ylcs - sa, ha & aa models -...
TRANSCRIPT
YLCS - SA, HA & AA MODELS
ENGINEERING GUIDE Revision 6 PC155-100 (GB 0510)
R134a
WATER COOLED LIQUID CHILLER ANDREMOTE AIR COOLED CHILLER
PC155-100 Rev.6 (0510)
�GB
Table of Contents
FeatuRes ............................................................................................................................................................. 4
sPeCiFiCation .................................................................................................................................................... 5
aCCessoRies and oPtions ............................................................................................................................ 7
oPeRatinG Limitations .................................................................................................................................... 9
ReFRiGeRation FLow diaGRam (YLCs 0�50 to 0620 modeLs) .............................................................. 10
ReFRiGeRation FLow diaGRam (YLCs 0670 to 1120 modeLs) .............................................................. 10
seLeCtion Guide - wateR ............................................................................................................................. 12
seLeCtion Guide - GLYCoL (Ha modeLs onLY) ........................................................................................ 14
CooLinG CaPaCities (0�50sa - 1120sa) ....................................................................................................... 16
CooLinG CaPaCities (0�50Ha - 1120Ha) ....................................................................................................... 17
GLYCoL CooLinG CaPaCities (0�50Ha - 1120Ha) ....................................................................................... 21
CooLinG CaPaCities (0�50aa - 1120aa) ....................................................................................................... 25
GLYCoL CooLinG CaPaCities (0�50aa - 1120aa) ........................................................................................ 29
PHYsiCaL data .................................................................................................................................................. ��
eLeCtRiCaL data - unit .................................................................................................................................. �4
eseeR data ....................................................................................................................................................... �8
sound data .......................................................................................................................................................40
dimensions ....................................................................................................................................................... 41
PoweR suPPLY ConneCtion diaGRams .................................................................................................... 48
CustomeR ConneCtion diaGRam .............................................................................................................. 50
CLeaRanCes ..................................................................................................................................................... 51
PC155-100 Rev.6 (0510)
4 GB
Features
York YLCs water Cooled screw Chillers are a compact design suitable for water or water-glycol cooling. models are available in three versions:
• standard units (sa),
• units for applications requiring high condensing temperatures (Ha)
• units for applications where remote condensers are necessary (aa).
semi-hermetic twin helical screw compressors are provided to ensure high operational efficiencies and reliable performance.
they are designed to be located in a plant room and require a cooling tower or dry cooler for heat rejection.
Available Models and Nominal Capacities (Table1)
SA ModelsModel 0350 0415 0480 0530 0575 0620Cooling Capacity (kw) �42 411 480 518 556 605
Model 0670 0750 0860 0980 1120Cooling Capacity (kw) 645 74� 849 966 1099eeR 4.80 4.78 4.9� 5.02 5.00
Cooling capacities at 7°C leaving chilled liquid temperature and �5°C leaving condenser water temperature.
HA ModelsModel 0350 0415 0480 0530 0575 0620Cooling Capacity (kw) 282 ��9 �97 426 456 495
Model 0670 0750 0860 0980 1120Cooling Capacity (kw) 578 667 762 870 987
Cooling capacities at 7°C leaving chilled liquid temperature and 50°C leaving condenser water temperature.
AA ModelsModel 0350 0415 0480 0530 0575 0620Cooling Capacity (kw) �22 �88 454 490 526 572
Model 0670 0750 0860 0980 1120Cooling Capacity (kw) 628 724 828 94� 107�
Cooling capacities at 7°C leaving chilled liquid temperature at 45°C saturated discharge temperature at unit.
FEATURES BENEFITSmanufactured to iso 9001/en 29001.
High standard of quality control.
High efficiency industrial type semi-hermetic twin helical screw compressors.
Energy efficient, long life, reliable compressor.
separate power and control compartments with lockable doors and emergency stop device.
operator safety considerations.
Power compartment optional door interlocked isolators.
operator safety convenience.
star/delta compressor starter. Reduced starting current.
microprocessor control with visual display of temperatures, pressures, motor current , operating hours and number of starts.
system data logging and temperature reset capability. Faul t d iagnost ics. energy management.
multiple independant Refrigerant Circuits
system stand-by security
Full Factory Run test Verifies quality control and ensures that the unit operates satisfactorily prior to delivery
unit remote alarm contacts. Warning notification.
o p t i o n a l r e m o t e w a t e r temperature reset.
Improves operating efficiency.
Building management system interface.
For central data logging and single point system monitoring and control.
PC155-100 Rev.6 (0510)
5GB
Specification
GeneralYLCs models shall be completely assembled with all interconnecting refrigerant piping and internal wiring, ready for field installation. SA and HA units shall be pressure tested, evacuated, and fully factory charged with refrigerant and oil in each of the independent refrigerant circuits. For aa units, the unit shall be pressure tested, evacuated, and filled with 0.35 barg pressure of nitrogen per independant circuit. after assembly, a simulated functional test shall be performed on the unit
unit to have final overspray paint after assembly (optional) by customer request.
Compressorseach compressor shall be direct drive, semi-hermetic, rotary twin screw type and include the following items:
• two screw rotors, with asymmetric profiles, manufactured from forged steel.
• a cast iron compressor housing precision machined to provide optimal clearance for the rotors.
• the entire compressor, from suction to discharge shall have a design working pressure of �1 barg.
• Capacity Control: the compressors shall start at the minimum load position and provide a load control range from 100% to 15% of the full load using step control. a microprocessor controlled output pressure regulating capacity control valve shall be supplied to command compressor capacity independent of control valve input pressure and to balance the compressor capacity with the cooling load.
• an automatic spring return of capacity control valve to the minimum load position to ensure compressor starting at minimum motor load.
• an internal discharge check valve to prevent rotor backspin upon shutdown.
• Remote acoustic tuned muffler.• discharge and optional suction shut-off service
valves.• a reliable suction gas cooled high efficiency,
accessible hermetic motor with redundant overload protection using both thermistor and current overload protection.
• a suction gas screen and serviceable, 17 micron full flow oil filter within the compressor housing.
• a �00 w compressor body heater.• integral oil separators with a design working pressure
of 31 barg shall be the high efficiency, augmented gas impingement type to maximise oil extraction without fragile media to break down.
Motor Startingtwo types of compressor motor starting are available: star/delta open transition starter and optional star/delta closed transition starter.
the standard star/delta starter utilises � motor contactors and a transition delay relay. the optional closed star/delta starter utilises 4 motor contactors, a set of transition resistors and a transition delay relay. the star/delta start allows inrush current to be limited to approximately ��% LRa with the closed transition option reducing the transient star to delta current. when the microprocessor initiates a start signal to run a compressor, it runs in star for 4 seconds and then transitions to delta.
Oil CoolingCompressor oil cooling shall be provided by refrigerant liquid, which will be injected into the rotor suction when the temperature setpoint is exceeded.
Evaporatorthe evaporator is a shell and tube design with refrigerant on the tube side and water on the shell side. tubes are formed in a "u" shape and held in a tube bundle, which is free to expand independent of the shell. an independent circuit shall be provided for each compressor.
the waterside (shell) design working pressure of the evaporator is 10 barg. the refrigerant side (tubes) design working pressure is 20 barg on models 0�50 to 0750 and 24 barg on models 0860 to 1120.
The evaporator shall have water pass baffles fabricated from non metallic composite materials (0�50 to 0750) and corrosion resistant galvanised steel (0860 to 1120), removable head for access to internally enhanced, seamless, copper tubes. water vent and drain connections shall also be included.
models 0�50 to 0750 have vertical water nozzles (standard) with victaulic couplings (shipped loose) for field installation by contractor. Horizontal water nozzles with victaulic couplings (shipped loose) are available as an option.
models 0860 to 1120 have horizontal water nozzles with victaulic grooves (victaulic couplings to be supplied by others).
Optional ISO EN1092-1 Type 0.1.A welded flanges and companion flanges, complete with nuts, bolts and gaskets are available on all models.
CondenserFor sa and Ha units separate circuit condensers shall be cleanable shell & tube type with a built in sub-cooler and re-moveable water heads. the design working pressure on the water side shall be 10 barg and �0 bar on the refrigerant side which is protected by pressure relief valve(s). For aa units water cooled condensers shall be factory removed. Remote air-cooled condenser to be supplied by others.
PC155-100 Rev.6 (0510)
6 GB
Refrigerant Circuitsan independent refrigerant circuit shall be provided per compressor. Liquid line components shall include: manual shut-off valve with charging port, high absorption removable core filter-drier, solenoid valve, sight glass with moisture indicator, and thermostatic expansion valve. suction lines components shall include a pressure relief valve and a service valve (optional) and shall be covered with closed-cell insulation. discharge line components shall include a manual shut-off valve, pressure relief valve, temperature sensor and high-pressure cut-out sensors.
Power and Control Panelsall controls and motor starting equipment necessary for unit all controls and motor starting equipment necessary for unit operation shall be factory wired and function tested.
the panel enclosure shall be designed to iP42 (rain/dust tight) and be manufactured from powder painted galvanised steel. Component mounting panels are of non-painted galvanised steel to ensure optimum protective circuit (earthing).
the Power and Control Panel shall be divided into a power section for each electrical system, a control section and a common input section. Power entry is from the top of the control panel common input section. all sections shall have a separate hinged, latched, and gasket sealed door.
Each power compartment shall contain:Compressor fuses, compressor and phase sequence failure, phase rotation and star/delta time delay relays to give overload and short circuit protection.
The control section shall contain:on/off switch, microcomputer keypad and display, microprocessor board, i/o expansion board, relay boards and power supply board.
Models with Standard Single Point Power Supply ConnectionThe common input section contains:an incoming non-fused disconnect switch for connection of the customer provided single power supply. internal factory wiring to two fused protected power sections. the control supply is derived internally from the incoming power supply.
the common input section also contains the control circuit switch disconnect/emergency stop device, a transformer (to provide the necessary 24V and 12V supplies for the power supply board, and i/o board), control fuses, residual current circuit breaker, and terminals for a remote emergency stop device.
Microprocessor Controlsthe microprocessor shall have the following functions and displays:• a liquid crystal 40 character display with text provided
on two lines and light emitting diode backlighting for outdoor viewing.
• a colour coded, �5 button, sealed keypad with sections for display, entry, setpoints, Clock, Print, Program and unit on/off switch.
the standard controls shall include: automatic pump down at shutdown, run signal contacts, demand load limit from external building automation system input, remote reset liquid temperature reset input, unit alarm contacts, chilled liquid pump control, automatic reset after power failure, automatic system optimisation to match operating conditions, software stored in non-volatile memory (ePRom) to eliminate chiller failure due to aC power failure.
the microprocessor can be directly connected to a YoRK isn Building automation system via the standard on-board Rs485 communication port. this option also provides open system compatibility with other communications networks.
Programmed setpoints shall be retained in a lithium battery backed RtC memory for a minimum of 5 years.
DISPLAY – in metric (°C and barg) or english (°F and psig) units. For each circuit, the following items shall be displayed:• entering and leaving chilled liquid temperature.• day, date and time. daily start/stop times. Holiday
and manual override status.• Compressor operating hours and starts. automatic or
manual lead/lag. Lead compressor identification.• Run permissive status. no cooling load condition.
Compressor run status.• anti-recycle timer and anti-coincident start timer status
per compressor.• system suction (and suction superheat), discharge,
and oil pressures and temperatures.• Percent full load compressor motor current.
Compressor capacity control valve input steps.• Cut-out status and set-points for: entering chilled liquid
temperature., low suction pressure, high discharge pressure and temperature, high oil temperature, high and low current, and low leaving liquid temperature.
• unloading limit setpoints for high discharge pressure and compressor motor current.
• Liquid pull-down rate sensitivity (0.�°C to �°C/minute in 0.05°C increments).
• status of load and unload timers, chilled liquid pump.
• “out of range” message.• up to 6 fault shut down conditions.
PC155-100 Rev.6 (0510)
7GB
ENTRY – enter set point changes, cancel inputs, advance day, and change am/Pm.
SET POINTS – Chilled liquid temperature, chilled liquid range, remote reset temperature range.
CLOCK – time, daily or holiday start/stop schedule, manual override for servicing.
PRINT – operating data or system fault shutdown history for last six faults, printouts via a separate printer (by others).
PROGRAM – Low leaving liquid temperature cutout, �00 to 600 second anti-recycle timer, lag compressor start time delay, average motor current unload point, liquid temperature set-point reset signal from YoRK isn or building automation system (by others) via:
• Pulse width modulated (Pwm) input for up to 22°C total reset as standard.
• optional Building automation system interface input card for up to 11°C reset using a 4 to 20 ma, 0 to 10 Vdc input, or discrete reset input.
• [NOTE: the standard microprocessor can be directly connected to a YoRK isn Building automation system via the standard on-board Rs485 communication port. this option also provides open system compatibility with other communications networks (BaCnet™, modBus™ & LonmaRK™) via interface through standard onboard 485 or 2�2 port and an external Yorktalk translator.]
• additional functions (password protected) for programming by a qualified service technician:
• Cut-outs for low suction pressure, high discharge pressure, high oil temperature.
• High discharge pressure unload setpoint.• Compressor motor current percent limit.
Motor Protectionthe microprocessor motor protection provides high current protection to ensure that the motor is not damaged due to voltage, excess refrigerant or other problems that could cause excessive motor current.
the microprocessor also provides low motor current protection when it senses a motor current of less than 10% FLa.
a motor protector module provides thermal and current motor overload protection. the module also protects against phase to phase current imbalance, over current, under current and phase rotation.
Accessories and Options
ELECTRICAL OPTIONSPower Supply Connectionunits are available with either single point or multi point power supply connections:
Single Point - System Fused Disconnect Switchesa non-fused disconnect switch in the common input section of the panel for connection of the customer provided single power supply. internal factory wiring to two door interlocked fused disconnect switches mounted in the power sections. the control supply is derived internally from the terminal block.
Single Point - System Circuit Breakersa terminal block in the common input section of the panel for connection of the customer provided single power supply. internal factory wiring to two door interlocked circuit breakers, mounted in the power sections. the control supply is derived internally from the terminal block.
Multi-Point - System Circuit Breakerstwo door interlocked circuit breakers, mounted in the power sections, for connection of the customer provided power supplies. a non-fused disconnect switch / emergency stop device (QCsd/esd) in the common input section with termination for the customer (400 V, 2Ø, 50 Hz ) control supply.
Building Automation System (BAS) / EMS InterfaceProvides a means to reset the leaving chilled liquid temperature and from the Bas / ems (Factory mounted):
Printed circuit board to accept 4 to 20 ma, 0 to 10 Vdc, or dry contact closure input from the Bas / ems.
Note: a YoRK isn Building automation system can provide a Pulse width modulated (Pwm) signal direct to the standard control panel via the standard on-board Rs485 port.
E-Link Gatewayinterface to enable communication with building control systems using BaCnet, modBus, Lon or n2 protocols. see separate York documentation.
ACCESSORIESAnti-Vibration MountsOptional 25mm deflection, open spring, anti-vibration mounts with levelling screw. Supplied loose for field installation.
Optional floor mounting kit with 25 mm neoprene pads. Supplied loose for field installation.
PC155-100 Rev.6 (0510)
8 GB
Power Factor Correction:Factory mounted passive (static) correction capacitors to correct unit compressor power factors to 0.95 (depending on operating conditions).
Flow Switchswitch with 1 inch BsP thread suitable for 10 barg dwP and having gold contacts for low voltage/current, to protect unit from loss of water flow. Supplied loose for field installation,orFactory fitted pressure differential switch on cooler.
Suction Shut-off Valvesa ball valve in the low pressure (suction) pipework per refrigerant circuit for isolation.
Evaporator Kitsmodels 0�50 to 0725, horizontal water nozzles with victaulic couplings (shipped loose), vertical nozzle cooler with EN1092-1 Type 01.A welded/companion flange kit, or horizontal nozzle cooler with en1092-1 type 01.a welded/companion flange kit. Models 0840 to 1110, ISO EN1092-1 Type 01.A welded/companion flange kit for standard horizontal nozzle cooler (Note: vertical nozzle coolers are not available).
Low temperature Evaporator KitsLow temperature evaporator configurations are identical to the standard or options detailed above.
Pressure Relief Valves Options • Pressure Relief (Ce/Ped) serviceable Valve & dual
Kit. High & Low side vessels’ dual relief valves fitted with
� way changeover valves and compressors’ single relief valves fitted with ball valves, to assist valve replacement during maintenance without loss of refrigerant charge.
• Pressure Relief (Ce/Ped) serviceable Valve & dual Kit & Burst.
High & Low side vessels’ dual relief valves fitted with bursting disks and � way changeover valves and compressors’ single relief valves fitted with bursting disks and ball valves, to assist valve replacement during maintenance without loss of refrigerant charge.
Dual Pressure Switchdual HP pressure cut-outs on both circuits.
Heat Pump Sensor Kit:Capability of controlling condenser water off for heat pump applications.
Closed Transition Star/Deltawith the addition of closed transition contactors and resistors, the change over spike during starting can be reduced to nearer the star inrush level thus reducing the risk of electrical interference during compressor start.
Mechanical Gauge KitFactory fitted mechanical gauges for display of suction and discharge pressures, one complete set per system.
Double Thickness InsulationThe cooler is covered with 38 mm (1 ½ inch) flexible, UV-stable colour co-ordinated closed-cell, foam insulation to prevent sweating in humid environment.
Condenser extension / Manifold kitsCondenser extension kit simplifies connections to customer pipework. Both options come with either Victaulic coupling or welded Flange/companion flange kit.
IP54Panel enclosure designed to iP54.
Language LCD and Keypadstandard display language and keypad is english. French, German, italian, spanish, Portugese and Hungarian are available as options.
Sequence Controller:monitors mixed leaving chilled water or glycol temperature from two to four units and controls to maintain required mixed temperature whilst running the minimum number of units.
PrinterHand held printer for obtaining printout of unit operating data and history data.
Paint OversprayComplete unit finish in Carribean Blue.
Lifting Lug Kitone set of iso mk5 cam locks to enable safe and easy unit handling.
Factory Witness Test:to perform a customer functional witness test of cooling capacity only, test is carried out in factory test area.
PC155-100 Rev.6 (0510)
9GB
Operating Limitations
YLCS Models SA - HA - AA 0350 0415 0480 0530min. max. min. max. min. max. min. max.
Chilled Liquid
Liquid outlet temperature (water) °C 4.5 to 15Liquid outlet temperature (glycol) (�) °C -12 to 15Liquid outlet temperature range °C �.� to 8Flow rate l/s 9.2 20.2 9.2 20.2 16.0 �5.� 16.0 �5.�Pressure drop kPa 14.6 66.� 12.7 57.� 15.1 67.0 15.1 67.0maximum working pressure barg 10
Cooling Liquid
Liquid outlet temperature °C �0 to 40 (sa) / 60 (Ha)Liquid outlet temperature range °C �.� to 8Total flow rate (2) l/s 10.0 2�.8 1�.6 ��.9 1�.6 ��.9 16.1 40.6Pressure drop kPa 11.8 60.0 12.5 70.0 12.5 70.0 12.0 69.0maximum working pressure barg 10
Refrigerant system High pressure side barg 18 (sa) / 22 (Ha/aa)Power supply voltage 400 V, � Ø, 50 Hz (nominal) V �60 to 440Recommended system water volume(1) l 1400 1700 1900 2000air temperature surrounding unit °C +4 to 46
YLCS Models SA - HA - AA 0575 0620 0670 0750min. max. min. max. min. max. min. max.
Chilled Liquid
Liquid outlet temperature (water) °C 4.5 to 15Liquid outlet temperature (glycol) (�) °C -12 to 15Liquid outlet temperature range °C �.� to 8Flow rate l/s 16.0 �5.� 16.0 �5.� 19.8 4�.6 19.8 4�.6Pressure drop kPa 17.6 77.0 17.6 77.0 14.7 65.0 16.6 7�.0maximum working pressure barg 10
Cooling Liquid
Liquid outlet temperature °C �0 to 40 (sa) / 60 (Ha)Liquid outlet temperature range °C �.� to 8Total flow rate (2) l/s 16.1 40.6 19.� 48.� 19.� 48.� 25.5 6�.�Pressure drop kPa 12.0 69.0 12.4 70.0 12.4 70.0 12.� 69.0maximum working pressure barg 10
Refrigerant system High pressure side barg 18 (sa) / 22 (Ha/aa)Power supply voltage 400 V, � Ø, 50 Hz (nominal) V �60 to 440Recommended system water volume(1) l 2200 2400 2600 2900air temperature surrounding unit °C +4 to 46
YLCS Models SA - HA - AA0860 0980 1120
min. max. min. max. min. max.
Chilled Liquid
Liquid outlet temperature (water) °C 4.5 to 15Liquid outlet temperature (glycol) (�) °C -12 to 15Liquid outlet temperature range °C �.� to 8Flow rate l/s 21.� 51.0 21.� 51.0 25.0 60.0Pressure drop kPa 20.1 97.4 20.1 97.4 21.6 99.4maximum working pressure barg 10
Cooling Liquid
Liquid outlet temperature °C �0 to 40 (sa) / 60 (Ha)Liquid outlet temperature range °C �.� to 8Total flow rate (2) l/s 25.5 6�.� 25.5 6�.� 25.5 6�.�Pressure drop kPa 12.� 69.0 16.4 92.0 16.4 92.0maximum working pressure barg 10
Refrigerant system High pressure side barg 18 (sa) / 22 (Ha/aa)Power supply voltage 400 V, � Ø, 50 Hz (nominal) V �60 to 440Recommended system water volume(1) l �400 �800 4400air temperature surrounding unit °C +4 to 46
(1) table shows minimum water volume of system(2) shared equally between condensers(�) Glycol operation only available for Ha/aa models
PC155-100 Rev.6 (0510)
10 GB
Liquid InjectionOption
SV
Start Bypass Option
CompressorPRV (2)
COMPRESSOR
DischargePRV (1) (2)
Not fitted toYLCS AA models
CONDENSER
EVAPORATOR
LLV
EvaporatorPRV (2)
Condenser PRV (2)
S TSVTEV
s
PT
Liquid InjectionOption
SV
Start Bypass Option
COMPRESSOR
Not fitted toYLCS AA models
CONDENSER
EVAPORATOR
ECONOMISERLLV
S
S
TEV
TSVTEV
s
PT
CompressorPRV (2)
DischargePRV (1) (2)
EvaporatorPRV (2)
Condenser PRV (2)
Refrigeration Flow Diagram (YLCS 0350 to 0620 Models)
Refrigeration Flow Diagram (YLCS 0670 to 1120 Models)
notes:1 - see discharge Pressure Relief Valve table2 - see Pressure Relief Valve options table
notes:1 - see discharge Pressure Relief Valve table2 - see Pressure Relief Valve options table
PC155-100 Rev.6 (0510)
11GB
YLCS SA & HALow pressure liquid refrigerant enters the cooler tubes and is evaporated and superheated by the heat energy absorbed from the chilled liquid passing through the cooler shell. Low pressure vapour enters the compressor where pressure and superheat are increased. High pressure vapour is passed through the oil separator in the compressor where compressor oil is removed and reticulated to the compressor. High pressure superheated refrigerant enters the condenser shell where heat is rejected to the condenser water passing through the tubes. the fully condensed and subcooled liquid leaves the condenser and enters the expansion valve, where pressure reduction and further cooling takes place. the low pressure liquid refrigerant then returns to the cooler.
YLCS AA (remote air cooled condenser)Low pressure liquid refrigerant enters the cooler tubes and is evaporated and superheated by the heat energy absorbed from the chilled liquid passing through the cooler shell. Low pressure vapour enters the compressor where pressure and superheat are increased. High pressure vapour is passed through the oil separator in the compressor where compressor oil is removed and reticulated to the compressor. the high pressure superheat refrigerant enters the remote air cooled condenser where heat is rejected via the condenser coil & fans the fully condensed and subcooled liquid leaves the condenser and enters the expansion valve, where pressure reduction and further cooling takes place. the low pressure liquid refrigerant then returns to the cooler.
Discharge Pressure Relief Valves
Model SA HA & AAsystem 1 system 2 system 1 system 2
0350 no Valve no Valve no Valve no Valve0415 Valve no Valve no Valve no Valve0480 Valve Valve no Valve no Valve0530 Valve Valve no Valve no Valve0575 Valve Valve no Valve no Valve0620 Valve Valve no Valve no Valve0670 Valve Valve no Valve no Valve0750 Valve Valve no Valve no Valve0860 Valve Valve no Valve no Valve0980 Valve Valve Valve no Valve1120 Valve Valve Valve Valve
Pressure Relief Valve Options
Pressure Relief (CE/PED) Serviceable ValveKit Kit and Burst
Vess
els
Com
pres
sors
& D
isch
arge
valve sealed openvalve sealed open
PC155-100 Rev.6 (0510)
12 GB
Selection Guide - Water
Data Requiredto select a YoRK YLCs chiller the following information is required:
1. design cooling capacity.2. Chilled water entering and leaving temperatures.�. Condenser water entering and leaving temperature.4. Chilled water flow (l/s) if one of the temperatures in
(2) is unknown.5. Condenser water flow (l/s) if one of the temperatures
in (�) is unknown.
Determine the capacity or water flow from:
Cooling Capacity (kw) = Range (°C) x chilled water (l/s) x 4.18
Determine the heat rejection or water flow from:
Heat Rejection (kw) = Range (°C) x condenser water (l/s) x 4.18
NOTE: if condenser coolant is glycol solution allow 2K increase in condensing temperature to estimate the cooling capacity & power impact on your selection.
Chiller Selection Method1. determine the correct size of chiller by selecting
the model which most closely matches the required capacity at the design conditions of leaving water temperature and condenser leaving water temperature.
2. apply correction factors for fouling factor to the capacity and power values from the capacity tables. Ensure the corrected capacity is still sufficient for requirements.
�. using the corrected capacity of the selected chiller adjust the design temperature range, or flow rate, to balance the formulae shown above.
4. Physical and electrical data can now be determined from the tables.
5. always re-check that selections fall within the operating limitations.
YLCS Sample Selection1. Confirm the system requirements Cooling Capacity: 400 kw Chilled water inlet temperature: 12 °C Chilled water outlet temperature: 7 °C Condenser water inlet temperature: �0 °C Condenser water outlet temperature: �5 °C evaporator and Condenser Fouling Factors: 0
2. Select Model and Read the Performance From the capacity table, model YLCs0415sa can be
selected with the following performance. Cooling Capacity: 411 kw Compressor input Power: 96 kw Heat Rejection 502 kw.
3. Determine the Flow RateCooling Capacity(kw) = Range(°C) x chilled water(l/s) x 4.18
=411
= 19.67 l/s5 x 4.18
Heat Rejection(kw) = Range(°C) x condenser water(l/s) x 4.18
=502
= 24.02 l/s*5 x 4.18
* Total unit flow rate.
4. Correct the DataFouling Factorthe cooling capacity and the compressor input should be corrected using the factors given below, if applicable. Recalculate flow rates as required.
Flow Ratewhen the water inlet/outlet temperature difference is not 5°C, correct the flow rate by the following formula:
Corrected Flow Rate =5 (°C) x Flow Rate
temp. difference(°C)
The corrected Flow Rate must be confirmed to be within the working range.
5. Determine the Pressure DropsCalculate the pressure drops using the graphs.
Evaporator pressure drop at a flow rate of 19.67 l/s would be 54 kPa.
Condenser pressure drop at a flow rate of 24.02 l/s would be �7 kPa.
6. Check the Data is within Limitsthe data is within the unit operating limitations.
PC155-100 Rev.6 (0510)
1�GB
0670
0575
- 06
20
0480
- 05
30
1120
0860
- 09
80
0350
0415 07
50
8 1010
20
30
40
50
60708090
100
20 30 40 50 60 70
Pre
ssur
e d
rop
[kP
a]
Flow Rate [l/s]
Cooler Pressure Drop (figure 3) Condenser Pressure Drop (figure 4)
0350
0620
- 06
70
0980
- 11
20
0750
- 08
60
0530
- 05
75
0415
- 04
80
8 1010
20
30
40
50
60708090
100
20 30 40 50 60 70P
ress
ure
dro
p [k
Pa]
Flow Rate [l/s]
Pressure Drop Calculations (Table 3)Pressure drop calculated as following:
Δp = a . qv ^ b
with Δp : pressure drop [kPa] qv : flow rate [l/s] a, b: factors (see table here below)
Model Evaporator Pressure Drop Calculation Condenser Pressure Drop CalculationFactor a Factor b Factor a Factor b
0350 0.2072 1.9192 0.158� 1.87250415 0.18�5 1.9109 0.090� 1.88860480 0.0796 1.8898 0.090� 1.88860530 0.0796 1.8898 0.0619 1.89480575 0.0975 1.8719 0.0619 1.89480620 0.0975 1.8719 0.0461 1.88890670 0.0527 1.8854 0.0461 1.88890750 0.0608 1.8784 0.0265 1.89560860 0.081� 1.8027 0.0265 1.89560980 0.081� 1.8027 0.0�54 1.89561120 0.0789 1.74�6 0.0�54 1.8956
Fouling Factors (table 4)
COOLER CONDENSERFouling Factor
m² °C/kW Capacity Factor Comp. Input Factor
Fouling Factor m² °C/kW Capacity Factor Comp. Input
Factor0.044 1.000 1.000 0.044 1.000 1.0000.088 0.987 0.995 0.088 0.987 1.02�0.176 0.964 0.985 0.176 0.955 1.0680.�52 0.915 0.962 0.�08 0.910 1.1�5
PC155-100 Rev.6 (0510)
14 GB
Selection Guide - Glycol (HA Models Only)
2. Select Model and Read the Performance From the capacity table, model YLCs0980Ha can be
selected with the following performance.
Cooling Capacity: 646 kw Compressor input Power 182 kw Heat Rejection 819 kw.
other design conditions applying are:
Fouling factor 0.44 °C/kw Glycol concentration �0%
For a -5°C ethylene glycol leaving temperature the recommended concentration from table 6 is �0%.
From the design glycol concentration (�0%) no corrections of capacity and power are requires (table 7).
For the glycol concentration specified and a leaving liquid temperature of -5°C the glycol factor is 0.258� (table 5).
3. Determine the Flow Rate
Cooling capacity kw =l/s chilled liquid x °C range
Glycol Factor
Chilled liquid Flow rate =646 x 0.258�
= ��.�7 l/s5
Heat Rejection (kw) =l/s condenser water x °C range
Glycol Factor
Condenser water flow rate =819 x 0.258�
= 42.�1 l/s*5
* Total unit flow rate.
5. Determine the Pressure DropsCalculate the pressure drops using the graphs.
Evaporator pressure drop at a flow rate of 33.37 l/s would be 45.� kPa x 1.09 (table 8, pressure drop correction factor for �0% concentration) = 49.40 kPa
Condenser pressure drop at a flow rate of 42.31 l/s would be 42.8 kPa x 1.09 (table 8, pressure drop correction factor for �0% concentration) = 46.72 kPa
6. Check the Data is within Limitsthe data is within the unit operating limitations.
Data Requiredto select a YoRK YLCs-Ha chiller the following information is required:1. design cooling capacity.2. Chilled glycol entering and leaving temperatures.�. Condenser water entering and leaving temperature.4. Chilled glycol flow (l/s) if one of the temperatures in
(2) is unknown.5. Condenser water flow (l/s) if one of the temperatures
in (�) is unknown.
Determine the capacity or water flow from:
Cooling capacity kw =l/s chilled liquid x °C range
Glycol Factor
Determine the heat rejection or water flow from:
Heat Rejection (kw) =l/s condenser water x °C range
Glycol Factor
NOTE: if condenser coolant is glycol solution allow 2K increase in condensing temperature to estimate the cooling capacity & power impact on your selection.
Chiller Selection Method1. determine the correct size of chiller by selecting
the model which most closely matches the required capacity at the design conditions of leaving liquid temperature and condenser leaving water temperature.
2. apply correction factors for fouling factor to the capacity and power values from the capacity tables. Ensure the corrected capacity is still sufficient for requirements.
�. using the corrected capacity of the selected chiller adjust the design temperature range, or flow rate, to balance the formulae shown above.
4. Physical and electrical data can now be determined from the tables.
5. always re-check that selections fall within the operating limitations.
YLCS-HA Sample Selection - Glycol Cooling1. Confirm the system requirements Cooling Capacity: 640 kw Chilled water inlet temperature: 0 °C Chilled water outlet temperature: -5 °C Condenser water inlet temperature: �0 °C Condenser water outlet temperature: �5 °C evaporator and Condenser Fouling Factors: 0
PC155-100 Rev.6 (0510)
15GB
Glycol Factors (Table 5)LC
LT °C
% by Weight
10 20 �0 40 50
Ethylene Glycol Factor
10 0.2404 0.2515 0.2577 0.27�4 0.2876
5 0.2�99 0.2510 0.2579 0.275� 0.2906
0 0.2�97 0.2505 0.2581 0.2772 0.2916
-5 0.2�94 0.2501 0.258� 0.2791 0.29�6
-10 0.2586 0.2800 0.2977
LCLT
°C
% by Weight
10 20 �0 40 50
Propylene Glycol Factor
10 0.2402 0.2444 0.248 0.2578 0.268�
5 0.2�94 0.24�5 0.2476 0.258 0.269�
0 0.2�86 0.2426 0.2466 0.2572 0.27
-5 0.2414 0.2458 0.2574 0.27
-10 0.2447 0.257 0.2708
Recommended Concentrations (Table 6)
Leaving Liquid Temperature °C
Ethylene Glycol Concentration %
Weight
Propylene Glycol
Concentration % Weight
5 6.0 5.5
4 10.0 10.0
3 1�.0 1�.5
2 16.0 17.0
1 18.0 19.0
0 20.0 21.5
-1 22.0 2�.5
-2 24.0 26.0
-3 26.0 28.0
-4 28.5 �0.5
-5 �0.0 �2.0
-6 �1.5 ��.5
-7 ��.0 �5.0
-8 �4.5 �6.0
-9 �5.5 �7.0
-10 �7.0 �8.5
-11 �8.0 �9.5
-12 �9.0 40.5
Glycol Concentrations Factors (Table 7)
% byWeight
Ethylene Glycol Propylene Glycol
CapacityFactor
PowerFactor
CapacityFactor
PowerFactor
10 1.045 1.020 1.070 1.025
20 1.020 1.010 1.040 1.015
30 1.000 1.000 1.000 1.000
40 0.970 0.990 0.950 0.985
Pressure Drop Corrections (Table 8)
% by Weight
Pressure Drop Correction Factors
Ethylene Glycol Propylene Glycol
10 1.0� 1.05
20 1.06 1.11
30 1.09 1.20
40 1.1� 1.29
PC155-100 Rev.6 (0510)
16 GB
YLCS LCLT °C
Condenser Leaving Water Temperature °C�0 �5 40
Cool Power HR Cool Power HR Cool Power HRkw kw kw kw kw kw kw kw kw
0980SA
4.5 912 174 1077 897 191 1078 872 205 10675 925 17� 1090 911 191 1092 885 207 10826 952 171 1115 937 192 1120 913 210 11137 977 172 1140 966 192 1148 94� 21� 11468 1004 173 1168 992 192 1175 971 215 11769 1029 174 1194 1019 190 1200 999 217 1206
10 1055 175 1221 1046 188 1224 1028 218 123511 1084 176 1251 1072 189 1251 1056 218 126�12 1114 177 1283 1099 190 1279 1084 217 12901� 1145 178 1�15 1125 191 1�06 1112 215 1�1714 1176 180 1347 1152 192 1334 1138 213 134015 1206 181 1�78 118� 19� 1�67 1166 214 1�69
1120SA
4.5 1039 198 1227 1019 217 1225 989 235 12125 1054 197 1241 10�5 218 1242 1006 2�7 12�16 1084 195 1269 1067 219 1275 1039 241 12687 111� 195 1298 1099 220 1�08 107� 244 1�058 1143 196 1330 1131 219 1339 1105 247 13399 117� 198 1�61 1161 217 1�68 11�9 249 1�75
10 1204 199 1394 1194 215 1398 1171 250 140811 1240 201 14�1 1224 216 1429 1205 250 144212 1275 202 1466 1256 217 1462 1236 249 14731� 1�09 20� 1502 1284 218 1491 1268 247 150�14 1345 205 1539 1317 220 1525 1300 244 153215 1�79 206 1574 1�52 221 1562 1��2 246 1565
LCLt = Leaving Chilled Liquid temperature HR = Heat RejectionShared data is Eurovent Certified
YLCS LCLT °C
Condenser Leaving Water Temperature °C�0 �5 40
Cool Power HR Cool Power HR Cool Power HRkw kw kw kw kw kw kw kw kw
0350SA
4.5 333 72 402 313 80 389 298 87 3805 ��7 72 405 �19 80 �95 �02 88 �856 344 73 413 330 80 407 312 89 3977 �52 7� 422 �42 81 419 �22 89 4078 366 74 436 354 81 431 335 90 4209 �79 74 450 �66 82 44� �46 90 4�2
10 387 75 458 374 82 452 353 90 43911 402 77 476 �90 82 468 �69 91 45612 415 79 490 402 83 481 382 92 4691� 425 79 501 411 85 492 �90 92 47714 446 80 522 427 86 508 408 93 49615 462 81 5�9 4�8 89 522 420 9� 509
0415SA
4.5 400 85 480 377 95 467 357 103 4555 405 85 486 �84 95 474 �62 104 4616 416 86 498 397 95 488 375 105 4757 428 87 510 411 96 502 �88 106 4898 443 87 526 425 96 517 402 107 5049 459 88 54� 440 97 5�2 417 107 518
10 468 89 553 450 97 542 426 107 52811 486 92 57� 469 98 562 445 108 54812 499 94 588 484 98 578 460 109 5631� 511 94 600 49� 100 589 470 109 57414 533 95 624 512 102 609 491 110 59615 550 96 642 526 105 625 507 111 612
0480SA
4.5 466 98 559 441 109 545 416 121 5315 474 98 567 448 110 55� 422 122 5�86 488 99 583 464 110 569 438 122 5547 50� 100 598 480 111 585 454 12� 5708 521 101 617 497 112 603 470 123 5889 5�8 102 6�5 51� 112 620 487 124 605
10 549 103 647 525 113 632 499 124 61711 569 106 670 548 11� 655 522 125 64112 583 109 687 566 114 674 538 126 6581� 596 109 700 576 116 686 551 126 67114 620 110 725 597 119 710 575 127 69615 6�9 111 744 614 121 729 594 128 715
Cooling Capacities (0350SA - 1120SA)
YLCS LCLT °C
Condenser Leaving Water Temperature °C�0 �5 40
Cool Power HR Cool Power HR Cool Power HRkw kw kw kw kw kw kw kw kw
0530SA
4.5 500 106 601 474 118 586 447 130 5715 509 107 610 48� 119 595 454 1�2 5796 526 108 629 500 119 614 472 132 5977 544 109 647 518 120 6�2 490 1�� 6168 563 109 667 536 121 651 508 133 6349 581 110 685 554 122 670 525 1�4 65�
10 592 112 698 567 122 683 538 134 66511 61� 115 72� 592 12� 708 56� 1�6 69112 630 117 741 611 124 728 581 136 7101� 64� 118 755 622 125 741 594 1�7 72514 669 119 782 645 129 767 620 138 75115 689 120 80� 662 1�2 787 640 1�9 772
0575SA
4.5 534 115 643 507 127 628 478 140 6115 544 116 654 517 127 6�8 485 142 6196 564 116 675 537 128 659 506 142 6417 585 117 696 556 129 679 526 14� 6628 605 118 717 576 130 700 545 143 6819 62� 119 7�6 595 1�1 720 56� 144 700
10 636 120 750 609 131 733 577 144 71411 658 124 776 6�6 1�2 761 604 146 74212 676 126 796 656 133 783 623 147 7631� 690 127 811 668 1�5 797 6�8 148 77814 718 128 840 692 139 824 664 149 80615 740 129 862 711 142 846 686 150 828
0620SA
4.5 580 125 699 550 138 681 522 152 6665 591 125 710 561 1�8 692 529 15� 6756 613 125 732 582 139 715 551 154 6977 6�6 124 754 605 140 7�7 572 155 7198 653 126 773 626 141 759 592 155 7399 677 128 798 647 142 782 612 156 760
10 689 130 813 661 142 796 626 156 77511 71� 1�4 841 690 14� 826 655 158 80512 732 137 862 712 144 849 676 159 8271� 751 1�8 882 726 146 864 691 160 84�14 787 139 919 751 151 894 720 161 87315 816 140 949 771 15� 917 744 162 897
YLCS LCLT °C
Condenser Leaving Water Temperature °C�0 �5 40
Cool Power HR Cool Power HR Cool Power HRkw kw kw kw kw kw kw kw kw
0670SA
4.5 609 121 724 598 133 725 581 144 7185 618 120 7�� 607 1�4 7�4 591 145 7296 636 119 749 625 134 753 610 147 7507 65� 119 767 645 1�4 772 628 149 7698 670 120 784 662 134 790 647 151 7919 687 121 802 680 1�� 807 666 152 811
10 705 122 820 698 131 823 685 153 83011 725 122 841 716 1�2 841 704 15� 84912 746 123 863 734 133 860 723 152 8681� 768 124 886 75� 1�� 880 744 151 88714 789 125 908 773 134 901 764 150 90615 811 126 9�1 795 1�5 92� 785 150 928
0750SA
4.5 702 140 836 690 154 836 670 167 8295 71� 1�9 845 700 155 847 681 168 8416 734 138 865 721 155 869 703 171 8657 75� 1�8 885 74� 156 891 724 17� 8888 773 139 905 764 155 911 747 175 9139 792 140 925 785 154 9�1 768 176 9�6
10 813 141 947 805 152 949 790 177 95811 8�6 142 970 825 15� 970 812 177 98012 860 143 996 846 153 992 834 176 10021� 885 144 1022 868 154 1015 857 175 102414 910 145 1048 892 155 1039 882 173 104615 9�5 146 1074 916 156 1065 905 174 1071
0860SA
4.5 803 155 949 789 170 951 764 184 9395 814 154 960 801 171 96� 777 186 95�6 838 152 982 824 172 987 802 189 9827 859 152 1004 849 172 1012 828 192 10108 883 153 1028 873 172 1037 853 194 10379 906 154 105� 897 170 1059 879 196 1064
10 930 155 1078 921 168 1081 905 196 109211 958 157 1106 946 169 1107 929 197 111612 984 158 1134 969 170 1131 956 196 11421� 1012 159 116� 992 171 1155 980 195 116514 1038 160 1190 1018 173 1182 1005 192 118715 1066 161 1219 1045 174 1210 1029 194 121�
PC155-100 Rev.6 (0510)
17GB
YLC
SLC
LT
°C
Con
dens
er L
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ng W
ater
Tem
pera
ture
°C
�0�5
4045
5055
60
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0350
HA
4.5
333
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tem
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eat R
ejec
tion
Cooling Capacities (0350HA - 0480HA)
PC155-100 Rev.6 (0510)
18 GB
YLC
SLC
LT
°C
Con
dens
er L
eavi
ng W
ater
Tem
pera
ture
°C
�0�5
4045
5055
60
Coo
lP
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HR
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HR
Coo
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HR
Coo
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HR
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ower
HR
Coo
lP
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HR
kwkw
kwkw
kwkw
kwkw
kwkw
kwkw
kwkw
kwkw
kwkw
kwkw
kw
0530
HA
4.5
500
106
601
474
118
586
447
130
571
419
145
557
389
166
547
360
186
536
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Glycol Cooling Capacities (0350HA - 0480HA)
PC155-100 Rev.6 (0510)
22 GB
Glycol Cooling Capacities (0530HA - 0620HA)YL
CS
LCLT
°C
Con
dens
er L
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ng W
ater
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pera
ture
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R =
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t Rej
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ld a
lso
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sed
for 3
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lene
Gly
col a
fter r
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(For
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mpl
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g ca
paci
ty w
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ng P
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lene
Gly
col i
s eq
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lent
to -2
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CLt
usi
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thyl
ene
Gly
col).
PC155-100 Rev.6 (0510)
2�GB
Glycol Cooling Capacities (0670HA - 0860HA)YL
CS
LCLT
°C
Con
dens
er L
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ng W
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Tem
pera
ture
Deg
C�0
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PC155-100 Rev.6 (0510)
26 GB
Cooling Capacities (0530AA - 0620AA)YL
CS
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rate
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PC155-100 Rev.6 (0510)
�2 GB
Glycol Cooling Capacities (0980AA - 1120AA)YL
CS
LCLT
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Satu
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Tem
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C�5
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PC155-100 Rev.6 (0510)
��GB
Physical Data (SA / HA / AA)
Model 0350 0415 0480 0530 0575 0620Refrigerant circuits 2 2 2 2 2 2RefrigerantCharge
Circuit 1 kg �0 52 52 60 62 60Circuit 2 kg �0 52 52 60 62 60
oilCharge
Circuit 1 l 16 15 15 18 18 2�Circuit 2 l 16 16 15 15 18 18
Compressor number 2 2 2 2 2 2type (circuit 1) Yts Fad Yts Hae Yts Hae Yts iaF Yts iaF Yts JaGtype (circuit 2) Yts Fad Yts Fad Yts Hae Yts Hae Yts iaF Yts iaFCapacity Control % 15, 27, �9, 51, 6�, 75, 87, 100
evaporator number 1 1 1 1 1 1type ded�15 ded�50 ded5�5 ded5�5 ded585 ded585water volume l 129.5 11�.5 184 184 222 222Victaulic connection sizes in 5" 5" 6" 6" 6" 6"
Condenser number 2 2 2 2 2 2type Cdew240 Cdew�00 Cdew�00 Cdew�60 Cdew�60 Cdew450water volume (each) l 17 27.7 27.7 �1.2 �1.2 �5.7BsPPint / Victaulic connection sizes in 2.1/2" �" �" �" �" �"discharge Connection Line size (aa models) in 2.1/8" 2.5/8" 2.5/8" 2.5/8" 2.5/8" 2.5/8"Liquid Connection Line size (aa models) in 1.�/8" 1.�/8" 1.5/8" 1.5/8" 1.5/8" 1.5/8"
weight operating (sa-Ha) kg �420 �880 4170 4270 4�70 4540operating (aa) kg �090 �265 �555 �650 �750 �905shipping (sa-Ha) kg �100 �510 �800 �900 4000 4150shipping (aa) kg 2860 �105 ��95 �470 �570 �695Cooler only kg 417 570 650 650 7�0 7�0
dimensions Length mm �225 �244 �274 �274 �544 �600
width (1)Vertical nozzle evaporator mm 890 890 890 890 890 890Horizontal nozzle evaporator mm 967 967 1010 1010 1010 1010
Height mm 2100 2100 2100 2100 2100 2100
Model 0670 0750 0860 0980 1120Refrigerant circuits 2 2 2 2 2RefrigerantCharge
Circuit 1 kg 68 78 81 86 86Circuit 2 kg 68 78 81 86 86
oilCharge
Circuit 1 l 20 2� 2� 28 28Circuit 2 l 18 2� 2� 2� 28
Compressor number 2 2 2 2 2type (circuit 1) Yts iae Yts JaF Yts LaG Yts maH Yts maHtype (circuit 2) Yts iae Yts JaF Yts LaG Yts LaG Yts maHCapacity Control % 15, 27, �9, 51, 6�, 75, 87, 100
evaporator number 1 1 1 1 1type ded645 ded715 m200 m200 m240water volume l 252 295 4�0 4�0 501Victaulic connection sizes in 8" 8" 10" 10" 10"
Condenser number 2 2 2 2 2type Cdew450 Cdew550 Cdew550 Cdew550X Cdew550Xwater volume (each) l �5.7 47.5 47.5 6� 6�BsPPint / Victaulic connection sizes in �" 4" 4" 4" 4"discharge Connection Line size (aa models) in �.5/8" �.5/8" 4.1/8" 4.1/8" 4.1/8"Liquid Connection Line size (aa models) in 1.5/8" 1.5/8" 1.5/8" 1.5/8" 1.5/8"
weight operating (sa-Ha) kg 4510 5010 5620 6090 6610operating (aa) kg 4010 4�20 4940 5190 5710shipping (sa-Ha) kg 4180 4610 5090 55�0 5980shipping (aa) kg �620 �860 4�40 4580 50�0Cooler only kg 825 960 1200 1200 1420
dimensions Length mm �565 �645 �8�0 �8�0 �8�0width (1) Vertical nozzle evaporator mm 1290 1290 na na na
Horizontal nozzle evaporator mm 1290 1290 1290 1290 1290Height mm 216� 216� 2148 2148 2148
1) width includes control panel but does not include switch disconnect or circuit breaker handles
PC155-100 Rev.6 (0510)
�4 GB
Electrical Data - Unit (SA)
nominal Running maximum RunningamPs amPs
@ �80 V @ 400 V @�60 V @ �80 V @ 400 V
ModelYLCS SA
without Power Factor CorrectionWith Optional Power Factor Correction fitted
03501�6 1�0 162 154 1461�0 122 156 146 1�8
0415165 156 195 186 176156 146 187 176 166
0480194 182 228 218 206182 170 218 206 194
0530207 196 245 2�� 221197 186 2�7 224 212
0575220 210 262 248 2�6212 202 256 242 2�0
06202�9 228 285 270 2572�0 219 277 262 248
06702�2 220 274 260 247215 204 254 241 229
0750269 255 �17 �01 286249 2�6 294 278 265
0860297 282 �5� ��4 �18275 262 �27 �10 294
0980��2 �16 �90 �69 �51�08 292 �61 �42 �25
1120�79 �60 448 425 40��51 ��4 415 �9� �74
PC155-100 Rev.6 (0510)
�5GB
Electrical Data - System (SA)Compressor Running Conditions
nominal maximumPower
kwCurrent amps Power
kwCurrent amps
@ �80 V @ 400 V @�60 V @ �80 V @ 400 VModel
YLCS SASYSNo.
Comp'smotor
without Power Factor CorrectionWith Optional Power Factor Correction fitted
0350 1 & 2 Yts F-a-d 41 68 65 46.2 81 77 7�65 61 78 7� 69
04151 Yts H-a-e 56.5 97 91 6�.9 114 109 10�
91 85 109 10� 97
2 Yts F-a-d 41 68 65 46.2 81 77 7�65 61 78 7� 69
0480 1 & 2 Yts H-a-e 56.5 97 91 6�.9 114 109 10�91 85 109 10� 97
05301 Yts i-a-F 67.4 110 105 76.1 1�1 124 118
106 101 128 121 115
2 Yts H-a-e 56.5 97 91 6�.9 114 109 10�91 85 109 10� 97
0575 1 & 2 Yts i-a-F 67.4 110 105 76.1 1�1 124 118106 101 128 121 115
06201 Yts J-a-G 79.2 129 12� 89.6 154 146 1�9
124 118 149 141 1��
2 Yts i-a-F 67.4 110 105 76.1 1�1 124 118106 101 128 121 115
0670 1 & 2 Yts i-a-e (1) 67.2 116 110 75.2 1�7 1�0 12�107 102 127 120 114
0750 1 & 2 Yts J-a-F (1) 77.8 1�4 128 87.1 159 150 14�124 118 147 1�9 1�2
0860 1 & 2 Yts L-a-G (1) 86.1 149 141 96.8 176 167 1591�8 1�1 16� 155 147
09801 Yts m-a-H (1) 107.9 186 177 119.7 218 207 196
172 164 202 191 182
2 Yts L-a-G (1) 84.5 146 1�9 94.� 172 16� 1551�5 128 159 151 14�
1120 1 & 2 Yts m-a-H (1) 109.8 190 180 122.9 224 212 202176 167 208 197 187
Locked Rotor Conditionsstar for star/delta doL
ModelYLCS SA
SYSNo.
Comp’sModel
Current amps Current amps@ �80V @ 400V @ �80V @ 400V
350 1 & 2 Yts F-a-d 157 167 470 500
415 1 Yts H-a-e 175 187 525 5602 Yts F-a-d 157 167 470 500
480 1 & 2 Yts H-a-e 175 187 525 560
530 1 Yts i-a-F 215 228 645 6852 Yts H-a-e 175 187 525 560
575 1 & 2 Yts i-a-F 215 228 645 685
620 1 Yts J-a-G 2�� 248 700 7452 Yts i-a-F 215 228 645 685
0670 1 & 2 Yts i-a-e (1) 268 282 805 8450750 1 & 2 Yts J-a-F (1) 288 �0� 865 9100860 1 & 2 Yts L-a-G (1) �87 407 1160 1220
0980 1 Yts m-a-H (1) 467 492 1400 14752 Yts L-a-G (1) �87 407 1160 1220
1120 1 & 2 Yts m-a-H (1) 467 492 1400 1475
notes : nominal: maximum:
@ 7°C leaving liquid temperature and �5°C leaving condenser liquid temperature @ 15°C leaving liquid temperature and 40°C leaving condenser liquid temperature
(1) economised
PC155-100 Rev.6 (0510)
�6 GB
Electrical Data - Unit (HA/AA)nominal Running maximum Running
amPs amPs@ �80 V @ 400 V @�60 V @ �80 V @ 400 V
Model without Power Factor CorrectionYLCS SA With Optional Power Factor Correction fitted
0350174 164 252 2�4 222166 156 244 226 214
0415210 198 �07 285 269200 189 297 275 259
0480246 2�2 �62 ��6 �162�4 222 �50 �24 �04
053026� 249 �86 �59 ��925� 240 �76 �49 �29
0575280 266 410 �82 �62272 258 402 �74 �54
0620�05 290 444 416 �94296 280 4�4 405 �84
0670282 268 467 44� 421261 248 4�� 410 �90
0750�27 �10 541 512 487�0� 287 501 474 451
0860�62 �44 601 569 541��5 �19 557 527 501
0980402 �82 662 628 596�72 �5� 614 581 552
1120460 4�7 744 (1) 724 687426 405 708 670 6�7
notes: nominal: maximum:
@ 7°C leaving liquid temperature and 45°C leaving condenser liquid temperature @ 15°C leaving liquid temperature and 60°C leaving condenser liquid temperature
(1) electrical panel limitation
PC155-100 Rev.6 (0510)
�7GB
Electrical Data - System (HA/AA) Compressor Running Conditions
nominal maximumPower
kwCurrent amps Power
kwCurrent amps
@ �80 V @ 400 V @�60 V @ �80 V @ 400 VModel
YLCS SASYS Comp's without Power Factor CorrectionNo. motor With Optional Power Factor Correction fitted
0350 1 & 2 Yts F-a-d 52.1 87 82 69.8 126 117 1118� 78 122 11� 107
04151 Yts H-a-e 72.1 12� 116 96.5 181 168 158
117 111 175 162 152
2 Yts F-a-d 52.1 87 82 69.8 126 117 1118� 78 122 11� 107
0480 1 & 2 Yts H-a-e 72.1 12� 116 96.5 181 168 158117 111 175 162 152
05301 Yts i-a-F 85.5 140 1�� 115 205 191 181
1�6 129 201 187 177
2 Yts H-a-e 72.1 12� 116 96.5 181 168 158117 111 175 162 152
0575 1 & 2 Yts i-a-F 85.5 140 1�� 115 205 191 1811�6 129 201 187 177
06201 Yts J-a-G 101 165 157 1�5 2�9 225 21�
160 151 2�� 218 207
2 Yts i-a-F 85.5 140 1�� 115 205 191 1811�6 129 201 187 177
0670 1 & 2 Yts i-a-e (1) 82 141 1�4 128 2�4 221 2101�1 124 216 205 195
0750 1 & 2 Yts J-a-F (1) 95 16� 155 148 270 256 24�151 144 250 2�7 225
0860 1 & 2 Yts L-a-G (1) 105 181 172 165 �00 285 270168 159 278 264 250
09801 Yts m-a-H (1) 1�0 225 214 20� �71 �51 ��4
208 198 �4� �25 �09
2 Yts L-a-G (1) 102 177 168 160 292 276 26�164 156 270 256 24�
1120 1 & 2 Yts m-a-H (1) 1�� 2�0 219 210 �72 (2) �62 �4421� 20� �54 ��5 �18
Locked Rotor Conditionsstar for star/delta doL
ModelYLCS SA
SYSNo.
Comp'smodel
Current amps Current amps@ �80V @ 400V @ �80V @ 400V
0350 1 & 2 Yts F-a-d 157 167 470 500
0415 1 Yts H-a-e 175 187 525 5602 Yts F-a-d 157 167 470 500
0480 1 & 2 Yts H-a-e 175 187 525 560
0530 1 Yts i-a-F 215 228 645 6852 Yts H-a-e 175 187 525 560
0575 1 & 2 Yts i-a-F 215 228 645 685
0620 1 Yts J-a-G 2�� 248 700 7452 Yts i-a-F 215 228 645 685
0670 1 & 2 Yts i-a-e (1) 268 282 805 8450750 1 & 2 Yts J-a-F (1) 288 �0� 865 9100860 1 & 2 Yts L-a-G (1) �87 407 1160 1220
0980 1 Yts m-a-H (1) 467 492 1400 14752 Yts L-a-G (1) �87 407 1160 1220
1120 1 & 2 Yts m-a-H (1) 467 492 1400 1475notes : nominal:
maximum:@ 7°C leaving liquid temperature and 45°C leaving condenser liquid temperature @ 15°C leaving liquid temperature and 60°C leaving condenser liquid temperature
(1) economised (2) electrical panel limitation
PC155-100 Rev.6 (0510)
�8 GB
ESEER Data (0350SA - 0620SA)YLCS 0350 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC �42 �11 280 24� 202 1�0 99 65EP 81 72 6� 55 48 �1 2� 16
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC �58 �26 294 254 211 1�6 104 68EP 77 68 60 52 45 29 22 15
22 CC �74 �40 �07 266 221 142 109 71ESEER 5.14 EP 72 64 56 49 42 27 21 14
18 CC �90 �55 �20 277 2�0 148 11� 74EP 68 61 5� 46 40 26 20 14
Part load EER
100% 75% 50% 25%4.22 4.87 5.21 5.52
YLCS 0415 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 411 �69 ��7 284 2�2 1�7 104 68EP 96 84 75 64 54 �2 24 17
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 4�0 �87 �5� 297 24� 14� 109 72EP 91 80 71 61 52 �0 2� 16
22 CC 450 404 �69 �10 254 150 114 75ESEER 5.22 EP 85 75 66 57 48 28 22 15
18 CC 468 421 �84 �2� 264 156 119 78EP 81 71 6� 54 46 27 20 14
Part load EER
100% 75% 50% 25%4.28 4.91 5.27 5.69
YLCS 0480 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 480 4�7 �9� �41 28� 182 1�9 91EP 111 99 87 76 66 42 �2 22
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 502 457 412 �57 296 191 146 95EP 105 94 82 72 62 40 �1 21
22 CC 525 478 4�0 �7� �10 199 152 100ESEER 5.25 EP 99 88 77 67 58 �7 29 20
18 CC 547 497 448 �88 �2� 208 159 104EP 9� 8� 7� 6� 55 �5 27 19
Part load EER
100% 75% 50% 25%4.31 4.98 5.33 5.65
YLCS 0530 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 518 469 425 �62 �00 187 142 9�EP 120 106 94 81 70 4� �� 2�
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 542 491 445 �79 �14 195 149 98EP 114 101 89 77 66 41 �1 22
22 CC 567 51� 465 �96 �28 204 156 102ESEER 5.25 EP 106 94 8� 72 62 �8 29 20
18 CC 590 5�4 484 412 �42 212 162 106EP 101 89 79 68 58 �6 28 19
Part load EER
100% 75% 50% 25%4.32 4.95 5.32 5.68
YLCS 0575 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 556 506 456 �95 �28 211 161 106EP 129 115 101 88 76 49 �7 26
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 582 5�0 478 41� �44 221 169 111EP 122 109 95 8� 72 46 �5 24
22 CC 608 554 499 4�2 �59 2�1 176 116ESEER 5.26 EP 114 102 89 78 67 4� �� 2�
18 CC 6�4 577 520 450 �74 241 184 120EP 108 96 84 7� 64 41 �1 22
Part load EER
100% 75% 50% 25%4.30 4.99 5.33 5.66
YLCS 0620 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 605 546 496 421 �48 214 16� 107EP 140 12� 109 94 81 49 �8 26
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 6�� 572 519 441 �64 224 171 112EP 1�� 117 10� 89 76 47 �6 25
22 CC 661 598 542 461 �81 2�4 179 117ESEER 5.26 EP 124 109 97 8� 72 44 �� 2�
18 CC 689 622 565 480 �96 244 186 122EP 117 104 92 79 68 42 �2 22
Part load EER
100% 75% 50% 25%4.33 4.96 5.33 5.71
PC155-100 Rev.6 (0510)
�9GB
ESEER Data (0670SA - 1120SA)YLCS 0670 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 645 587 529 458 �81 245 187 12�EP 1�4 119 105 91 79 51 �9 27
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 650 592 5�� 462 �84 247 189 124EP 12� 109 96 84 72 47 �6 25
22 CC 656 597 5�8 466 �87 249 190 125ESEER 5.58 EP 117 104 91 79 69 44 �4 2�
18 CC 661 602 542 469 �90 251 192 126EP 114 102 89 78 67 4� �� 2�
Part load EER
100% 75% 50% 25%4.81 5.54 5.62 5.65
YLCS 0750 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 74� 676 609 528 4�8 282 215 141EP 156 1�9 122 106 92 59 45 �1
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 749 682 614 5�2 442 285 217 142EP 14� 127 112 97 84 54 41 29
22 CC 756 688 620 5�7 446 287 219 144ESEER 5.52 EP 1�6 121 106 92 80 52 �9 27
18 CC 762 69� 625 541 449 289 221 145EP 1�� 118 104 90 79 51 �9 27
Part load EER
100% 75% 50% 25%4.76 5.48 5.56 5.59
YLCS 0860 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 849 77� 696 60� 501 �2� 246 161EP 172 15� 1�4 117 101 65 50 �4
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 856 779 702 608 505 �25 248 16�EP 158 140 12� 107 9� 60 46 �2
22 CC 864 786 708 61� 510 �28 251 164ESEER 5.72 EP 150 1�� 117 102 88 57 4� �0
18 CC 870 792 714 618 51� ��1 252 165EP 147 1�1 114 100 87 56 4� 29
Part load EER
100% 75% 50% 25%4.94 5.68 5.77 5.80
YLCS 0980 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 966 879 792 686 570 �67 280 184EP 192 171 150 1�1 11� 7� 56 �8
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 974 886 799 691 575 �70 282 185EP 176 157 1�7 120 104 67 51 �5
22 CC 98� 895 806 698 580 �74 285 187ESEER 5.83 EP 167 149 1�0 114 99 64 49 ��
18 CC 990 901 812 70� 584 �76 287 188EP 164 146 128 111 97 62 47 ��
Part load EER
100% 75% 50% 25%5.03 5.79 5.88 5.91
YLCS 1120 SACapacity stage number 8 Temp. °C Full Load Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Cycling coefficient 0.9 30 CC 1099 1000 901 780 648 418 �19 209EP 220 196 172 150 1�0 84 64 44
Weighting coefficients25 % - 50 % - 75 % - 100 %0.23 - 0.41 - 0.33 - 0 .03
26 CC 1108 1008 908 787 654 421 �21 211EP 202 179 157 1�7 119 77 58 40
22 CC 1118 1018 917 794 660 425 �24 212ESEER 5.79 EP 192 171 149 1�0 11� 7� 56 �8
18 CC 1127 1025 924 800 665 428 �27 214EP 188 167 146 128 111 71 54 �8
Part load EER
100% 75% 50% 25%5.00 5.75 5.84 5.87
PC155-100 Rev.6 (0510)
40 GB
Sound Data (SA/HA/AA)
ModelSA/HA/AA
dB ASWL
SOUND PRESSURE (dB) Total (dB A)EN 292-199163Hz 125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz 8000Hz
0350 9� 5� 50 71 76 66 65 5� 5� 7�0415 9� 5� 50 71 76 66 65 5� 5� 7�0480 9� 5� 50 71 76 66 65 5� 5� 7�0530 95 57 67 66 76 74 64 54 47 750575 95 57 67 66 76 74 64 54 47 750620 95 57 67 66 76 74 64 54 47 750670 95 57 67 66 76 74 64 54 47 750750 95 57 67 66 76 74 64 54 47 750860 101 5� 6� 72 78 81 72 60 50 850980 101 5� 6� 72 78 81 72 60 50 851120 101 5� 6� 72 78 81 72 60 50 85
swL = sound Power Level
notes:
1. Sound Power tolerance is + 3 dB as per Eurovent Specification.2. Frequency band tolerances range from +/- 5 dB in each frequency band.�. sound Pressure values to iso �744.4. sound Pressure values for en 292-1991, 1 metre from Control Panel and 1.5 metres from Ground Level.
PC155-100 Rev.6 (0510)
41GB
Dimensions (0350SA/HA - 0620SA/HA)
Mod
elA
BC
DE
FG
1(1)
G2(2
)H
JK
LM
NP
QR
1R
2(2)
ST
UV
W35
0-SA
& 3
50-H
A24
741
722
5055
860
528
519
1415
5010
��96
�20
027
055
062
0�2
2521
0089
096
710
1010
9022
2515
560
415-
SA &
415
-HA
247
411
2250
58�
605
285
1915
1550
101�
90�
180
290
5�0
640
�244
2100
890
967
1010
1090
2225
155
6048
0-SA
& 4
80-H
A27
744
022
006�
460
528
520
1616
1510
1�90
�18
029
05�
064
0�2
7421
0089
010
1010
1010
9022
2515
560
530-
SA &
530
-HA
277
440
2200
6�4
605
285
2016
1615
101�
90�
180
290
5�0
640
�274
2100
890
1010
1010
1090
2225
155
6057
5-SA
& 5
75-H
A55
021
027
006�
460
528
520
1616
1510
1�90
�18
029
05�
064
0�5
4421
0089
010
1010
1010
9022
2515
560
620-
SA &
620
-HA
550
210
2700
690
605
285
2016
1615
101�
90�
180
290
5�0
640
�600
2100
890
1010
1010
1090
2225
155
60a
ll d
imen
sion
s in
mill
imet
res.
dim
ensi
ons
excl
ude
insu
latio
n an
d op
tions
. Ref
er to
Phy
sica
l dat
a s
ectio
n fo
r con
nect
ion
size
s. F
or re
fere
nce
only,
ple
ase
refe
r to
York
Pro
duct
dra
win
g fo
r com
plet
e dr
awin
g.(1
) with
Ver
tical
noz
zle
cool
er o
nly.
(2) w
ith h
oriz
onta
l noz
zle
cool
er o
nly
DB
OUT
IN
ER
2
JH
G2
G1
Q
F K LM N
R1
SAV
M C
entre
sT
Floo
r Mou
nt K
it
W
IN
OUT
IN
OUT
PC
VA
UAV
M C
entre
s
EVA
PO
RAT
OR
CO
ND
EN
SE
R
PC155-100 Rev.6 (0510)
42 GB
Dimensions (0350AA - 0620AA)
Mod
elA
BC
DE
FG
1(1)
G2(2
)H
IJ
KL
MN
PQ
R1
R2(2
)S
TU
VW
350-
AA
247
417
2250
558
605
285
1914
1550
761
140
57�
10�2
5�7.
514
012
00�2
2521
0089
096
710
1010
9022
2515
560
415-
AA
247
411
2250
58�
605
285
1915
1550
761
140
57�
10�2
5�7.
514
012
04�2
4421
0089
096
710
1010
9022
2515
560
480-
AA
277
440
2200
6�4
605
285
2016
1615
761
140
57�
1087
5�7.
514
012
04�2
7421
0089
010
1010
1010
9022
2515
560
530-
AA
277
440
2200
6�4
605
285
2016
1615
761
140
57�
1087
5�7.
514
012
04�2
7421
0089
010
1010
1010
9022
2515
560
575-
AA
550
210
2700
6�4
605
285
2016
1615
761
140
57�
1087
5�7.
514
012
04�5
4421
0089
010
1010
1010
9022
2515
560
620-
AA
550
210
2700
690
605
285
2016
1615
761
140
57�
1087
5�7.
514
012
04�6
0021
0089
010
1010
1010
9022
2515
560
all
dim
ensi
ons
in m
illim
etre
s. d
imen
sion
s ex
clud
e in
sula
tion
and
optio
ns. R
efer
to P
hysi
cal d
ata
sec
tion
for c
onne
ctio
n si
zes.
For
refe
renc
e on
ly, p
leas
e re
fer t
o Yo
rk P
rodu
ct d
raw
ing
for c
ompl
ete
draw
ing.
(1) w
ith V
ertic
al n
ozzl
e co
oler
onl
y. (2
) with
hor
izon
tal n
ozzl
e co
oler
onl
y
DB
OUT
IN
E
N
H
G1
G2
Q
FR
2
IJ
R1
SAV
M C
entre
sT
Floo
r Mou
nt K
it
W
PC
V
AK
ML
UAV
M C
entre
s
PC155-100 Rev.6 (0510)
4�GB
Dimensions (0670SA/HA - 0750SA/HA)
Mod
elA
BC
DE
FG
(1)
HJ
KL
MN
PQ
R67
0-SA
& 6
70-H
A44
072
521
�071
080
548
016
8510
�592
519
��0
�98
710
97�5
65�5
7�"
Bs
PP
750-
SA &
750
-HA
470
270
26�0
745
805
480
1685
1045
915
210
�40
950
1080
�645
�85
4" B
sP
Pa
ll d
imen
sion
s in
mill
imet
res.
dim
ensi
ons
excl
ude
insu
latio
n an
d op
tions
. Ref
er to
Phy
sica
l dat
a s
ectio
n fo
r con
nect
ion
size
s. F
or re
fere
nce
only,
ple
ase
refe
r to
York
Pro
duct
dra
win
g fo
r com
plet
e dr
awin
g.(1
) with
hor
izon
tal n
ozzl
e co
oler
onl
y
RBS
PPW
ATER
IN
RBS
PPW
ATER OU
TR
BSPP
WAT
ERINR
BSPP
WAT
EROU
T
WAT
ER
INLE
TW
ATE
R O
UTL
ET
EVA
PO
RAT
OR
CO
ND
EN
SE
R
KL
M
FE
A
2491
AV
M C
entre
s
2700P
105
CD
B
N12
90 S
hipp
ing
JH
G
1470
AV
M C
entre
s16
06 F
loor
Mou
nt K
it
QTo
C
onde
nser
Hea
d90
2148
2163
PC155-100 Rev.6 (0510)
44 GB
Dimensions (0670AA - 0725AA)
Mod
elA
BC
DE
FG
(1)
HI
JK
LM
NP
Q67
0-A
A44
072
521
�071
080
548
016
8510
4�24
876
012
7594
510
5510
00�5
65�-
1/8"
750-
AA
470
270
26�0
745
805
480
1685
1016
276
627
1415
945
1055
1000
�645
�-5/
8"
all
dim
ensi
ons
in m
illim
etre
s. d
imen
sion
s ex
clud
e in
sula
tion
and
optio
ns. R
efer
to P
hysi
cal d
ata
sec
tion
for c
onne
ctio
n si
zes.
For
refe
renc
e on
ly, p
leas
e re
fer t
o Yo
rk P
rodu
ct d
raw
ing
for c
ompl
ete
draw
ing.
(1) w
ith h
oriz
onta
l noz
zle
cool
er o
nly
Q O
.D. P
IPE
DISC
HARG
E CO
NN S
YS 2
Q O
.D. P
IPE
DISC
HARG
E CO
NN S
YS 1 LIQU
ID C
ONNE
CTIO
N1-
5/8"
OD
PIPE
OPTI
ONAL
FLOO
RM
OUNT
KIT
WAT
ER
INLE
TW
ATE
R O
UTL
ET
EVA
PO
RAT
OR
1606
Flo
or M
ount
Kit
KTo
Liq
Con
nsL M
To Liq Conns
IH
FE 12
90 S
hipp
ing
J
N
G
1470
AV
M C
entre
sA
2491
AVM
Cen
tres
2700
90
2148
2163
P
105
CD
B
PC155-100 Rev.6 (0510)
45GB
Dimensions (0860SA/HA - 1120SA/HA)
Mod
elA
BC
D (1
)E
FG
HJ
KL
MN
P (1
)Q
R86
0-SA
& 8
60-H
A51
778
021
7587
590
640
617
0510
4591
521
0�4
095
010
80�8
�04�
04"
Bs
PP
980-
SA &
980
-HA
517
780
2175
875
906
406
1705
1045
915
210
�40
950
1080
�8�0
507
4" B
sP
P11
20-S
A &
112
0-H
A66
710
2520
1094
58�
046
017
2010
4591
521
0�4
095
010
80�9
8065
74"
Bs
PP
all
dim
ensi
ons
in m
illim
etre
s. d
imen
sion
s ex
clud
e in
sula
tion
and
optio
ns. R
efer
to P
hysi
cal d
ata
sec
tion
for c
onne
ctio
n si
zes.
For
refe
renc
e on
ly, p
leas
e re
fer t
o Yo
rk P
rodu
ct d
raw
ing
for c
ompl
ete
draw
ing.
(1) a
dd 2
50 m
illim
eter
s if
"suc
tion
shut
-off
valv
es o
ptio
n" is
requ
ired.
RBS
PPW
ATER
IN
RBS
PPW
ATER OU
TR
BSPP
WAT
ERINR
BSPP
WAT
EROU
T
WAT
ER
INLE
TW
ATE
R O
UTL
ET
EVA
PO
RAT
OR
CO
ND
EN
SE
R
KL
M
FE
Q A25
66 A
VM
Cen
tres
2775
2148
P
105
CD
B
N12
90 S
hipp
ing
JH
G
1470
AV
M C
entre
s16
06 F
loor
Mou
nt K
it
To C
onde
nser
Hea
d90
PC155-100 Rev.6 (0510)
46 GB
Dimensions (0860AA - 1120AA)
Mod
elA
BC
D (1
)E
FG
HI
JK
LM
NP
(1)
Q86
0-A
A51
778
021
7587
590
640
617
0510
1627
662
714
1577
798
098
6�8
�0�-
5/8"
980-
AA
517
780
2175
875
906
406
1705
1016
276
627
1415
777
980
986
�8�0
4-1/
8"11
20-A
A66
710
2520
1094
58�
046
017
2010
1627
657
714
4077
798
098
6�9
804-
1/8"
all
dim
ensi
ons
in m
illim
etre
s. d
imen
sion
s ex
clud
e in
sula
tion
and
optio
ns. R
efer
to P
hysi
cal d
ata
sec
tion
for c
onne
ctio
n si
zes.
For
refe
renc
e on
ly, p
leas
e re
fer t
o Yo
rk P
rodu
ct d
raw
ing
for c
ompl
ete
draw
ing.
(1
) add
250
mill
imet
ers
if "s
uctio
n sh
ut-o
ff va
lves
opt
ion"
is re
quire
d.
Q O
.D. P
IPE
DISC
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PC155-100 Rev.6 (0510)
47GB
Dimensions
the following table gives dimension drawing numbers for all models, and condenser extension and manifold kits.
ModelDimension Drawing Condenser Extension Kit Condenser
ManifoldVertical nozzles Horizontal nozzles Victualic Flanged350-SA & 350-HA 0�5L02652-000 0�5L02652-001 �62L18512-000 n/a �62L180XX-XXX415-SA & 415-HA 0�5L0265�-000 0�5L0265�-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX480-SA & 480-HA 0�5L02654-000 0�5L02654-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX530-SA & 530-HA 0�5L02655-000 0�5L02655-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX575-SA & 575-HA 0�5L02656-000 0�5L02656-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX620-SA & 620-HA 0�5L02657-000 0�5L02657-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX670-SA & 670-HA 0�5n02658-000 0�5n02658-001 �62L1851�-000 �62L1851�-001 �62L180XX-XXX750-SA & 750-HA 0�5n02659-000 0�5n02659-001 �62L18514-000 �62L18514-001 �62L180XX-XXX860-SA & 860-HA n/a 0�5n02660-000 �62L18514-000 �62L18514-001 �62L180XX-XXX980-SA & 980-HA n/a 0�5n02661-000 �62L18514-000 �62L18514-001 �62L180XX-XXX
1120-SA & 1120-HA n/a 0�5n02716-000 �62L18514-000 �62L18514-001 �62L180XX-XXX
ModelDimension Drawing
Vertical nozzles Horizontal nozzles350-AA 0�5L0272�-000 0�5L0272�-001415-AA 0�5L02724-000 0�5L02724-001480-AA 0�5L02725-000 0�5L02725-001530-AA 0�5L02726-000 0�5L02726-001575-AA 0�5L02727-000 0�5L02727-001620-AA 0�5L02728-000 0�5L02728-001670-AA 0�5n02729-000 0�5n02729-001750-AA 0�5n027�0-000 0�5n027�0-001860-AA n/a 0�5n027�1-000980-AA n/a 0�5n027�2-0001120-AA n/a 0�5n027��-000
PC155-100 Rev.6 (0510)
48 GB
CS 1 PS 2 PS
43
PE
QRESB
PE
U V W U V W
1-QCB 2-QCB
-APB
-AMB
-ARB
PE
CIS
-QCSD/ESD
1-XCSITB 2-XCSITB
PE
3 50HZ 380/400V 3 50HZ 380/400V 3 50HZ 380/400V
3L2L1L3L2L1L3L1L
PE PE
U V W
CISCS
34
QRESB
PE
PE
2-F1-F
-QCSISD
-APB
-AMB
-ARB
-QCSD/ESD
SP2SP1
3 50HZ 380/400V
L1 L2 L3
Power Supply Connection Diagrams
Standard Single Point Power Supplyone supply to master non-fused disconnect switch QCsisd with internal power distribution to system fuses and control supply non-fused disconnect switch QCsd/esd
Multi Point Power Supply (Option)two supplies to terminal blocks 1, 2-XCsitB with internal power distribution to system circuit breakers and with a seperate control supply to non-fused disconnect switch QCsd/esd
amB miCRo BoaRdaRB ReLaY BoaRdaPs PoweR suPPLY BoaRdCis Common inPut seCtionCs ContRoL seCtionPs PoweR seCtionQCsd/esd ContRoL switCH disConneCt/
emeRGenCY stoP deViCeQResB Remote emeRGenCY stoP
ButtonQCsisd Common seCtion inPut switCH
disConneCtQCB CiRCuit BReaKeRQsdF switCH disConneCt FuseXCsitB Common seCtion inPut teRminaL
BLoCK
PC155-100 Rev.6 (0510)
49GB
SP2SP1SC
43
U V W
PECIS
QRESB
PE
-XCSITB2-QCB1-QCB
L1 L2 L3
-QCSD/ESD
3 50HZ 380/400V
-APB
-AMB
-ARB
SP2SP1SC
QSDF QSDF-QCSISD
-APB
-AMB
-ARB
34
VU W
3 50HZ 380/400V
QRESB
PE
PE
L1 L2 L3
-QCSD/ESD
CIS
Power Supply Connection Diagrams (Continued)
Single Point Power Supply (Option)one supply to master non-fused disconnect switch QCsisd with internal power distribution to system fused disconnect switches QsdF and control supply non-fused disconnect switch QCsd/esd
Standard Single Point Power Supply (Option)one supply to master terminal block XCsitB with internal power distribution to system circuit breakers QCB and control supply non-fused disconnect switch QCsd/esd
amB miCRo BoaRdaRB ReLaY BoaRdaPs PoweR suPPLY BoaRdCis Common inPut seCtionCs ContRoL seCtionPs PoweR seCtionQCsd/esd ContRoL switCH disConneCt/
emeRGenCY stoP deViCeQResB Remote emeRGenCY stoP ButtonQCsisd Common seCtion inPut switCH
disConneCtQCB CiRCuit BReaKeRQsdF switCH disConneCt FuseXCsitB Common seCtion inPut teRminaL
BLoCK
PC155-100 Rev.6 (0510)
50 GB
Customer Connection Diagram
Ps PoweR seCtionCs ContRoL seCtionCis Common inPut seCtionaRB ReLaY BoaRdamB miCRo BoaRdaPs PoweR suPPLY BoaRd
note 1: Fit link between terminals 14 and 15 and connect a voltage free contact to terminals 11 and 14 for Remote unit start/stop.
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13151211 141013 16 17 20 13
34
33
36
35
37
38
39
30
31
32
Note 1
1 PS CISCS
AMB ARB
AP
B
2 PS
Remote Heatpump Mode Select (YLCS HA Models)
Unit Run Signal
Open on Alarm
Close on AlarmSystemN° 1
Open on Alarm
Close on AlarmSystemN° 2
Chilled Liquid Pump Start
Remote Setpoint Reset or Remote Unload
Remote Onload
System 2 Remote Start/Stop
System 1 Remote Start/Stop
Chilled Liquid Flow Switch
PC155-100 Rev.6 (0510)
51GB
Clearances
the recommended clearances below are the distances between the edge of the unit and the architectural enclosure surrounding the unit. the clearances allow for access of the control panel and for component removal.
Notes:Clearances around the unit are recommended for safe operation and maintenance of the unit and control power panels.
Local Health & safety regulations or practical considerations for service replacement of large components, may require larger clearances than those shown above.
optional sound enclosure must be taken into consideration, all clearance dimensions must be taken from outside of sound enclosure. Refer to sound enclosure documentation for these dimensions.
CONTROL PANEL
1.3 m
1.0 m
3 m 1 m
PC155-100 Rev.6 (0510) subject to change without notice.supersedes: PC155-100 Rev.5 (0609) aLL RiGHts ReseRVed
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