOR
PUMPOUT
CONDENSER
WATER
CONNECTIONS
23
45
TO TOP OF
STORAGE TANK
STORAGE TANK
VAPOR VALVE
FROM BOTTOM
OF STORAGE TANK
STORAGE TANK
LIQUID REFRIGERANT VALVE
TEE FOR
REFRIGERANT
CHARGING
TO TOP OF
CHILLER
CONDENSER
SEE NOTE
#1
TO TOP OF
CHILLER
COOLER
SEE NOTES
# 1 AND 2
CHECK
VALVE
SERVICE VALVES
PUMPOUT
COMPRESSOR
PRESSURE RELIEF
VALVE
OIL
SEPARATOR
PUMPOUT
CONDENSER
WATER
CONNECTIONS
23
45
TO TOP OF
STORAGE TANK
STORAGE TANK
VAPOR VALVE
FROM BOTTOM
OF STORAGE TANK
STORAGE TANK
LIQUID REFRIGERANT VALVE
TEE FOR
REFRIGERANT
CHARGING
TO BOTTOM OF
COOLER AND
CHILLER
CONDENSER
SEE NOTE
#1
TO TOP OF
CHILLER
COOLER
OR CONDENSER
SEE NOTES
# 1 AND 2
TO ADDITIONAL
CHILLERS
CHECK
VALVE
CHILLERS WITHOUT ISOLATION VALVES CHILLERS WITH ISOLATION VALVES
(WITH OR WITHOUT PUMPOUT STORAGE TANKS)
GENERAL PIPING CONNECTION SIZES
NOTES:
1. The field-supplied tubing is to be 1/2-in. OD tubing (min.) and
must be arranged and supported to avoid stresses on the equip-
ment, transmission of vibrations, and interference with routine
access during the reading, adjusting, and servicing of the equip-
ment. If the distance from the chiller to the pumpout unit is over
50 ft, then 7/8-in. OD tubing (min.) must be used. Provisions
should be made for adjustment in each plane of the tubing and
for both periodic and major servicing of the equipment. Special
care must be taken so that the safety head does not experience
tubing strain. Vent the safety head per ASHRAE 15 (American
Society of Heating, Refrigeration, and Air Conditioning Engi-
neers), latest revision.
2. The tubing and valve from the storage tank to the pumpout com-
pressor is factory supplied when the unit is factory mounted.
CONNECTION SIZE (in.)
Refrigerant Transfer Connections 1/2Flare (male)
Condenser Water Cooling Connectors 3/4NPT (female)
Safety Relief Head Pumpdown 3/8Flare (male)
LEGEND
Factory-Supplied Tubing
Field-Supplied Tubing
Field-Supplied Tubing (Multiple Chillers)
Service Valve (Factory Supplied)
Service Valve (Field Supplied)
Fig. 6 — Typical Pumpout Unit/Chiller Connection Schematic
10
Table 4 — Relief Devices
STORAGE
TANK SIZE
cu ft (cu m)
RELIEF VALVE
OUTLET SIZE QUANTITY
REQUIRED “C” FACTOR
lb air
min
Kg air
min
28 (0.8) 1in.NPT
Female Connector 2 31.4 14.2
52 (1.5) 1in.NPT
Female Connector 2 52.3 23.7
LOW PRESSURE CONTROL
NC OPEN < 7 psia (-15.7 in. HG)
CLOSE > 9 psia (-11.6 in. HG)
HIGH PRESSURE
SAFETY
NC OPEN > 185psig
CONTROL POWER
TRANSFORMER
XFMR-1
69 VA
PUMP OUT
COMPRESSOR
CRANKCASE HEATER
240-600v
27-40 WATT
COPELAND PN 081-0031-03
WHT
RED
ORN
HIGH LEVEL
GAGE ALARM
(NC-OPEN AT 90%
STORAGE TANK LEVEL)
WHT
X2
C
5
4
X2 6
X2
1
X1
FU3
0.5A
H1 H4
FU1
FU2
0.25A
0.25A
GND
2
23
55-1
OFF
AUTO ON
2
L2
L1 8
7
HTR-1
MTR-1
2CL
2CL
2CL
C
C
C
LOW PRESSURE CONTROL
NC OPEN < 7 psia (-15.7 in. HG)
CLOSE > 9 psia (-11.6 in. HG)
HIGH PRESSURE
SAFETY
NC OPEN > 185psig
CONTROL POWER
TRANSFORMER
XFMR-1
69 VA
PUMP OUT
COMPRESSOR
CRANKCASE HEATER
240-600v
27-40 WATT
X2
C
5
4
X2 6
X2
1
X1
FU3
0.5A
H1 H4
FU1
FU2
0.25A
0.25A
GND
2
23
55-1
OFF
AUTO ON
2
L2
L1 8
7
HTR-1
MTR-1
2CL
2CL
2CL
C
C
C
Fig. 7 — 19XR Pumpout System Wiring Schematic
Fig. 8 — Pumpout Unit Wiring Schematic
LEGEND
C—Contactor
FU — Fuse
GND — Ground
HTR — Heater
MTR — Motor
NC — Normally Closed
OL — Overload
SS — Selector Switch
LEGEND
C—Contactor
FU — Fuse
GND — Ground
HTR — Heater
MTR — Motor
NC — Normally Closed
OL — Overload
SS — Selector Switch
11
CONTROLS AND COMPONENTS
Figure 1 shows the major components of the PPS system.
Pumpout Unit — The pumpout unit consists of a
hermetic reciprocating compressor, a water cooled refrigerant
condenser, an oil separator, and prewired safety and control de-
vices. The pumpout unit comes equipped with a 4-way transfer
valve manifold to interconnect both liquid and vapor transfer
and to pressurize the chiller during transfer of refrigerant from
chiller to storage tank.
CONTROLS — The pumpout unit has the following controls:
manual/off/automatic selector switch, transformer, .25 amp
fuses for the primary side of the transformer, .5 amp fuse for
the secondary side of the transformer, contactor, terminal strip,
high pressure cutout switch and low pressure switch.
SAFETY CONTROL SETTINGS — The pumpout unit high-
pressure switch (Fig. 1) is set to open at the settings listed in
Table 5. The switch setting is checked by operating the pumpout
condenser and slowly throttling the pumpout condenser water.
When the selector switch is in the Automatic position, the
pumpout will cycle on a low pressure/vacuum switch. This
switch will shut down the pumpout compressor when suction
pressure reaches 7 ± 1.5 psia or 15 ± 3 in. Hg vacuum
(51.7 kPa absolute). When the selector switch is in the On
position, the pumpout compressor will continue to run until
refrigerant vapor flow is so low that the compressor motor
overheats. At this time the compressor motor overload will
shut off the compressor. This is NOT recommended.
Table 5 — High Condition Pressure Switch Settings
COMPRESSOR — The hermetic compressor assembly
comes equipped with internal thermal protection on the motor
and a self-regulating crankcase heater.
CONDENSER — The water-cooled condenser is a brazed
plate heat exchanger. During transfer, it condenses refrigerant
vapor to liquid.
OIL SEPARATOR — The pumpout unit includes an in-line
oil separator to remove oil that becomes mixed with refrigerant
and returns the oil to the compressor.
SUCTION AND DISCHARGE VALVES — The pumpout
unit comes with a 4-way transfer valve manifold to intercon-
nect both liquid and vapor transfer and to pressurize the chiller
during transfer of refrigerant from chiller to storage tank or
from one chiller vessel to another.
Storage Tank — The storage tank is rated for positive
pressure refrigerants under ASME Section VIII pressure vessel
codes with a minimum of 185 psig (1276 kPa) rating. The tank
components include:
DRAIN VALVE — Located at its lowest point of drain with a
minimum of 1 in. NPT.
DUAL RELIEF VALVES — Two relief valves and a 3-way
shut-off valve.
PRESSURE GAGE — A 30 in. Hg vacuum -0-400 psig
(101-0-2760 kPa) compound pressure gage.
LEVEL GAGE — Liquid level gage (magnetically coupled
dial type) with electronic shut-off at 90% liquid capacity.
OPERATION
Overview — Transferring refrigerant from one vessel to
another is accomplished by using either gravity or pressure
differential. A difference in elevation between 2 vessels results
in a gravity flow of liquid; a difference in pressure forces the
liquid from one vessel to the other. The latter method requires
lowering the pressure in one vessel. If there is liquid in that
vessel, its temperature must be lowered, and the pressure in the
other vessel must be simultaneously increased.
Under most circumstances, creating the pressure differential
is not a difficult process. Some applications, such as ice
storage, outdoor installations, or installations with high temper-
ature differentials between the storage tank and the chiller may
require additional consideration. In some instances, it may be
necessary to add auxiliary heat to one of the vessels or to insu-
late the storage tank at job sites where high ambient tempera-
ture or sun load make it difficult to reduce the temperature and
pressure in the tank. Outdoor installations must have a roof or
cover over the storage tank to ensure that the pressure in the
tank does not exceed the chiller relief pressure setting.
REFRIGERANT TRANSFER — When refrigerant is being
evacuated from the chiller cooler or condenser vessels, any
liquid refrigerant left in a vessel will flash off, lowering the
temperature in that vessel enough to freeze the fluid (usually
water) flowing through the cooler or condenser tubes. This
event, called tube freeze-up, can cause extensive damage to the
chiller; therefore, all liquid refrigerant must be removed from a
vessel before evacuation of refrigerant vapor is started. If all
the liquid cannot be removed, then the cooler water and con-
denser water pumps must be operated throughout the process
of evacuating refrigerant vapor to keep fluid moving through
the cooler and condenser tubes.
TRANSFERRING LIQUID REFRIGERANT FROM THE
CHILLER COOLER TO THE CHILLER CONDENSER
OR PUMPOUT STORAGE TANK — Chiller and pumpout
unit valves are set to permit the pumpout compressor to
discharge refrigerant vapor into the cooler vessel, lowering
pressure in the condenser vessel/storage tank. The pressure
differential forces liquid from the cooler vessel into the con-
denser vessel/storage tank. After all the liquid is transferred, the
refrigerant vapor remaining in the cooler vessel can be drawn
off by reducing pressure in the chiller and discharging the
vapor through the pumpout unit condenser into the condenser
vessel/storage tank.
NOTE: The pumpout selector switch can be placed in On
or Automatic mode. In Automatic mode, the compressor will
shut off automatically once the suction pressure drops to 7 psia
or 15 in. Hg vacuum (51.7 kPa absolute). In On mode, the unit
will continue to pumpout regardless of the suction (vacuum)
pressure.
TRANSFERRING LIQUID REFRIGERANT FROM THE
CHILLER CONDENSER OR PUMPOUT STORAGE
TANK TO THE CHILLER COOLER — Chiller and pump-
out unit valves are set to increase pressure in the chiller
condenser vessel/storage tank and to reduce pressure in the
cooler vessel. Pressure in the cooler vessel is lowered to corre-
spond to a saturated refrigerant liquid temperature 2° F (1.1° C)
above the freezing temperature of the liquid circulating through
the chiller cooler/condenser tubes (34 F [1.1 C] for water). The
valves are set so that the pressure in the cooler vessel is lower
than that of the condenser vessel/storage tank, forcing the liq-
uid into the cooler vessel.
NOTE: The pumpout selector switch can be placed in On or
Automatic mode. In Automatic mode, the compressor will shut
off automatically once the suction pressure drops to 7 psia or
15 in. Hg vacuum (51.7 kPa absolute). In On mode, the unit
will continue to pumpout regardless of the suction (vacuum)
pressure.
REFRIGERANT HIGH PRESSURE SWITCH
Cutout Cut-in
R-134a 185 ± 10 psig
(1276 ± 69 kPa)
140 ± 10 psig
(965 ± 69 kPa)
During transfer of refrigerant into and out of the pumpout
storage tank, carefully monitor the storage tank level gage.
Do not fill the tank more than 90% of capacity to allow for
refrigerant expansion. Overfilling may result in damage to
the tank and personal injury. For maximum refrigerant
capacity, refer to Table 3.
12
NOTE: During this operation, maintain water circulation
through the chiller cooler and condenser vessels to prevent
tube freeze-up.
DISTILLING THE REFRIGERANT — Refrigerant vapor is
transferred from the chiller cooler vessel or pumpout storage
tank through the pumpout condenser, condensed to a liquid,
and pumped to the chiller condenser vessel. During this opera-
tion, water circulation must be maintained in the pump-out
condenser. Refrigerant impurities left in the chiller cooler ves-
sel or storage tank are then drained off. This operation can take
from 4 to 14 hours, depending on the type and amount of re-
frigerant being distilled.
The Pumpout and Refrigerant Transfer Procedures section
gives step-by-step instructions on performing these operations.
Pumpout and Refrigerant Transfer Proce-
dures — Three possibilities are available:
1. If there are no isolation valves on the chiller, a complete
pumpout system with a pumpout storage tank and pump-
out unit is needed.
2. Whether or not isolation valves are available on the chill-
er, the refrigerant can be pumped to and isolated in a
pump-out storage tank by using the pumpout unit.
3. If isolation valves are available on the chiller, the refriger-
ant can be pumped to either the cooler vessel or the con-
denser vessel using the pumpout unit.
NOTE: Oil should be visible in the pumpout compressor sight
glass under all operating conditions and during shutdown. If oil
is low, add oil as described in the Maintenance section.
The following procedures describe how to transfer refriger-
ant from one vessel to another and how to evacuate the chiller.
OPERATING THE PUMPOUT UNIT — Connect all refrig-
erant lines to pumpout as shown in Fig. 6.
TO READ REFRIGERANT PRESSURES — During pump-
out or leak testing:
1. Refer to the display on the chiller control center to deter-
mine refrigerant-side pressures and low (soft) vacuum.
Use a quality vacuum indicator or manometer to measure
evacuation and dehydration and to ensure the desired
range and accuracy.
2. Attach a 30 in. Hg vacuum -0-400 psi (101-0-2760 kPa)
compound gage to the storage tank to determine its
pressure.
POSITIVE PRESSURE CHILLERS WITH STORAGE
TANKS — In the Valve/Condition tables that accompany
these instructions, the letter “C” indicates a closed valve.
Figures 9 and 10 show the locations of the valves.
Transfer Refrigerant from Pumpout Storage Tank to Chiller
1. Equalize refrigerant pressure.
a. Turn on chiller water pumps and monitor chiller
pressures.
b. Close pumpout and storage tank valves 2, 4, 5, and
10, and close refrigerant charging valve 7; open
chiller isolation valve 11 and any other chiller iso-
lation valves, if present.
c. Open pumpout and storage tank valves 3 and 6;
open chiller valves 1a and 1b.
d. Gradually crack open valve 5 to increase chiller
pressure to 35 psig (241 kPa). Slowly feed refriger-
ant to prevent freeze-up.
e. Open valve 5 fully after the chiller pressure rises
above the freezing point of the refrigerant. Let the
storage tank and chiller pressure equalize. Open
refrigerant charging valve 7 and storage tank
charging valve 10 to let liquid refrigerant drain into
the chiller.
2. Transfer remaining refrigerant.
a. Close valve 5 and open valve 4.
Do not mix refrigerants from chillers that use different
compressor oils. Compressor damage can result. The
pumpout oil separator comes pre-charged with 13 oz of
ISO viscosity 220 POE (Polyol Ester) oil. The pumpout
compressor is approved for use with ISO viscosity 220
POE oil or ISO viscosity 68 POE oil. The pumpout com-
pressor is also factory precharged with oil.
Always run chiller cooler and condenser water pumps and
always charge or transfer refrigerant as a gas when chiller
vessel pressure is less than 35 psig (241 kPa). Below these
pressures, liquid refrigerant flashes into gas, resulting in
extremely low temperatures in the cooler/condenser tubes
and possibly causing tube freeze-up.
During transfer of refrigerant into and out of the 19XR
storage tank, carefully monitor the storage tank level gage.
Do not fill the tank more than 90% of capacity to allow for
refrigerant expansion. Overfilling may result in damage to
the tank and personal injury.
VALVE 1a1b2345671011
CONDITION C C C C C
VALVE 1a1b2345671011
CONDITION C C
VALVE 1a1b2345671011
CONDITION C C
COMPRESSOR
OIL
SEPARATOR
CONDENSER
LEAVING
WATER
ENTERING
WATER
VALVE
5
VALVE
4
VALVE
2
CONTROL
PANEL
FRAME
ASSEMBLY
OIL
HEATER
VALVE
3
Fig. 9 — Pumpout Unit
13
b. Turn off the pumpout condenser water, and turn on
the pumpout compressor in manual mode to push
liquid refrigerant out of the storage tank. Monitor
the storage tank level until the tank is empty.
c. Close refrigerant charging valves 7 and 10.
d. Turn off the pumpout compressor.
e. Turn off the chiller water pumps.
f. Close valves 3 and 4.
g. Open valves 2 and 5.
h. Turn on pumpout condenser water.
i. Run the pumpout compressor in manual mode until
the storage tank pressure reaches 5 psig (34 kPa),
18 in. Hg vacuum (41 kPa absolute).
j. Turn off the pumpout compressor.
k. Close valves 1a, 1b, 2, 5, and 6.
l. Turn off pumpout condenser water.
Transfer the Refrigerant from Chiller to Pumpout Storage
Tank
1. Equalize refrigerant pressure.
a. Valve positions:
b. Slowly open valve 5 and refrigerant charging
valves 7 and 10 to allow liquid refrigerant to drain
by gravity into the storage tank.
2. Transfer the remaining liquid.
a. Turn off pumpout condenser water. Place valves in
the following positions:
b. Run the pumpout compressor in automatic mode
until vacuum switch is satisfied and compressor
stops.
c. Turn off the pumpout compressor.
3. Remove any remaining refrigerant.
a. Turn on chiller water pumps.
b. Turn on pumpout condenser water.
c. Place valves in the following positions:
d. Run the pumpout compressor until the chiller pres-
sure reaches 35 psig (241 kPa); then, shut off the
pumpout compressor. Warm chiller condenser
water will boil off any entrapped liquid refrigerant
and chiller pressure will rise.
VALVE 1a1b2345671011
CONDITION C C C C
VALVE 1a1b2345671011
CONDITION CCCCCCCCC
VALVE 1a1b2345671011
CONDITION C C C C C
VALVE 1a1b2345671011
CONDITION C C
VALVE 1a1b2345671011
CONDITION C C
VALVE 1a1b2345671011
CONDITION C C C C
VALVE 1a1b2345671011
CONDITION C C C C
STORAGE
TANK LIQUID
VALVE
OIL
SEPARATOR
PUMPOUT
CONDENSER
WATER SUPPLY
AND RETURN
PUMPOUT
CONDENSER
STORAGE TANK
VAPOR VALVE
23
45
PRESSURE
RELIEF SAFETY
VALVE
PUMPOUT
COMPRESSOR
TEE FOR
CHARGING
SERVICE VALVE
COOLER
REFRIGERANT
ISOLATION
VALVE
REFRIGERANT
CHARGING
VALVE
CHILLER
CONDENSER
VESSEL
CHILLER
COOLER
VESSEL
10
6
7
11
1a
1b
SERVICE VALVE ON
PUMPOUT UNIT
=SERVICE VALVE ON
CHILLER (FIELD
SUPPLIED)
=
=MAINTAIN AT LEAST 2 FT (610mm) CLEARANCE AROUND
STORAGE TANK FOR SERVICE AND OPERATION WORK.
SERVICE VALVE
Fig. 10 — Valve Locations for 19XR Pumpout Unit With 19XB Storage Tank
14
e. When chiller pressure rises to 40 psig (276 kPa),
turn on the pumpout compressor until the pressure
again reaches 35 psig (241 kPa), then, turn off the
pumpout compressor. Repeat this process until the
chiller pressure no longer rises; then, turn on the
pumpout compressor and pump out until the chiller
pressure reaches 18 in. Hg vacuum (41 kPa abso-
lute). This can be done in On or Automatic mode.
f. Close valves 1a, 1b, 3, 4, and 6.
g. Turn off the pumpout condenser water.
4. Establish vacuum for service. To conserve refrigerant,
operate the pumpout compressor as described in Step 3e
until the chiller pressure is reduced to 18 in. Hg
vacuum (41 kPa absolute).
This operation can be done in Automatic or On mode.
In Automatic mode, the compressor will stop automati-
cally at approximately 15 in. Hg vacuum (51 kPa
absolute).
CHILLERS WITH ISOLATION VALVES — The valves
referred to in the following instructions are shown in Fig. 9 and
11. Valve 7 remains closed.
Transfer All Refrigerant to Chiller Condenser Vessel
1. Push refrigerant into chiller condenser vessel.
a. Turn on the chiller water pumps and monitor the
chiller pressure.
b. Valve positions:
c. Equalize the refrigerant in the chiller cooler and
condenser.
d. Turn off chiller water pumps and pumpout con-
denser water supply.
e. Turn on pumpout compressor to push liquid out of
the chiller cooler vessel.
f. When all liquid has been pushed into the chiller
condenser vessel, close the cooler refrigerant isola-
tion valve (11).
g. Turn on the chiller water pumps.
h. Turn off the pumpout compressor.
2. Evacuate gas from chiller cooler vessel.
a. Close pumpout valves 2 and 5; open valves 3
and 4.
b. Turn on pumpout condenser water.
c. Run pumpout compressor until the chiller cooler
vessel pressure reaches 18 in. Hg vacuum (41 kPa
absolute). Monitor pressures on the chiller control
panel and on refrigerant gages.
This operation can be done in Automatic or On
mode. In Automatic mode, the compressor will
stop automatically at approximately 15 in. Hg
vacuum (51 kPa absolute).
d. Close valve 1a.
e. Turn off pumpout compressor.
f. Close valves 1b, 3, and 4.
VALVE 1a1b2345671011
CONDITION CCCCCCCCC
VALVE 1a1b234511
CONDITION C C
VALVE 1a 1b 2 3 4 5 11
CONDITION C C C
VALVE 1a 1b 2 3 4 5 11
CONDITION CCCCCCC
OIL
SEPARATOR
PUMPOUT
CONDENSER
WATER SUPPLY
AND RETURN
PUMPOUT
CONDENSER
23
45
PRESSURE
RELIEF SAFETY
VALVE
PUMPOUT
COMPRESSOR
SERVICE VALVE
SERVICE VALVE
COOLER
REFRIGERANT
ISOLATION
VALVE REFRIGERANT
CHARGING
VALVE
CHILLER
CONDENSER
VESSEL
CHILLER
COOLER
VESSEL
7
11
1a
1b
SERVICE VALVE ON
PUMPOUT UNIT
=SERVICE VALVE ON
CHILLER
=
Fig. 11 — Valve Locations for 19XR Pumpout Unit Without Storage Tank
15
g. Turn off pumpout condenser water.
h. Turn off chiller water pumps and lock out chiller
compressor.
Transfer All Refrigerant to Chiller Cooler Vessel
1. Push refrigerant into the chiller cooler vessel.
a. Turn on the chiller water pumps and monitor the
chiller pressure.
b. Valve positions:
c. Equalize the refrigerant in the chiller cooler and
condenser.
d. Turn off chiller water pumps and pumpout con-
denser water.
e. Turn on pumpout compressor to push refrigerant
out of the chiller condenser.
f. When all liquid is out of the chiller condenser,
close valve 11 and any other liquid isolation valves
on the chiller.
g. Turn off the pumpout compressor.
2. Evacuate gas from chiller condenser vessel.
a. Turn on chiller water pumps.
b. Make sure that pumpout valves 3 and 4 are closed
and valves 2 and 5 are open.
c. Turn on pumpout condenser water.
d. Run the pumpout compressor until the chiller con-
denser reaches 18 in. Hg vacuum (41 kPa absolute)
in Manual or Automatic mode. Monitor pressure at
the chiller control panel and refrigerant gages.
e. Close valve 1b.
f. Turn off pumpout compressor.
g. Close valves 1a, 2, and 5.
h. Turn off pumpout condenser water.
i. Turn off chiller water pumps and lock out chiller
compressor.
Return Refrigerant to Normal Operating Conditions
1. Be sure that the chiller vessel that was opened has been
evacuated.
2. Turn on chiller water pumps.
3. Open valves 1a, 1b, and 3.
4. Crack open valve 5, gradually increasing pressure in the
evacuated chiller vessel to 35 psig (241 kPa). Feed refrig-
erant slowly to prevent tube freeze-up.
5. Leak test to ensure chiller vessel integrity.
6. Open valve 5 fully.
7. Close valves 1a, 1b, 3, and 5.
8. Open chiller isolation valve 11 and any other isolation
valves, if present.
9. Turn off chiller water pumps.
DISTILLING THE REFRIGERANT
1. Transfer the refrigerant from the chiller to the pumpout
storage tank as described in the Transfer the Refrigerant
from Chiller to Pumpout Storage Tank section.
2. Equalize the refrigerant pressure.
a. Turn on chiller water pumps and monitor chiller
pressures.
b. Close pumpout and storage tank valves 2, 4, 5, and
10, and close chiller charging valve 7; open chiller
isolation valve 11 and any other chiller isolation
valves, if present.
c. Open pumpout and storage tank valves 3 and 6;
open chiller valves 1a and 1b.
d. Gradually crack open valve 5 to increase chiller
pressure to 35 psig (241 kPa). Slowly feed refriger-
ant to prevent freeze-up.
e. Open valve 5 fully after the chiller pressure rises
above the freezing point of the refrigerant. Let the
storage tank and chiller pressure equalize.
3. Transfer remaining refrigerant.
a. Close valve 3.
b. Open valve 2.
c. Turn on pumpout condenser water.
d. Run the pumpout compressor until the storage tank
pressure reaches 5 psig (34 kPa), 18 in. Hg vacuum
(41 kPa absolute) in Manual or Automatic mode.
e. Turn off the pumpout compressor.
f. Close valves 1a, 1b, 2, 5, and 6.
g. Turn off pumpout condenser water.
4. Drain the contaminants from the bottom of the storage
tank into a container. Dispose of contaminants safely.
MAINTENANCE
Periodic maintenance is necessary to keep all components
functioning as designed. A maintenance log is recommended
to ensure a proper maintenance schedule is followed.
Pumpout Compressor Oil Charge — Use oil con-
forming to Carrier specifications for centrifugal or screw com-
pressor use. Oil requirements are listed in Table 6.
Monitor and adjust compressor oil level as often as
necessary. When replacing lost oil, add the same type of oil that
is used in the chiller being pumped out.
Table 6 — Pumpout Compressor Oil Requirements
VALVE 1a1b234511
CONDITION C C
VALVE 1a1b234511
CONDITION C C C
VALVE 1a1b234511
CONDITION CCCCCCC
VALVE 1a1b234511
CONDITION C C C C
VALVE 1a1b234511
CONDITION C C C
VALVE 1a 1b 2 3 4 5 11
CONDITION CCCCCC
VALVE 1a1b2345671011
CONDITION C C C C C
VALVE 1a1b2345671011
CONDITION C C C C
VALVE 1a1b2345671011
CONDITION CCCCCCCCC
REFRIGERANT ISO
VISCOSITY
CARRIER
SPECIFICATION NO.
R-134a 68 PP47-31
220 PP47-32
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
PC 211 Catalog No. 531-984 Printed in U.S.A. Form 19XR-6SI Pg 16 7-04A 5-04 Replaces: 19XB-1SI
Book 2
Ta b 5 a
Copyright 2004 Carrier Corporation
The pumpout oil separator comes pre-charged with 13 oz of
ISO viscosity 220 POE (Polyol Ester) oil. The pumpout com-
pressor is approved for use with ISO viscosity 220 POE oil or
ISO viscosity 68 POE oil. The pumpout compressor is also fac-
tory precharged with POE oil.
Oil should be visible in the pumpout compressor sight glass
both during operation and at shutdown. Always check the oil
level before operating the pumpout compressor. Before adding
or changing oil, relieve the refrigerant pressure through the ac-
cess valves.
Relieve refrigerant pressure and add oil to the pumpout unit
as follows:
1. Close service valves 2 and 4.
2. Run the pumpout compressor in Automatic mode for one
minute or until the vacuum switch is satisfied and com-
pressor shuts off.
3. Move the pumpout selector switch to OFF. Pumpout
compressor shell should now be under vacuum.
4. Oil can be added to the shell with a hand oil pump
through the access valve in the compressor base.
NOTE: Compressor access valve has a self-sealing fitting
which will require a hose connection with a depressor to open.
Storage Tank — To prevent moisture and contaminants
from entering the storage tank, maintain positive pressure in
the tank when not transferring refrigerant. Leak test the storage
tank periodically.
Ordering Replacement Parts — The following in-
formation must accompany an order for Carrier-specified parts:
• machine model number and serial number
• name, quantity, and part number of the part required
• delivery address and method of shipment
TROUBLESHOOTING
Information on troubleshooting for the PPS System is in-
cluded in Table 7.
Table 7 — Troubleshooting
SYMPTOM PROBABLE CAUSE REMEDY
Compressor Does Not Run Main power line open Replace fuse or reset circuit breaker.
Loose terminal connection Check connections.
Improperly wired controls Check wiring and rewire.
Low line voltage Check line voltage; determine location of voltage drop.
Compressor motor defective Check motor winding for open or short. Replace compressor if
necessary.
Seized compressor Replace compressor.
High level gage alarm Check refrigerant level and remove excess.
Compressor Cycles On
High-Pressure Control
High-pressure control erratic in action Check capillary tube for pinches. Set control as required.
Discharge valve partially closed. Open valve.
Air in system Purge system.
Condenser scaled. Clean condenser.
Condenser water pump or fans not
operating.
Start pump or fans.
Unit Operates Too Long Isolation valves partially open Close valves.
System Noises Piping vibrations Support piping as required. Check for loose pipe connectors.
Insufficient compressor oil Add oil.
Compressor Loses Oil Leak in system Locate and repair leak.
Plugged or stuck compressor oil return check
valve
Repair or replace valve.
Liquid refrigerant carries oil out of
compressor
Check to ensure only refrigerant vapor enters compressor suction
line. Add oil as necessary.
Motor shutdown on internal thermal protection
high temperature cutout.
High temperature cutout should reset within 120 minutes.
This manual suits for next models
31
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