Specifications

ManualsBrandsCarrier ManualsFan19XR

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

PC 211 Catalog No. 531-980 Printed in U.S.A. Form 19XR-4SS Pg 1 1-00 Replaces: 19XR-3SS

Book 2

Tab 5 a

Start-Up, Operation, and Maintenance Instructions

SAFETY CONSIDERATIONS

Centrifugal liquid chillers are designed to provide safe and

reliable service when operated within design specifica-

tions. When operating this equipment, use good judgment

and safety precautions to avoid damage to equipment and

property or injury to personnel.

Be sure you understand and follow the procedures and

safety precautions contained in the chiller instructions as

well as those listed in this guide.

DO NOT VENT refrigerant relief valves within a building. Outlet

from rupture disc or relief valve must be vented outdoors in accor-

dance with the latest edition of ANSI/ASHRAE 15 (American

National Standards Institute/American Society of Heating, Refrigera-

tion, and Air Conditioning Engineers). The accumulation of refriger-

ant in an enclosed space can displace oxygen and cause asphyxiation.

PROVIDE adequate ventilation in accordance with ANSI/ASHRAE

15, especially for enclosed and low overhead spaces. Inhalation of

high concentrations of vapor is harmful and may cause heart irregular-

ities, 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 chiller 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 pres-

sures on the equipment nameplate.

DO NOT USE air for leak testing. Use only refrigerant or dry

nitrogen.

DO NOT VALVE OFF any safety device.

BE SURE that all pressure relief devices are properly installed and

functioning before operating any chiller.

RISK OF INJURY OR DEATH by electrocution. High voltage is

present on motor leads even though the motor is not running when a

solid-state or inside-delta mechanical starter is used. Open the power

supply disconnect before touching motor leads or terminal

O 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 chiller 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 pan-

els, 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 liquid refrigerant 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 over pressure can result. When it is necessary to heat

refrigerant, use only warm (110 F [43 C]) 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 adding refrigerant to

the chiller. The introduction of the wrong refrigerant can cause dam-

age or malfunction to this chiller.

Operation of this equipment with refrigerants other than those

cited herein should comply with ANSI/ASHRAE 15 (latest edition).

Contact Carrier for further information on use of this chiller with other

refrigerants.

DO NOT ATTEMPT TO REMOVE fittings, covers, etc., while

chiller is under pressure or while chiller is running. Be sure pressure 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 chiller 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.

DO NOT STEP on refrigerant lines. Broken lines can whip about and

release refrigerant, causing personal injury.

DO NOT climb over a chiller. 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 compo-

nents are light, use mechanical equipment when there is a risk of slip-

ping or losing your balance.

BE AWARE that certain automatic start arrangements CAN

ENGAGE THE STARTER, TOWER FAN, OR PUMPS. Open the

disconnect ahead of the starter, tower fans, or pumps.

USE only repair or replacement parts that meet the code requirements

of the original equipment.

DO NOT VENT OR DRAIN waterboxes containing industrial brines,

liquid, gases, or semisolids without the permission of your process

control group.

DO NOT LOOSEN waterbox cover bolts until the waterbox has been

completely drained.

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.

PROVIDE A DRAIN connection in the vent line near each pressure

relief device to prevent a build-up of condensate or

rain water.

19XR,XRV

Hermetic Centrifugal Liquid Chillers

50/60 Hz

With PIC II Controls and HFC-134a

Summary of content (136 pages)

PAGE 1
9XR,XRV Hermetic Centrifugal Liquid Chillers 50/60 Hz With PIC II Controls and HFC-134a Start-Up, Operation, and Maintenance Instructions SAFETY CONSIDERATIONS Centrifugal liquid chillers are designed to provide safe and reliable service when operated within design specifications. When operating this equipment, use good judgment and safety precautions to avoid damage to equipment and property or injury to personnel.
PAGE 2
CONTENTS Page Ramp Loading. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Capacity Override . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 High Discharge Temperature Control . . . . . . . . . . . . 36 Oil Sump Temperature Control . . . . . . . . . . . . . . . . . . 36 Oil Cooler . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Remote Start/Stop Controls . . . . . . . . . . . . . . . . . . . . . 36 Spare Safety Inputs . . . . . . . .
PAGE 3
CONTENTS (cont) Page DESCRIBE CHILLER CYCLES REVIEW MAINTENANCE SAFETY DEVICES AND PROCEDURES CHECK OPERATOR KNOWLEDGE REVIEW THE START-UP, OPERATION, AND MAINTENANCE MANUAL OPERATING INSTRUCTIONS . . . . . . . . . . . . . . . . . .66,67 Operator Duties . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Prepare the Chiller for Start-Up . . . . . . . . . . . . . . . . . 66 To Start the Chiller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Check the Running System . . . . .
PAGE 4
CONTENTS (cont) Page Page Inspect the Heat Exchanger Tubes and Flow Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74 • COOLER AND FLOW DEVICES • CONDENSER AND FLOW DEVICES Water Leaks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74 Water Treatment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 Inspect the Starting Equipment. . . . . . . . . . . . . . . . . . 75 Check Pressure Transducers . . . . . . . . . . . . . . . . . . . .
PAGE 5
CHILLER FAMILIARIZATION (Fig. 1 and 2) Motor-Compressor — This component maintains system temperature and pressure differences and moves the heatcarrying refrigerant from the cooler to the condenser. Chiller Information Nameplate — The information Control Panel — The control panel is the user interface nameplate is located on the right side of the chiller control panel. for controlling the chiller. It regulates the chiller’s capacity as required to maintain proper leaving chilled water temperature.
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FRONT VIEW 1 2 3 4 5 17 6 16 7 8 15 14 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 — — — — — — — — — — — — — — — — — LEGEND Guide Vane Actuator Suction Elbow Chiller Visual Controller (CVC) Chiller Identification Nameplate Cooler, Auto Reset Relief Valves Cooler Pressure Transducer Condenser In/Out Temperature Thermistors Condenser Waterflow Device Cooler In/Out Temperature Thermistors Cooler Waterflow Device Refrigerant Charging Valve Typical Flange Connection Oil Drain Charging Valve Oil Level Sight
PAGE 7
Factory-Mounted Starter or Variable Frequency Drive (Optional) — The starter allows for the refrigerant is quite warm (typically 98 to 102 F [37 to 40 C]) when it is discharged from the compressor into the condenser. Relatively cool (typically 65 to 90 F [18 to 32 C]) water flowing into the condenser tubes removes heat from the refrigerant and the vapor condenses to liquid. The liquid refrigerant passes through orifices into the FLASC (Flash Subcooler) chamber (Fig. 3).
PAGE 8
LUBRICATION CYCLE cooler heat exchanger. The oil cooler uses refrigerant from the condenser as the coolant. The refrigerant cools the oil to a temperature between 120 and 140 F (49 to 60 C). As the oil leaves the oil cooler, it passes the oil pressure transducer and the thermal bulb for the refrigerant expansion valve on the oil cooler. The oil is then divided. Part of the oil flows to the thrust bearing, forward pinion bearing, and gear spray.
PAGE 9
REAR MOTOR BEARING FWD MOTOR BEARING LABYRINTH GAS LINE OIL SUPPLY TO FORWARD HIGH SPEED BEARING MOTOR COOLING LINE ISOLATION VALVE TXV BULB PRESSURE TRANSDUCER OIL PUMP ISOLATION VALVE OIL COOLER OIL PUMP MOTOR FILTER OIL HEATER EDUCTOR FILTER SIGHT GLASS SIGHT GLASS ISOLATION VALVE OIL SKIMMER LINE Fig. 4 — Lubrication System solid-state starters. This module controls and monitors all aspects of the starter. See the Controls section on page 10 for additional ISM information.
PAGE 10
There is a display on the front of the Benshaw, Inc., solidstate starters that is useful for troubleshooting and starter checkout. The display indicates: • voltage to the SCRs • SCR control voltage • power indication • proper phasing for rotation • start circuit energized • over-temperature • ground fault • current unbalance • run state • software configuration The starter is further explained in the Check Starter and Troubleshooting Guide sections, pages 54 and 76.
PAGE 11
SPEED VOLTS AMPS Hz RUNNING AUTO MAN Forward Reverse REMOTE JOG AUTO PROGRAM RUN JOB Kw TORQUE FORWARD REVERSE Password PROGRAM SPEED RUNNING VOLTS AMPS Hz REMOTE JOG AUTO Kw TORQUE FORWARD REVERSE Password PROGRAM AUTO MAN Forward Reverse PROGRAM RUN JOB ENTER ENTER OPTIONAL METER PACKAGE MANUAL RESET Fig.
PAGE 12
FITTING (HIDDEN) PANEL ACTUATOR CABLE PANEL CABLE WATER SENSOR CABLES WATER SENSOR CABLES COOLER PRESSURE TRANSDUCER CONNECTION CONDENSER PRESSURE CABLE SCHRADER FITTING (HIDDEN) CONDENSER PRESSURE TRANSDUCER CONNECTION CONDENSER SERVICE VALVE DISCHARGE ISOLATION VALVE (OPTIONAL) COMPRESSOR DISCHARGE ELBOW JOINTS TOP VIEW COMPRESSOR DETAIL Fig.
PAGE 13
CHILLER CONTROL MODULE (CCM) — This module is located in the control panel. The CCM provides the input and outputs necessary to control the chiller. This module monitors refrigerant pressure, entering and leaving water temperatures, and outputs control for the guide vane actuator, oil heaters, and oil pump. The CCM is the connection point for optional demand limit, chilled water reset, remote temperature reset, refrigerant leak sensor and motor kilowatt output.
PAGE 14
Fig. 12 — Control Panel Fig.
PAGE 15
CVC Operation and Menus (Fig. 14-20) PRIMARY STATUS MESSAGE GENERAL • The CVC display automatically reverts to the default screen after 15 minutes if no softkey activity takes place and if the chiller is not in the pumpdown mode (Fig. 14). • If a screen other than the default screen is displayed on the CVC, the name of that screen is in the upper right corner (Fig. 15). • The CVC may be set to display either English or SI units.
PAGE 16
• Press QUIT to leave the selected decision or field without saving any changes. • Press ENTER to leave the selected decision or field and save changes. • Press NEXT to scroll the cursor bar down in order to highlight a point or to view more points below the current screen. 2. Press NEXT or PREVIOUS to highlight the desired status table.
PAGE 17
• DEFAULT SCREEN LOCAL RESET SCHEDULE SETPOINT CCN MENU (SOFTKEYS) Start Chiller In CCN Control Start Chiller in Local Control Clear Alarms Access Main Menu STATUS 1 1 1 1 (ENTER A 4-DIGIT PASSWORD) (VALUES SHOWN AT FACTORY DEFAULT) List the Status Tables List the Service Tables Display The Setpoint Table • MAINSTAT • STARTUP • COMPRESS • HEAT_EX • POWER • ISM_STAT • CVC_PSWD Select a Status Table PREVIOUS NEXT Select a Modification Point PREVIOUS NEXT Modify a Discrete Point START STOP ON OFF
PAGE 18
• SERVICE TABLE NEXT PREVIOUS SELECT EXIT ALARM HISTORY Display Alarm History (The table holds up to 25 alarms and alerts with the most recent alarm at the top of the screen.
PAGE 19
SERVICE MENU CONTINUED FROM PREVIOUS PAGE ISM (STARTER) CONFIG DATA EQUIPMENT SERVICE 4 4 4 4 (ENTER A 4-DIGIT PASSWORD) (VALUES SHOWN AT FACTORY DEFAULT) Service Tables: • OPTIONS • SETUP1 • SETUP2 • LEADLAG • RAMP_DEM • TEMP_CTL Select a Service Table PREVIOUS NEXT Service Tables: • ISM (STARTER) CONFIG PASSWORD • ISM_CONF SELECT EXIT Select a Service Table Parameter SELECT PREVIOUS NEXT EXIT Modify a Service Table Parameter INCREASE DECREASE QUIT ENABLE DISABLE QUIT ENTER (ANALOG VALUES) E
PAGE 20
OCCPC02S — ICE BUILD Time Schedule OCCPC03S — CCN Time Schedule For Discrete Points — Press START or STOP to select the desired state. For Analog Points — Press INCREASE DECREASE to select the desired value. or 3. Press SELECT to view the desired time schedule. 4. Press NEXT or PREVIOUS to highlight the desired period or override to change. 3. Press ENTER to register the new value.
PAGE 21
7. Press ENTER to register the values and to move horizontally (left to right) within a period. 2. There are 5 set points on this screen: BASE DEMAND LIMIT, LCW SETPOINT (leaving chilled water set point), ECW SETPOINT (entering chilled water set point), ICE BUILD SETPOINT, and TOWER FAN HIGH SETPOINT. Only one of the chilled water set points can be active at one time. The set point that is active is determined from the SERVICE menu. See the Service Operation section, page 45.
PAGE 22
Table 2 — CVC Display Data 6. Reference Point Names shown in these tables in all capital letters can be read by CCN and BS software. Of these capitalized names, those preceded by a dagger can also be changed (that is, written to) by the CCN, BS, and the CVC. Capitalized Reference Point Names preceded by two asterisks can be changed only from the CVC. Reference Point Names in lower case type can be viewed by CCN or BS only by viewing the whole table. 7.
PAGE 23
Table 2 — CVC Display Data (cont) EXAMPLE 2 — MAINTSTAT DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press STATUS ( MAINSTAT will be highlighted). 3. Press SELECT .
PAGE 24
Table 2 — CVC Display Data (cont) EXAMPLE 4 — COMPRESS DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press STATUS . 3. Scroll down to highlight COMPRESS . 4. Press SELECT .
PAGE 25
Table 2 — CVC Display Data (cont) EXAMPLE 6 — POWER DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press STATUS . 3. Scroll down to highlight POWER . 4. Press SELECT .
PAGE 26
Table 2 — CVC Display Data (cont) EXAMPLE 8 — CVC_PSWD DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press STATUS . 3. Scroll down to highlight CVC_PSWD . 4. Press SELECT . DESCRIPTION Disable Service Password **Remote Reset Option Reset Alarm ? CCN Mode ? STATUS 0-1 0-1 0-1 0-1 UNITS DSABLE/ENABLE DSABLE/ENABLE NO/YES NO/YES POINT PSWD_DIS RESETOPT REMRESET REM_CCN NOTE: All variables with CAPITAL LETTER point names are available for CCN read operation.
PAGE 27
Table 2 — CVC Display Data (cont) EXAMPLE 11 — OVERRIDE DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight CONTROL ALGORITHM STATUS . 4. Press SELECT . 5. Scroll down to highlight OVERRIDE . 6. Press SELECT .
PAGE 28
Table 2 — CVC Display Data (cont) EXAMPLE 13 — ISM_HIST DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight CONTROL ALGORITHM STATUS . 4. Press SELECT . 5. Scroll down to highlight ISM_HIST . 6. Press SELECT .
PAGE 29
Table 2 — CVC Display Data (cont) EXAMPLE 15 — NET_OPT DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT CONFIGURATION . 4. Press SELECT . 5. Scroll down to highlight NET_OPT . 6. Press SELECT .
PAGE 30
Table 2 — CVC Display Data (cont) EXAMPLE 17 — OPTIONS DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT SERVICE . 4. Press SELECT . 5. Scroll down to highlight OPTIONS . 6. Press SELECT . DESCRIPTION Auto Restart Option Remote Contacts Open Soft Stop Amps Threshold Surge / Hot Gas Bypass Surge Limit/HGBP Option Select: Surge=0, HGBP=1 Min.
PAGE 31
Table 2 — CVC Display Data (cont) EXAMPLE 19 — SETUP2 DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT SERVICE . 4. Press SELECT . 5. Scroll down to highlight SETUP2 . 6. Press SELECT . DESCRIPTION Capacity Control Proportional Inc Band Proportional DEC Band Proportional ECW Band STATUS UNITS 2-10 2-10 1-3 POINT DEFAULT gv_inc gv_dec gw_ecw 6.0 6.
PAGE 32
Table 2 — CVC Display Data (cont) EXAMPLE 21 — RAMP_DEM DISPLAY SCREEN To access this display from the CVC default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT SERVICE . 4. Press SELECT . 5. Scroll down to highlight RAMP_DEM . 6. Press SELECT .
PAGE 33
PIC II System Functions display screen. The TARGET VFD SPEED can be manually overridden by the operator from the COMPRESS screen. The VFD MINIMUM SPEED, MAXIMUM SPEED, VFD GAIN and INCREASE STEP can be viewed and modified in the SETUP2 display screen. TARGET and ACTUAL VFD SPEED can be viewed in the COMPRESS DISPLAY screen. ECW CONTROL OPTION — If this option is enabled, the PIC II uses the ENTERING CHILLED WATER temperature to modulate the vanes instead of the LEAVING CHILLED WATER temperature.
PAGE 34
ICE BUILD mode, it uses Occupancy Schedule 02 (OCCPC02S). When the chiller is in CCN mode, it uses Occupancy Schedule 03 (OCCPC03S). The CCN SCHEDULE NUMBER is configured on the NET_OPT display screen, accessed from the EQUIPMENT CONFIGURATION table. See Table 2, Example 15. SCHEDULE NUMBER can be changed to any value from 03 to 99. If this number is changed on the NET_OPT screen, the operator must go to the ATTACH TO NETWORK DEVICE screen to upload the new number into the SCHEDULE screen. See Fig. 18.
PAGE 35
Table 3 — Protective Safety Limits and Control Settings MONITORED PARAMETER TEMPERATURE SENSORS OUT OF RANGE PRESSURE TRANSDUCERS OUT OF RANGE COMPRESSOR DISCHARGE TEMPERATURE MOTOR WINDING TEMPERATURE BEARING TEMPERATURE EVAPORATOR REFRIGERANT TEMPERATURE LIMIT –40 to 245 F (–40 to 118.3 C) APPLICABLE COMMENTS Must be outside range for 2 seconds 0.06 to 0.98 Voltage Ratio Must be outside range for 3 seconds. Ratio = Input Voltage ÷ Voltage Reference Preset, alert setting configurable >220 F (104.
PAGE 36
Ramp Loading — The ramp loading control slows down the rate at which the compressor loads up. This control can prevent the compressor from loading up during the short period of time when the chiller is started and the chilled water loop has to be brought down to CONTROL POINT. This helps reduce electrical demand charges by slowly bringing the chilled water to CONTROL POINT. The total power draw during this period remains almost unchanged. There are two methods of ramp loading with the PIC II.
PAGE 37
Table 4 — Capacity Overrides OVERRIDE CAPACITY CONTROL FIRST STAGE SET POINT SECOND STAGE SET POINT OVERRIDE TERMINATION View/Modify on CVC Screen Default Value Configurable Range Value Value HIGH CONDENSER PRESSURE SETUP1 125 psig (862 kPa) 90 to 165 psig (620 to 1138 kPa) >Override Set Point +2.4 psid (16.5 kPad) 200 F (93.
PAGE 38
Condenser Freeze Prevention — This control algorithm helps prevent condenser tube freeze-up by energizing the condenser pump relay. The PIC II controls the pump and, by starting it, helps to prevent the water in the condenser from freezing. The PIC II can perform this function whenever the chiller is not running except when it is either actively in pumpdown or in pumpdown/lockout with the freeze prevention disabled.
PAGE 39
determined by the configured valves before the HOT GAS BYPASS/SURGE PREVENTION will be turned on. As the point moves from the region where the HOT GAS BYPASS/ SURGE PREVENTION is on, the point must pass through the deadband region before the HOT GAS BYPASS/SURGE PREVENTION is turned off. Information on modifying the default set points of the minimum and full load points may be found in the Input Service Configurations section, page 55.
PAGE 40
The surge time period can also be adjusted from the OPTIONS screen. Scroll to the SURGE TIME PERIOD parameter, and use the INCREASE or DECREASE softkey to adjust the amount of time. The default setting is 8 minutes. Access the display screen (COMPRESS) to monitor the surge count (SURGE PROTECTION COUNTS). reduce the lift experienced by the compressor and help prevent a surge condition.
PAGE 41
Lead/Lag Control — The lead/lag control system automatically starts and stops a lag or second chiller in a 2-chiller water system. A third chiller can be added to the lead/lag system as a standby chiller to start up in case the lead or lag chiller in the system has shut down during an alarm condition and additional cooling is required. Refer to Fig. 17 and 18 for menu, table, and screen selection information.
PAGE 42
NOTE: Lead chiller percent capacity = 115 – LAG % CAPACITY. The LAG % CAPACITY parameter is on the LEADLAG screen, which is accessed from the EQUIPMENT SERVICE table on the SERVICE menu. FAULTED CHILLER OPERATION — If the lead chiller shuts down because of an alarm (*) condition, it stops communicating to the lag and standby chillers. After 30 seconds, the lag chiller becomes the acting lead chiller and starts and stops the standby chiller, if necessary.
PAGE 43
Ice Build Control — The ice build control option automatically sets the CONTROL POINT of the chiller to a temperature that allows ice building for thermal storage. NOTE: For ice build control to operate properly, the PIC II must be in CCN mode NOTE: See Fig. 17 and 18 for more information on ice buildrelated menus. The PIC II can be configured for ice build operation. • From the SERVICE menu, access the EQUIPMENT SERVICE table. From there, select the OPTIONS screen to enable or disable the ICE BUILD OPTION.
PAGE 44
3. Remote Contacts/Ice Level Input — Compressor operation terminates when the ICE BUILD TERMINATION parameter is set to 1 (CONTACTS) and the remote contacts are open and the ICE BUILD RECYCLE is set to DSABLE (0). In this case, the contacts provide ice level termination control. The contacts are used to stop the ice build function when a time period on the ice build schedule (OCCPC02S) is set for ice build operation.
PAGE 45
Service Operation — An overview of the tables and screens available for the SERVICE function is shown in Fig. 18. TO ACCESS THE SERVICE SCREENS — When the SERVICE screens are accessed, a password must be entered. 1. From the main MENU screen, press the SERVICE softkey. The softkeys now correspond to the numerals 1, 2, 3, 4. HOLIDAY SCHEDULING (Fig. 25) — The time schedules may be configured for special operation during a holiday period.
PAGE 46
START-UP/SHUTDOWN/ RECYCLE SEQUENCE (Fig. 26) Local Start-Up — Local start-up (or a manual start-up) is If the water/brine temperature is high enough, the start-up sequence continues and checks the guide vane position. If the guide vanes are more than 4% open, the start-up waits until the PIC II closes the vanes. If the vanes are closed and the oil pump pressure is less than 4 psi (28 kPa), the oil pump relay energizes.
PAGE 47
Shutdown Sequence — Chiller shutdown begins if any of the following occurs: • the STOP button is pressed for at least one second (the alarm light blinks once to confirm the stop command) • a recycle condition is present (see Chilled Water Recycle Mode section) • the time schedule has gone into unoccupied mode • the chiller protective limit has been reached and chiller is in alarm • the start/stop status is overridden to stop from the CCN network or the CVC When a stop signal occurs, the shutdown sequence fi
PAGE 48
BEFORE INITIAL START-UP To determine if there are any leaks, the chiller should be charged with refrigerant. Use an electronic leak detector to check all flanges and solder joints after the chiller is pressurized. If any leaks are detected, follow the leak test procedure.
PAGE 49
Fig.
PAGE 50
Leak Test Chiller — Due to regulations regarding refrigerant emissions and the difficulties associated with separating contaminants from the refrigerant, Carrier recommends the following leak test procedure. See Fig. 28 for an outline of the leak test procedure. Refer to Fig. 29 and 30 during pumpout procedures and Tables 5A and 5B for refrigerant pressure/ temperature values. 1. If the pressure readings are normal for the chiller condition: a. Evacuate the holding charge from the vessels, if present. b.
PAGE 51
Fig. 29 — Typical Optional Pumpout System Piping Schematic with Storage Tank Fig.
PAGE 52
Table 5A — HFC-134a Pressure — Temperature (F) TEMPERATURE, F 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 138 140 Table 5B — HFC-134a Pressure — Temperature (C) PRESSURE (psig) 6.50 7.52 8.60 9.66 10.79 11.96 13.17 14.42 15.72 17.06 18.45 19.88 21.37 22.90 24.48 26.11 27.80 29.53 31.32 33.17 35.08 37.04 39.06 41.14 43.28 45.48 47.
PAGE 53
Chiller Dehydration — Dehydration is recommended if the chiller has been open for a considerable period of time, if the chiller is known to contain moisture, or if there has been a complete loss of chiller holding charge or refrigerant pressure. Do not start or megohm-test the compressor motor or oil pump motor, even for a rotation check, if the chiller is under dehydration vacuum. Insulation breakdown and severe damage may result. Fig.
PAGE 54
11. On chillers with free-standing starters, inspect the power panel to ensure that the contractor has fed the wires into the bottom of the panel. Wiring into the top of the panel can cause debris to fall into the contactors. Clean and inspect the contactors if this has occurred. 2. On low-voltage compressors (600 v or less) connect a voltmeter across the power wires to the compressor starter and measure the voltage. Compare this reading to the voltage rating on the compressor and starter nameplates. 3.
PAGE 55
work or extended shutdowns. The oil heater relay status (OIL HEATER RELAY) can be viewed on the COMPRESS table on the CVC. Oil sump temperature can be viewed on the CVC default screen. SOFTWARE VERSION — The software part number is labeled on the backside of the CVC module. The software version also appears on the CVC configuration screen as the last two digits of the software part number. MECHANICAL STARTER 1.
PAGE 56
Configure SERVICE Tables — Access the SERVICE tables, shown in Table 2, to modify or view the following job site parameters: CHANGE CVC CONFIGURATION IF NECESSARY — From the SERVICE table, access the CVC CONFIGURATION screen. From there, view or modify the CVC CCN address, change to English or SI units, and change the password. If there is more than one chiller at the jobsite, change the CVC address on each chiller so that each chiller has its own address. Note and record the new address.
PAGE 57
CHANGE THE BENSHAW INC., RediStart MICRO™ SOFTWARE CONFIGURATION IF NECESSARY — Benshaw starter configurations are checked and modified from the menus in the Benshaw Redistart MICRO Default Display. See Fig. 32 and Table 6 for default display and menu items. To access the menus to perform checks and modifications, the Benshaw starter must be powered up and its self-test must have been successfully completed. The self-test takes place automatically after power-up.
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VERIFY VFD CONFIGURATION PARAMETERS IF NECESSARY AND Accessing Password Protected Parameters — Although the VFD controller has been preconfigured as the factory, the user will need to be able to access the parameters to verify the job specific parameters are correct, tune the controller or correct a problem. The two passwords protecting the VFD configuration are Parameter Set Display password and Program Disable password. The Parameter Set Display password restricts viewing. P.
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Configure Chiller Visual Controller Parameter — The chiller controller must have its job specific parameters set as defined by the job sheet or installed nameplates. Below are the job specific parameters that must be set: To access the ISM_CONF screen: 1. Press ENTER . 2. Press SERVICE . 3. Enter the password 1111. 4. Select ISM (CONFIG STARTER DATA) 5. Scroll down and select the ISM_CONF DATA screen to modify or view the ISM parameters: VFD Cooling System Leak Inspection 1.
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3. If outside the tolerance, adjust r.003 (Output Analog Gain). 4. Leave running for the next test. ISM Current Calibration Check 1. With the target VFD speed at 100%, load the chiller so that the CVC default display shows 75%-100% under the display title AMPS %. A higher load is preferred. 2. Measure the incoming current with a separate amp meter. 3. Calculate the line side error ratio using the following equation: 2. Press STATUS . 3. Press COMPRESS . 4. Press SELECT . 5. Set TARGET VFD SPEED to 0%.
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Calculate Minimum Load — To calculate the minimum load conditions, estimate the temperature difference the cooler will have at 10% load, then estimate what the suction and condensing temperatures will be at this point. Use the proper saturated pressure and temperature for the particular refrigerant used. Suction Temperature: 43 F (6.1 C) = 38 psig (262 kPa) saturated refrigerant pressure (HFC-134a) Condensing Temperature: 70 F (21.
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Owner-Modified CCN Tables — The following EQUIPMENT CONFIGURATION screens are described for reference only. OCCDEFCS — The OCCDEFCS screen contains the Local and CCN time schedules, which can be modified here or on the SCHEDULE screen as described previously. HOLIDAYS — From the HOLIDAYS screen, the days of the year that holidays are in effect can be configured. See the holiday paragraphs in the Controls section for more details. BRODEF — The BRODEF screen defines the start and end of daylight savings time.
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Check Optional Pumpout System Controls and Compressor — Controls include an on/off switch, Charge Refrigerant into Chiller a 3-amp fuse, the compressor overloads, an internal thermostat, a compressor contactor, and a refrigerant high pressure cutout. The high pressure cutout is factory set to open at 161 psig (1110 kPa) and reset at 130 psig (896 kPa). Ensure the watercooled condenser has been connected. Loosen the compressor holddown bolts to allow free spring travel.
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If the chiller has been shipped with a holding charge, the refrigerant is added through the pumpout charging connection (Fig. 29 and 30, valve 1b). First evacuate the nitrogen holding charge from the chiller vessels. Charge the refrigerant as a gas until the system pressure exceeds 35 psig (141 kPa) for HFC-134a. After the chiller is beyond this pressure the refrigerant should be charged as a liquid until all the recommended refrigerant charge has been added. The charging valve (Fig.
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3. View the STARTUP display screen and verify the chilled water and condenser water pumps have energized. 4. Verify the oil pump has started and is pressurizing the lubrication system. After the oil pump has run about 11 seconds, the starter energizes (COMPRESSOR START CONTACT is closed) and goes through its start-up sequence. 5. Check the main contactor (1M) for proper operation. 6. The PIC II eventually shows an alarm for motors amps not sensed. Reset this alarm and continue with the initial start-up.
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MOTOR COMPRESSOR ASSEMBLY — Guide vane actuator, transmission, motor cooling system, oil cooling system, temperature and pressure sensors, oil sight glasses, integral oil pump, isolatable oil filter, extra oil and motor temperature sensors, synthetic oil, and compressor serviceability. MOTOR COMPRESSOR LUBRICATION SYSTEM — Oil pump, cooler filter, oil heater, oil charge and specification, operating and shutdown oil level, temperature and pressure, and oil charging connections.
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After Extended Shutdown — Ensure the water system drains are closed. It may be advisable to flush the water circuits to remove any soft rust which may have formed. This is a good time to brush the tubes and inspect the Schrader fittings on the waterside flow devices for fouling, if necessary. Check the cooler pressure on the CVC default screen and compare it to the original holding charge that was left in the chiller.
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Press. Temp Refrigerant In Out GPM Water Pressure COOLER In Out Temp MACHINE MODEL NO. Press. Temp Refrigerant In Out GPM CONDENSER Water Pressure In Out Temp MACHINE SERIAL NO. BEARING TEMP Fig. 34 — Refrigeration Log REMARKS: Indicate shutdowns on safety controls, repairs made, oil or refrigerant added or removed, air exhausted and water drained from dehydrator. Include amounts. TIME DATE Plant Press. Diff.
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If the chilled water and condenser water pumps are not controlled by the PIC II, these pumps must be started and stopped manually at the appropriate times during the refrigerant transfer procedure. b. Close pumpout unit valves 2, 4, 5, 8, and 10, and close chiller charging valve 7; open chiller isolation valves 11, 12, 13, and 14 (if present). c. Open pumpout unit/storage tank valves 3 and 6, open chiller valves 1a and 1b.
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Chillers with Isolation Valves TRANSFER REFRIGERANT FROM CHILLER TO PUMPOUT STORAGE TANK 1. Equalize refrigerant pressure. a. Valve positions: TRANSFER ALL REFRIGERANT TO CHILLER CONDENSER VESSEL — For chillers with isolation valves, refrigerant can be stored in one chiller vessel or the other without the need for an external storage tank. 1. Push refrigerant into the chiller condenser. a. Valve positions: VALVE 1a 1b 2 3 4 5 6 7 8 10 11 12 13 14 C C C C C CONDITION b. Slowly open valve 5.
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GENERAL MAINTENANCE 2. Evacuate the refrigerant gas from the chiller condenser vessel. a. Access the PUMPDOWN LOCKOUT function accessed from the CVC CONTROL TEST table to turn on the chiller water pumps. Turn the chiller water pumps on manually if they are not controlled by the PIC II. b. Close pumpout unit valves 3 and 4; open valves 2 and 5. VALVE 1a 1b 2 CONDITION 3 C 4 C 5 Refrigerant Properties — The standard refrigerant for the 19XR chiller is HFC-134a.
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HFC-134a should not be mixed with air or oxygen and pressurized for leak testing. In general, this refrigerant should not be present with high concentrations of air or oxygen above atmospheric pressures, because the mixture can undergo combustion. TESTING WITH REFRIGERANT TRACER — Use an environmentally acceptable refrigerant as a tracer for leak test procedures. Use dry nitrogen to raise the machine pressure to leak testing levels.
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SCHEDULED MAINTENANCE Establish a regular maintenance schedule based on your actual chiller requirements such as chiller load, run hours, and water quality. The time intervals listed in this section are offered as guides to service only. housing. Fill with the same amount that was removed; then close the charging valve. 10. Remove the hose from the charging valve, open the isolation valves to the filter housing, and turn on the power to the pump and the motor.
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Inspect Refrigerant Float System — Perform this Compressor Bearing and Gear Maintenance — inspection every 5 years or when the condenser is opened for service. 1. Transfer the refrigerant into the cooler vessel or into a pumpout storage tank. 2. Remove the float access cover. 3. Clean the chamber and valve assembly thoroughly. Be sure the valve moves freely. Ensure that all openings are free of obstructions. 4. Examine the cover gasket and replace if necessary. See Fig.
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Water Treatment — Untreated or improperly treated water may result in corrosion, scaling, erosion, or algae. The services of a qualified water treatment specialist should be obtained to develop and monitor a treatment program. OPTIONAL PUMPOUT COMPRESSOR OIL CHARGE — Use oil conforming to Carrier specifications for reciprocating compressor usage. Oil requirements are as follows: ISO Viscosity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 Carrier Part Number . . . . . . . .
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TROUBLESHOOTING GUIDE resistance and corresponding temperature are listed in Table 12A or 12B. Check the resistance of both wires to ground. This resistance should be infinite. VOLTAGE DROP — The voltage drop across any energized sensor can be measured with a digital voltmeter while the control is energized. Table 12A or 12B lists the relationship between temperature and sensor voltage drop (volts dc measured across the energized sensor).
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Control Test — The Control Test feature can check all the thermistor temperature sensors, pressure transducers, pumps and their associated flow devices, the guide vane actuator, and other control outputs such as hot gas bypass. The tests can help to determine whether a switch is defective or a pump relay is not operating, as well as other useful troubleshooting issues. During pumpdown operations, the pumps are energized to prevent freeze-up and the vessel pressures and temperatures are displayed.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides A. MANUAL STOP PRIMARY MESSAGE MANUALLY STOPPED — PRESS TERMINATE PUMPDOWN MODE SECONDARY MESSAGE CCN OR LOCAL TO START TO SELECT CCN OR LOCAL SHUTDOWN IN PROGRESS SHUTDOWN IN PROGRESS COMPRESSOR UNLOADING COMPRESSOR DEENERGIZED ICE BUILD OPERATION COMPLETE PROBABLE CAUSE/REMEDY PIC II in OFF mode, press CCN or LOCAL softkey to start unit.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) D. PRE-START ALERTS: These alerts only delay start-up. When alert is corrected, the start-up will continue. No reset is necessary. PRIMARY MESSAGE PRESTART ALERT PRESTART ALERT SECONDARY MESSAGE STARTS LIMIT EXCEEDED HIGH BEARING TEMPERATURE ALARM MESSAGE PRIMARY CAUSE 100->Excessive compressor starts (8 in 12 hours) 101->Comp Thrust Bearing Temp [VALUE] exceeded limit of [LIMIT]*.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) G. NORMAL RUN WITH OVERRIDES STATE 120 121 122 123 124 125 PRIMARY MESSAGE RUN CAPACITY LIMITED RUN CAPACITY LIMITED RUN CAPACITY LIMITED RUN CAPACITY LIMITED RUN CAPACITY LIMITED RUN CAPACITY LIMITED SECONDARY MESSAGE HIGH CONDENSER PRESSURE HIGH MOTOR TEMPERATURE ALARM MESSAGE PRIMARY CAUSE 120->Condenser Pressure [VALUE] exceeded limit of [LIMIT]*.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) I.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) I.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) I.
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Table 11 — CVC Primary and Secondary Messages and Custom Alarm/Alert Messages with Troubleshooting Guides (cont) J.
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Table 12A — Thermistor Temperature (F) vs Resistance/Voltage Drop TEMPERATURE (F) –25 –24 –23 –22 –21 –20 –19 –18 –17 –16 –15 –14 –13 –12 –11 –10 –9 –8 –7 –6 –5 –4 –3 –2 –1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 PIC II RESISTANCE VOLTAGE (Ohms) DROP (V) 4.700 98,010 4.690 94,707 4.680 91,522 4.670 88,449 4.659 85,486 4.648 82,627 4.637 79,871 4.625 77,212 4.613 74,648 4.
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Table 12B — Thermistor Temperature (C) vs Resistance/Voltage Drop TEMPERATURE (C) –33 –32 –31 –30 –29 –28 –27 –26 –25 –24 –23 –22 –21 –20 –19 –18 –17 –16 –15 –14 –13 –12 –11 –10 –9 –8 –7 –6 –5 –4 –3 –2 –1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 PIC II VOLTAGE DROP (V) 4.722 4.706 4.688 4.670 4.650 4.630 4.608 4.586 4.562 4.538 4.512 4.486 4.458 4.429 4.399 4.368 4.336 4.303 4.269 4.233 4.196 4.158 4.119 4.079 4.037 3.994 3.951 3.906 3.861 3.
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Control Modules Notes on Module Operation 1. The chiller operator monitors and modifies configurations in the microprocessor by using the 4 softkeys and the CVC. Communications between the CVC and the CCM is accomplished through the SIO (Sensor Input/ Output) bus, which is a phone cable. The communication between the CCM and ISM is accomplished through the sensor bus, which is a 3-wire cable. 2. If a green LED is on continuously, check the communication wiring.
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Chiller Control Module (CCM) (Fig. 41) 8. Access the MAINSTAT table and highlight the TOTAL COMPRESSOR STARTS parameter. Press the SELECT softkey. Increase or decrease the value to match the starts value recorded in Step 3. Press the ENTER softkey when you reach the correct value. Now, move the highlight bar to the COMPRESSOR ONTIME parameter. Press the SELECT softkey. Increase or decrease the run hours value to match the value recorded in Step 2. Press the ENTER softkey when the correct value is reached.
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J11 DISCRETE OUTPUTS SW1 J12 DISCRETE OUTPUTS J1 24 VAC ANALOG OUT J8 SIO J7 SIO J6 SW2 V/I INPUTS J5 COMM STAT THERMISTORS J4 PRESSURE J2 DIFF PRESSURE J3 Fig.
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5. Using quarter-turn increments, alternating between clamping bolts, apply the appropriate number of whole turns referencing the table in Fig. 43. 5. Using an ohmmeter, perform the following resistance measurements and record the results: MEASURE BETWEEN T1 and T6 T2 and T4 T3 and T5 6. 7. 8. 9. 10. SCR PAIRS BEING CHECKED 3 and 6 2 and 5 1 and 4 RECORDED VALUE Care must be taken to prevent nut rotation while tightening the bolts.
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Table 13A — Heat Exchanger Data (English) NUMBER OF TUBES CODE 10 11 12 15 16 17 20 21 22 30 31 32 35 36 37 40 41 42 45 46 47 50 51 52 5A 5B 5C 55 56 57 5F 5G 5H 60 61 62 65 66 67 70 71 72 75 76 77 80 81 82 85 86 87 ENGLISH Dry (Rigging) Weight (lb) Cooler Condenser Cooler Only 142 161 180 142 161 180 200 240 282 200 240 280 200 240 280 324 364 400 324 364 400 431 485 519 225 241 258 431 485 519 225 241 258 557 599 633 557 599 633 644 726 790 644 726 790 829 901 976 829 901 976 180 200 225 180 200 22
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Table 13B — Heat Exchanger Data (SI) NUMBER OF TUBES CODE 10 11 12 15 16 17 20 21 22 30 31 32 35 36 37 40 41 42 45 46 47 50 51 52 5A 5B 5C 55 56 57 5F 5G 5H 60 61 62 65 66 67 70 71 72 75 76 77 80 81 82 85 86 87 SI Dry (Rigging) Weight (kg) Cooler Condenser Cooler Only 142 161 180 142 161 180 200 240 282 200 240 280 200 240 280 324 364 400 324 364 400 431 485 519 225 241 258 431 485 519 225 241 258 557 599 633 557 599 633 644 726 790 644 726 790 829 901 976 829 901 976 180 200 225 180 200 225 218 266
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Table 14 — 19XR Additional Data for Marine Waterboxes* HEAT EXCHANGER FRAME, PASS Psig FRAME 2, 1 AND 2 PASS FRAME 2, 2 PASS FRAME 3, 1 AND 2 PASS FRAME 3, 2 PASS FRAME 4, 1 AND 3 PASS FRAME 4, 2 PASS FRAME 5, 1 AND 3 PASS FRAME 5, 2 PASS FRAME 6, 1 AND 3 PASS FRAME 6, 2 PASS FRAME 7, 1 AND 3 PASS FRAME 7, 2 PASS FRAME 8, 1 AND 3 PASS FRAME 8, 2 PASS FRAME 2, 1 AND 3 PASS FRAME 2, 2 PASS FRAME 3, 1 AND 3 PASS FRAME 3, 2 PASS FRAME 4, 1 AND 3 PASS FRAME 4, 2 PASS FRAME 5, 1 AND 3 PASS FRAME 5, 2 PASS FRAME
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Table 16 — 19XR Motor Weights Standard and High Efficiency Motors MOTOR SIZE BD BE BF BG BH CD CE CL CM CN CP CQ DB DC DD DE DF DG DH DJ EH EJ EK EL EM EN EP Stator Weight* (lb) 60 Hz 50 Hz 1030 1030 1070 1070 1120 1120 1175 1175 1175 1175 1286 1358 1305 1377 1324 1435 1347 1455 1358 1467 1401 1479 1455 1479 1665 1725 1681 1737 1977 2069 2018 2089 2100 2139 2187 2153 2203 2207 2228 2305 3060 3120 3105 3250 3180 3250 3180 3370 3270 3370 3270 3520 3340 3520 ENGLISH Rotor Weight (lb) 60 Hz 50 Hz 240 240 250
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Table 17A — 19XR Waterbox Cover Weights — English (lb) HEAT EXCHANGER WATERBOX DESCRIPTION COOLER/ CONDENSER NIH, 1 Pass Cover, 150 psig NIH, 2 Pass Cover, 150 psig NIH, 3 Pass Cover, 150 psig NIH/MWB End Cover, 150 psig NIH, 1 Pass Cover, 300 psig NIH, 2 Pass Cover, 300 psig NIH, 3 Pass Cover, 300 psig NIH/MWB End Cover, 300 psig HEAT EXCHANGER WATERBOX DESCRIPTION COOLER/ CONDENSER NIH, 1 Pass Cover, 150 psig NIH, 2 Pass Cover, 150 psig NIH, 3 Pass Cover, 150 psig NIH/MWB End Cover, 150 psig NIH, 1
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Table 17B — 19XR Waterbox Cover Weights — SI (kg) HEAT EXCHANGER WATERBOX DESCRIPTION COOLER/ CONDENSER NIH, 1 Pass Cover, 1034 kPa NIH, 2 Pass Cover, 1034 kPa NIH, 3 Pass Cover, 1034 kPa NIH/MWB End Cover, 1034 kPa NIH, 1 Pass Cover, 2068 kPa NIH, 2 Pass Cover, 2068 kPa NIH, 3 Pass Cover, 2068 kPa NIH/MWB End Cover, 2068 kPa HEAT EXCHANGER WATERBOX DESCRIPTION COOLER/ CONDENSER NIH, 1 Pass Cover, 1034 kPa NIH, 2 Pass Cover, 1034 kPa NIH, 3 Pass Cover, 1034 kPa NIH/MWB End Cover, 1034 kPa NIH, 1 Pass
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Table 20 — Motor Voltage Code Table 18 — Optional Pumpout System Electrical Data MOTOR CODE 1 4 5 6 CONDENSER UNIT 19EA47-748 19EA42-748 19EA44-748 19EA46-748 VOLTS-PH-Hz 575-3-60 200/208-3-60 230-3-60 400/460-3-50/60 MAX RLA 3.8 10.9 9.5 4.7 Code 60 61 62 63 64 65 66 67 68 69 50 51 52 53 54 55 LRA 23.0 63.5 57.5 28.
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COMPRESSOR, TRANSMISSION AREA Compressor Assembly Torques ITEM 1* 2 3 4 5* 6* 7* DESCRIPTION Oil Heater Retaining Nut Bull Gear Retaining Bolt Demister Bolts Impeller Retaining Bolt Motor Terminals (Low Voltage) Guide Vane Shaft Seal Nut Motor Terminals (High Voltage) — Insulator — Packing Nut — Brass Jam Nut TORQUE ft-lb N•m 20 28 80-85 108-115 15-19 20-26 44-46 60-62 50 68 25 34 2-4 5 10 2.7-5.4 6.8 13.6 LEGEND N•m — Newton meters *Not shown. NOTES: 1.
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VIEW B — HIGH SPEED SHAFT 19XR COMPRESSOR CLEARANCES ITEM A B C D E F G 221-299 .0050 .0040 .0050 .0040 .0115 .0055 .0190 .0040 –.002 –.0005 .0050 .0040 .157 .0257 COMPRESSOR CODE 321-389 421-489 .0050 .0055 .0040 .0043 .0050 .0053 .0040 .0043 .0115 .0100 .0080 .0050 .022 .027 .012 .017 –.0020 –.0029 –.0005 –.0014 .0050 .0048 .0040 .0038 .157 .0340 .0257 .0240 NOTE: All clearances for cylindrical surfaces are diametrical. Fig. 44 — Compressor Fits and Clearances (cont) 99 521-599 .0069 .0059 .0065 .
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** ISM L LVG N.O. PRESS REQM’T TEMP TB Fig. 45 — Electronic PIC II Control Panel Wiring Schematic (Frame 2, 3, 4 Compressor) AUX BRG C CB CCM CCN COMP’R COND CVC DISCH DL/DP ENT EVAP EXT FR GND G.V.
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— — — — — — — — — — — — — — — — — — — LEGEND Auxiliary Bearing Contactor Circuit Breaker Chiller Control Module Carrier Comfort Network Compressor Condenser Chiller Visual Controller Discharge Datalink or Dataport Entering Evaporator External Frame Ground Guide Vane Hot Gas Bypass Heat Exchanger Fig. 46 — Electronic PIC II Control Panel Wiring Schematic (Frame 5 Compressor) AUX BRG C CB CCM CCN COMP’R COND CVC DISCH DL/DP ENT EVAP EXT FR GND G.V. HGBP HT EXCH ** ISM L LVG N.O.
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AUX C CB CCM COMM COMPR DISCH — — — — — — — Auxiliary Contactor Circuit Breaker Chiller Control Module Communication Compressor Discharge FR G GRD GVA HGBP HT EXCH ISM — — — — — — — Frame Ground Ground Guide Vane Actuator Hot Gas Bypass Heat Exchanger Integrated Starter Module — — — — — — Main Supply Power Normally Open Pressure Requirement Transformer Terminal Board LEGEND * ** Wire Splice Denotes Conductor Male/Female Connector Denotes Power Panel Terminal Denotes Mach. Control Panel Conn.
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LEGEND AUX C CB CT DS FU G — — — — — — — Auxiliary Contactor Circuit Breaker Current Transformer Disconnect Switch Fuse Ground HPR ISM L LL M RES S TB — — — — — — — — High Pressure Relay Integrated Starter Module Main Supply Power Control Power Supply Contactor Resistor Contactor Terminal Block NOTES: 1. Power factor correction capacitors (when required) are connected ahead of all current transformers for proper calibration and sensing by the ISM and IQDP4130. 2.
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LEGEND AUX C CB CT DS FU G — — — — — — — Auxiliary Contactor Circuit Breaker Current Transformer Disconnect Switch Fuse Ground HPR ISM L LL M RES S TB — — — — — — — — High Pressure Relay Integrated Starter Module Main Supply Power Control Power Supply Contactor Resistor Contactor Terminal Block NOTES: 1. Power factor correction capacitors (when required) are connected ahead of all current transformers for proper calibration and sensing by the ISM and IQDP4130. 2. For metering option see Fig. 51. Fig.
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AM CT ISM LL VFD VM — — — — — — LEGEND Ammeter Current Transformer Integrated Starter Module Control Power Supply Variable Frequency Drive Voltmeter Represents Twisted Wire To Door Fig. 50 — Ground Fault Phase Current Option AM CT ISM LL VFD VM — — — — — — LEGEND Ammeter Current Transformer Integrated Starter Module Control Power Supply Variable Frequency Drive Voltmeter Represents Twisted Wire To Door Fig.
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Fig. 52 — Benshaw, Inc.
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LEGEND AUX BR CB COND CPU CVC CT EVAP FU GND — — — — — — — — — — Auxiliary Bridge Rectifier Circuit Breaker Condenser Central Processing Unit Chiller Visual Controller Current Transformer Evaporator Fuse Ground L LL M O/L PFCC RLA SCR ST TB — — — — — — — — — Main Supply Power Control Power Supply Contactor Overload Reset Power Factor Correction Capacitor Rated Load Amps Silicone Controller Rectifier Shunt Trip Terminal Block NOTES: 1 LED status with power applied and prior to run command.
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Fig.
PAGE 109
Fig.
PAGE 110
Fig.
PAGE 111
Fig.
PAGE 112
Fig.
PAGE 113
Fig.
PAGE 114
Fig.
PAGE 115
Fig.
PAGE 116
Fig.
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LEGEND FOR FIG.
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INDEX Motor Rotation (Check), 65 Notes on Module Operation, 87 Oil Changes, 73 Oil Charge, 55 Oil Cooler, 36 Oil Pressure and Compressor Stop (Check), 65 Oil Reclaim Filter, 73 Oil Reclaim System, 8 Oil Specification, 73 Oil Sump Temperature Control, 36 Open Oil Circuit Valves, 48 Operating Instructions, 66 Operating the Optional Pumpout Unit, 67 Operator Duties, 66 Optional Pumpout Compressor Water Piping (Check), 53 Optional Pumpout System Controls and Compressor (Check), 63 Optional Pumpout System Mainte
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INDEX (cont) Trim Refrigerant Charge, 72 Troubleshooting Guide, 76 Unit Mounted Solid-State Starter, 9 Unit Mounted VFD, 10 Unit Mounted Wye-Delta Starter, 10 Using the Optional Storage Tank and Pumpout System, 48 VFD Cooling Cycle, 8 Water/Brine Reset, 38 Water Leaks, 74 Water Piping (Inspect), 53 Water Treatment, 75 Weekly Maintenance, 72 Start the Chiller, 66 Stop the Chiller, 66 Storage Vessel, 7 Summary (Lubrication Cycle), 8 Surge Prevention Algorithm (Fixed Speed Chiller), 39 Surge Prevention Algori
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Copyright 2000 Carrier Corporation Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book 2 PC 211 Catalog No. 531-980 Printed in U.S.A.
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - INITIAL START-UP CHECKLIST FOR 19XR, XRV HERMETIC CENTRIFUGAL LIQUID CHILLER (Remo
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INSPECT WIRING AND RECORD ELECTRICAL DATA: RATINGS: Motor(s) Amps Motor Voltage Line Voltages: Motor Oil Pump Voltage Oil Pump Starter LRA Rating Controls/Oil Heater FIELD-INSTALLED STARTERS ONLY: Check continuity T1 to T1, etc. (Motor to starter, disconnect motor leads T4, T5, T6.) Do not megger solid-state starters; disconnect leads to motor and megger the leads.
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - 19XR, XRV PIC II SETPOINT TABLE CONFIGURATION SHEET DESCRIPTION Base Demand Limit
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19XR, XRV PIC II TIME SCHEDULE CONFIGURATION SHEET OCCPC01S Day Flag M T W T F S S H Occupied Time Unoccupied Time Period 1: Period 2: Period 3: Period 4: Period 5: Period 6: Period 7: Period 8: NOTE: Default setting is OCCUPIED 24 hours/day. ICE BUILD 19XR, XRV PIC II TIME SCHEDULE CONFIGURATION SHEET OCCPC02S Day Flag M T W T F S S H Occupied Time Unoccupied Time Period 1: Period 2: Period 3: Period 4: Period 5: Period 6: Period 7: Period 8: NOTE: Default setting is UNOCCUPIED 24 hours/day.
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - 19XR, XRV PIC II ISM_CONF TABLE CONFIGURATION SHEET DESCRIPTION Starter Type (0=Fu
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19XR, XRV PIC II OPTIONS TABLE CONFIGURATION SHEET DESCRIPTION Auto Restart Option Remote Contacts Option Soft Stop Amps Threshold Surge/Hot Gas Bypass Surge Limit/HGBP Option Select: Surge=0, HGBP=1 Min.
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - 19XR, XRV PIC II SETUP1 TABLE CONFIGURATION SHEET DESCRIPTION Comp Motor Temp Over
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19XR, XRV PIC II SETUP2 TABLE CONFIGURATION SHEET DESCRIPTION Capacity Control Proportional Inc Band Proportional DEC Band Proportional ECW Gain STATUS UNITS DEFAULT 2 to 10 2 to 10 1 to 3 Guide Vane Travel Limit 30 to 100 % 80 Diffuser Control Diffuser Option Guide Vane 25% Load Pt Diffuser 25% Load Point Guide Vane 50% Load Pt Diffuser 50% Load Point Guide Vane 75% Load Pt Diffuser 75% Load Point Diffuser Full Span mA 0 to 1 0 to 78 0 to 100 0 to 78 0 to 100 0 to 78 0 to 100 15 to 22 DSABLE/ENA
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - 19XR, XRV PIC II LEADLAG TABLE CONFIGURATION SHEET DESCRIPTION Lead Lag Control LE
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19XR, XRV PIC II RAMP_DEM TABLE CONFIGURATION SHEET DESCRIPTION Pulldown Ramp Type: Select: Temp=0, Load=1 Demand Limit + kW Ramp Demand Limit Source Select: Amps=0, kW=1 Motor Load Ramp % Min Demand Limit Prop Band Demand Limit At 20 mA 20 mA Demand Limit Opt Motor Rated Kilowatts Demand Watts Interval RANGE UNITS DEFAULT 0/1 1 0/1 0 5 to 20 3 to 15 40 to 100 0/1 50 to 9999 5 to 60 % % DSABLE/ENABLE kW MIN VALUE 10 10 40 DSABLE 156 15 19XR, XRV PIC II TEMP_CTL TABLE CONFIGURATION SHEET DESCRIPT
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - BROADCAST (BRODEF) CONFIGURATION SHEET DESCRIPTION Time Broadcast Enable Daylight
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UNIT-MOUNTED VFD CONFIGURATION SHEET DESCRIPTION Maximum Speed Speed Display Scaling Motor Voltage Frequency Motor Amps Line Voltage Over Frequency Limit PARAMETER P.004 P.028 H.000 H.001 H.002 H.021 H.022 RANGE 15 to H.022 10 to 999 100 to 690 30 to 200 Power Module Dependent 300 to 565 30 to 210 *Variable by job — refer to component nameplates and labels.
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CUT ALONG DOTTED LINE CUT ALONG DOTTED LINE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - CVC DISPLAY AND ALARM SHUTDOWN STATE RECORD SHEET PRIMARY MESSAGE: DATE: SECONDA
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CVC DISPLAY AND ALARM SHUTDOWN STATE RECORD SHEET PRIMARY MESSAGE: DATE: SECONDARY MESSAGE: COMPRESSOR ONTIME: TIME: CHW IN CHW OUT EVAP REF CDW IN CDW OUT COND REF OILPRESS OIL TEMP AMPS % COMMUNICATION MESSAGE CCN LOCAL RESET MENU Copyright 2000 Carrier Corporation Book Tab Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. 2 PC 211 Catalog No. 531-980 Printed in U.S.A.