AIREDALE DeltaChill Technical Manual

AIREDALE DeltaChill Technical Manual

Air cooled deltachill free cooling chiller 500kw - 1000kw
Table of Contents

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DeltaChill Air Cooled
DeltaChill Free Cooling Chiller
500kW - 1000kW
Technical Manual

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Summary of Contents for AIREDALE DeltaChill

  • Page 1 DeltaChill Air Cooled DeltaChill Free Cooling Chiller 500kW - 1000kW Technical Manual...
  • Page 2 Airedale Ltd endeavours to ensure that the information in this document is correct and fairly stated, but none of the statements are to be relied upon as a statement or representation of fact. Airedale Ltd does not accept liability for any error or omission, or for any reliance placed on the information contained in this document.
  • Page 3: Personal Protective Equipment

    Remember do not perform a lift that exceeds your ability. Refrigerant Warning The Airedale unit uses R410A refrigerant which requires careful attention to proper storage and handling procedures. Use only manifold gauge sets designed for use with R410A refrigerant. Use only refrigerant recovery units and cylinders designed for high pressure refrigerants.
  • Page 4 ● Measure, control and verify environmental performance through internal and external audits. ● Continually improve our environmental performance. CE Directive Airedale certify that the equipment detailed in this manual conforms with the following EC Directives: Electromagnetic Compatibility Directive (EMC) 2014/30/EU...
  • Page 5: Table Of Contents

    Chillers DeltaChill™ Air Cooled and FreeCool Contents Specifiers Guide Nomenclature Introduction Range Layout Unit Overview Construction Refrigeration Compressor Refrigeration Pipework Components Electronic Expansion Valves (EEV) Condenser Coils Corrosion Resistant Coated Coils Evaporator Electrical Phase Rotation Protection Single Point Isolation Electronic Soft Start...
  • Page 6 DeltaChill™ Air Cooled and FreeCool Chillers Contents Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCF Weights, Point Loadings & Centre of Gravity (C of G) DCC Dimensions Mounting Hole Centres Lifting Dimensions Anti Vibration Mounting (Optional) Water System Grooved &...
  • Page 7 Chillers DeltaChill™ Air Cooled and FreeCool Contents Appendix - Ecodesign Technical Data DCC DCC047DR-08EPV0, DCC049DR-08EYY0, DCC052DR-09DYV0 DCC056DR-10DVV0, DCC058DR-10DVW0, DCC061DR-10DWW0 DCC065TR-10GPPY, DCC069TR-11GPYY, DCC074TR-12GYYY DCC077TR-13GYYV, DCC080TR-14GYVV, DCC083TR-15GVVV DCC086TR-15GVVW, DCC088TR-15GVWW, DCC091TR-15GWWW DCC049DR-10EPV0, DCC051DR-10EYY0, DCC054DR-11DYV0 DCC058DR-12DVV0, DCC060DR-12DVW0, DCC063DR-12DWW0 DCC031DR-08BLM0, DCC032DR-06BMM0, DCC033DR-08BMM0 DCC080TR-16GYYV, DCC082TR-17GYVV, DCC085TR-18GVVV...
  • Page 8 DeltaChill™ Air Cooled and FreeCool Chillers Technical Data DCF Ecodesign DCF046DR-07DXY0, DCF048DR-07DPY0, DCF051DR-08DPV0 DCF053DR-08DYY0, DCF055DR-09DYV0, DCF058DR-10DVV0 DCF062DR-10FVW0, DCF065DR-10FWW0, DCF069TR-10GPPY DCF074TR-11GPYY, DCF079TR-12GYYY, DCF082TR-13HYYV DCF085TR-14HYVV, DCF090TR-15HVVV, DCF092TR-15HVVW DCF094TR-15HVWW, DCF096TR-15HWWW, DCF049DR-09DXY0 DCF051DR-09DPY0, DCF053DR-10DPV0, DCF055DR-10DYY0 DCF058DR-11DYV0, DCF060DR-12DVV0, DCF065DR-12FVW0 DCF068DR-12FWW0, DCF073TR-13GPPY, DCF078TR-14GPYY DCF082TR-15GYYY, DCF085TR-16HYYV, DCF088TR-17HYVV...
  • Page 9: Specifiers Guide

    A - Y Introduction The DeltaChill Free Cool chiller has been designed to provide the cooling load required whilst optimising energy efficiency at all times and as such will take advantage of free cooling whenever available. If the free cooling available cannot satisfy the required full cooling load, direct expansion cooling is used to supplement the output.
  • Page 10: Range Layout

    DeltaChill™ Air Cooled and FreeCool Chillers Range Layout 7 Fan Units DCF 460 - 480kW 8 Fan Units DCC 470 - 490kW DCF 470 - 490kW 9 Fan Units DCC 520kW DCF 510kW 10 Fan Units DCC 480 - 650kW...
  • Page 11 Chillers DeltaChill™ Air Cooled and FreeCool 15 Fan Units DCC 550 - 910kW DCF 590 - 960kW 16 Fan Units DCC 590 - 770kW DCF 660 - 850kW 17 Fan Units DCC 720 - 820kW DCF 780 - 850kW 18 Fan Units...
  • Page 12: Unit Overview

    DeltaChill™ Air Cooled and FreeCool Chillers Unit Overview Standard Condenser Fans Optional Condenser Fan Components • AC Condenser Fans • EC (Electrically Commutated) Condenser Fans • EC + (High Airflow EC) Condenser Fans • Extended Discharge Plenum Standard Control Panel Features •...
  • Page 13 Chillers DeltaChill™ Air Cooled and FreeCool Standard Coil Features • Micro-Channel Condenser Coils • Free Cooling Coil (DCF Only) Optional Components • Corrosion Resistant Coated FC Coils Standard Waterside Features • Differential Pressure Sensor Optional Waterside Features • Single Pump •...
  • Page 14: Construction

    DeltaChill™ Air Cooled and FreeCool Chillers Construction The base is fabricated from galvanised steel to ensure a rigid, durable, weatherproof construction. The superstructure is manufactured from galvanised sheet steel coated with epoxy baked powder paint to provide a durable and weatherproof finish. Standard unit colour is Light Grey (RAL 7035).
  • Page 15: Electronic Expansion Valves (Eev)

    Chillers DeltaChill™ Air Cooled and FreeCool Electronic Expansion Valves (EEV) Electronic expansion valves differ to the normal thermostatic expansion valves in their ability to maintain control of the suction superheat at reduced head pressures. This can lead to significant energy savings particularly at reduced loading and low ambient temperatures.
  • Page 16: Condenser Coils

    DeltaChill™ Air Cooled and FreeCool Chillers Condenser Coils Large surface area coils ideally positioned to optimise airflow and heat transfer, manufactured from micro channel coil. Head Pressure Control Electronic head pressure controllers are fitted which modulate the fan speed to maintain a constant condensing pressure, allowing the system to operate satisfactorily in ambient temperatures as low as -30°C.
  • Page 17: Electrical

    Chillers DeltaChill™ Air Cooled and FreeCool Electrical Electrical Overview Location of Electrical components within the chiller. Fans Pumps Panel Ventilation Circuit 1 Compressors Controls Circuit 3 Compressors Circuit 2 Compressors Bus-bar Chamber Power Factor Correction A weatherproof electrical power and controls panel shall be situated at the end of the unit and contains: ●...
  • Page 18: Phase Rotation Protection

    DeltaChill™ Air Cooled and FreeCool Chillers Phase Rotation Protection A phase sequence relay shall be fitted for units containing 3 phase scroll compressors, to prevent possible damage by running the compressor in the wrong direction. Optional Features Single Point Isolation Single point isolation shall be fitted as a standard feature.The feature is however available to be removed upon request,...
  • Page 19: Control Panel Light

    The sensor is positioned at the lowest point to ensure correct operation. Detection rate of 100 ppm ensures detection in case of refrigerant leakage. The leak detector has relay outputs allowing for alarm monitoring via the Airedale controller. This relay output can provide facilities for refrigerant pump down for refrigerant containment.
  • Page 20: Condenser Fans

    DeltaChill™ Air Cooled and FreeCool Chillers Condenser Fans Condenser Fan and Motor - AC Axial fan assemblies with finger proof grille and incorporating external rotor AC motor technology, capable of highly accurate discreet speed control., Discharges air vertically. The fans offer maximum performance whilst keeping sound levels to a minimum.
  • Page 21: Waterside

    Free cooling is initiated whenever the outdoor ambient temperature is 2°C less than the return water temperature. The “V” frame arrangement enables efficient concurrent cooling. The DeltaChill Free cool chillers pipe work has been designed to optimise pressure drop. With this in mind the chiller is more efficient in delivering a cooling solution.
  • Page 22 DeltaChill™ Air Cooled and FreeCool Chillers Pump Options A variety of pump options to suit a wide range of applications are available: Factory fitted in line as a single pump or run/standby configuration and available in standard and larger nominal external head pressures.
  • Page 23: Waterside Options

    Chillers DeltaChill™ Air Cooled and FreeCool Waterside Options Water Filter A 20 mesh water filter can be supplied fitted to protect the evaporator from clogging by sediment. On certain models the filter is fitted externally. Flushing Bypass Kit (Standard) Flushing Bypass Kit (Regulating)
  • Page 24: Controls

    DeltaChill™ Air Cooled and FreeCool Chillers Controls Fans Pumps Panel Ventilation Circuit 1 Compressors Controls Circuit 3 Compressors Circuit 2 Compressors Bus-bar Chamber Power Factor Correction General Description The microprocessor controller offers powerful analogue and digital control to meet a wide range of monitoring and control features including a real time clock and Industry standard communication port and network connections.
  • Page 25: Monitoring

    Chillers DeltaChill™ Air Cooled and FreeCool Display/Keypad UP/DOWN KEYS - To change adjustable fields & scrolls up & down available menus ENTER -Selects menus & moves cursor to adjustable fields green LED ESC - Green LED lit when operating page displayed, returns to operating page screen when pressed...
  • Page 26: Alarm Handling

    Password Protection The control system integrity can be maintained by restricting access with a password PIN number. To change the PIN number; please contact Airedale at time of order with the preferred 4 digit number. Ultracap Uninterrupted Power Supply The Ultracap module is an optional external backup device for the EVD Evolution used to close the valve in the event of mains power failures.
  • Page 27: Displays Hours Run Of Each Pump

    Up to 6 units can be sequenced. Included within this package is a site visit by Airedale Control Specialists to set up multiple unit sequence control. The chiller sequence manager is supplied as a separate control panel to be mounted remotely indoors, such as a plant room.
  • Page 28: Mechanical

    DeltaChill™ Air Cooled and FreeCool Chillers Mechanical Lifting Lugs Lifting Lugs shall be fitted to the unit enabling full lifting requirements. The lifting lug hole diameter is 40 mm. Discharge Plenum -Condenser Fan Constructed from galvanised sheet steel coated with epoxy baked powder paint, this plenum directs discharge air vertically, thus limiting air re-circulation and provides a degree of acoustic reduction in the horizontal plane;...
  • Page 29: Installation Data

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCF = C of G Point load C of C of DCF046DR-07DXY0 925 1020 985 2480 890 1010 1000 2545 DCF048DR-07DPY0 910 1010...
  • Page 30 DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCF = C of G Point load C of C of 1055 3795 26 DCF066DR-14FVW0 1040 3805 27 DCF070DR-14FWW0 1030 970 1045 4165...
  • Page 31 DeltaChill™Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCF = C of G Point load C of C of 1000 2755 52 DCF047DX-09DXY0 1015 2815 53 DCF049DX-09DPY0 1015 2810 54 DCF051DX-10DPV0...
  • Page 32 DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCF = C of G Point load C of C of 1030 3580 74 DCF059DX-15DYV0 1040 3575 75 DCF061DX-16DVV0 1035 3645 76 DCF066DX-16FVW0...
  • Page 33: Weights, Point Loadings & Centre Of Gravity (C Of G) Dcc

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCC = C of G Point loads C of C of DCC047DR-08EPV0 935 2460 DCC049DR-08EYY0 915 2385 100 DCC049DR-10EPV0 940 2695 101 DCC051DR-10EYY0...
  • Page 34 DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCC = C of G Point loads C of C of 125 DCC080TR-16GYYV 960 4315 126 DCC083TR-15GVVV 1000 925 955 4310 127 DCC086TR-15GVVW...
  • Page 35 DeltaChill™Air Cooled and FreeCool Chillers Installation Data Weights, Point Loadings & Centre of Gravity (C of G) DCC = C of G Point loads C of C of 152 DCC052DX-14EYY0 935 4020 153 DCC054DX-13DYV0 1015 940 945 4310 154 DCC057DX-14DVV0...
  • Page 36: Dimensions

    DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Dimensions The following information is for general guidance; please refer to the certified drawings provided IMPORTANT for installation. (10) DISCHARGE AIR FORCED PANEL VENTILATION MAINS CABLE ENTRY 1100 1100 WATER OUTLET WATER INLET Mains Electric Isolator(s).
  • Page 37: Mounting Hole Centres

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Mounting Hole Centres Mounting hole centres for the units start from one end depicted by “A”. As the case size increases more mounting points are required. This mounting is required ensuring the unit does not move.
  • Page 38 Only use lifting points provided. Chains/slings MUST NOT interfere with the casing or fan assembly to avoid damage. Lift the unit slowly and evenly. If the unit is dropped, it should immediately be checked for damage and reported to Airedale. Lifting Dimensions Dimension (mm)
  • Page 39: Lifting Dimensions

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Lifting Dimensions 2290 Dimension (mm) (Min) (Min) 7 / 8 Fan Unit 4000 3680 9 / 10 Fan Unit 5000 4415 11 / 12 Fan Unit 3500 3000 2340 3145 13 / 14 Fan Unit...
  • Page 40 DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Positioning The installation position should be selected with the following points in mind: ● Position on a stable and even base, levelled to ensure that the compressor operates correctly ● Levelling should be to +/- 5mm.
  • Page 41: Anti Vibration Mounting (Optional)

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Installation Data Anti Vibration Mounting (Optional) Anti Vibration Mounting (Optional) Spring Type Spring Type Each mount is coloured to indicate the different loads, refer to instructions supplied for correct allocation. Dimensions A(1) Unloaded dimension...
  • Page 42 DeltaChill™ Air Cooled and FreeCool Chillers Anti Vibration Mounts location to Unit and Plinth The Anti Vibration mount is larger than the unit base. Consideration must be made with regard to steelwork/concrete plinth sizes. Full information is available on the approved General Arrangement drawings.
  • Page 43: Water System

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Water System Chilled water pipe work and ancillary components must be installed in accordance with: ● National and Local Water supply company standards ● The manufacturer’s instructions are followed when fitting ancillary components ●...
  • Page 44: Water Systems And Recommended Flow Schemes

    DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Water Systems and Recommended Flow Schemes Component Recommended Requirements The recommended requirements to allow commissioning to be carried out correctly are: ● The inclusion of Binder Points adjacent to the flow and return connections, to allow temperature and pressure readings.
  • Page 45 DeltaChill™Air Cooled and FreeCool Chillers Installation Data Optional Flow Schemes Key: Water In Water Out Filter Only Scheme - Comprises: Standard Circuit plus: Optional Extras: ● 20 Mesh Water Filter Filter - Flushing Bypass Scheme - Comprises: Standard Circuit plus: Optional Extras: ●...
  • Page 46 DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Refrigeration Schematic Schematic shows a triple Circuit machine Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 47: Electrical

    DeltaChill™Air Cooled and FreeCool Chillers Installation Data Electrical Please refer to the electrical wiring diagrams provided for installation. ALL work MUST be carried out by technically trained competent personnel. The equipment contains live electrical and moving parts, ISOLATE prior to maintenance or repair work.
  • Page 48: Interconnecting Wiring

    DeltaChill™ Air Cooled and FreeCool Chillers Installation Data Interconnecting Wiring     Mains incoming supply 400V/3PH/50Hz       Separate Permanent Supply 230V/1PH/50Hz     External Trace Heating Connections   240V/500W max ...
  • Page 49 DeltaChill™Air Cooled and FreeCool Chillers pLAN Termination The plugged termination ensures that the connections are made simultaneously. Failure to attach the cables this way may cause damage to the controller. Customer Side RxTx - RxTx + RxTx - RxTx + Panel Side Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 50: Design Data

    DeltaChill™ Air Cooled and FreeCool Chillers Design Data Measurement of Sound Data All sound data quoted has been measured in the third-octave band limited values, using a Real Time Analyser calibrated sound intensity meter in accordance with BS EN ISO 9614 Part 1: 2009. The Global sound data quoted is valid for noise emitted in the horizontal plane in all directions.
  • Page 51: Part Load Efficiencies

    DeltaChill™ Air Cooled and FreeCool Chillers Design Data Part Load Efficiencies ESEER The quoted EER figures cover the performance of the unit ONLY at the standard rating conditions of 7/12°C water, 35°C ambient. The ESEER calculation method has been developed by Eurovent to give a single value that is a realistic indication of the efficiency of the Chiller across the year round range of operation.
  • Page 52: Glycol

    DeltaChill™ Air Cooled and FreeCool Chillers Design Data Glycol Glycol is recommended when a supply water temperature of +5°C or below is required or when static water can be exposed to freezing temperatures (lower than 3°C Ambient). This is specified further in the environmental consideration section at the front of this document.
  • Page 53 DeltaChill™ Air Cooled and FreeCool Chillers Design Data Glycol Glycol is recommended when a supply water temperature of +5°C or below is required or when static water can be exposed to freezing temperatures (lower than 3°C Ambient). This is specified further in the environmental consideration section at the front of this document.
  • Page 54: Minimum System Water Volume Calculations

    DeltaChill™ Air Cooled and FreeCool Chillers Minimum System Water Volume Calculations METHOD 1 (Preferred Method) Where the system permanent heat load is known, the minimum water volume in litres Vmin is: Vmin = Water Flow Rate (litres/minute) x Minimum Compressor Run Time (mins) x Chiller Loading Factor...
  • Page 55: Technical Data Dcf

    Technical Data DCF Cooling Performance Free Cool The free cool potential of the DeltaChill can be determined by the temperature difference of the ambient air and the return water temperatures. The graphs show a temperature difference and therefore changing Freecool ability.
  • Page 56 DeltaChill™ Air Cooled and FreeCool Chillers AC Fans Extra Quiet 16°C 14°C 12°C 10°C 8°C 6°C Flowrate l/s EC Fans Regular Quiet 16°C 14°C 12°C 10°C 8°C 6°C Flowrate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 57 Chillers DeltaChill™ Air Cooled and FreeCool EC Fans Extra Quiet 16°C 14°C 12°C 10°C 8°C 6°C Flowrate l/s EC Fans High Airflow 16°C 14°C 12°C 10°C 8°C 6°C Flowrate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 58: Dcf Performance Data Ec Fans

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 59 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 60 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 61: Dcf066Dr-14Fvw0

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 62: Dcf078Tr-14Gpyy

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 63: Dcf092Tr-15Hvvw 770 750 730 710 850 825 805

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 64: Dcf095Tr-18Hvvw 920 875 820 875 745 980 930 875 930

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 65: Dcf101Tr-21Hvww

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 66 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 67 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 68 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 69 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 70 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 71 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 72: Dcf Mechanical Data

    DeltaChill™ Air Cooled and FreeCool Chillers DCF Mechanical Data Base: Plain Galvanised Steel, Panels: Galvanised Sheet Construction - Material / Colour Steel, Epoxy Baked Powder Paint, Light Grey (RAL7035) Evaporator Shell and Tube Insulation Class 1 Condenser Epoxy Coated Aluminium Microchannel & Aluminium Fins Face Area (Total) m²...
  • Page 73: Dcf Mechanical Data - Regular Quiet

    Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 74 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 75 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 76 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 77 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 78 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 79 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 80 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 81 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 82 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 83 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 84 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 85 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 86 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 87 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 88 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 89 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 90: Dcf Mechanical Data Extra Quiet

    Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 91 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 92 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 93 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 94 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 95 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 96 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 97 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 98 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 99 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 100 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 101 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 102 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 103 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 104 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 105: Dcf Electrical Data

    Chillers DeltaChill™ Air Cooled and FreeCool DCF Electrical Data The following electrical data tables have been reduced in size. This reduction is size is for common electrical features. Mains supply voltage 400V 3PH 50Hz Maximum mains incoming Cable size Direct to Bus bar...
  • Page 106: Dcf Electrical Data - Regular Quiet

    (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 107 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 108 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 109 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 110 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 111 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 112 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 113 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 114 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 115 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 116 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 117 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 118 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 119 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 120 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 121 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 122 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 123: Dcf Electrical Data Extra Quiet

    (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 124 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 125 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 126 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 127 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 128 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 129 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 130 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 131 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 132 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 133 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 134 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 135 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 136 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 137 (1) Based upon 7.2°C Evap / 54.4°C Condensing, AC Fans. (2) Starting amps refers to the direct online connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold.
  • Page 138: Dcf Noise Data Ec Fans Regular Quiet

    A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 139 A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 140 A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 141 A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 142: Technical Data Dcc

    Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 143 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 144 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 145 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 146 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 147 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 148 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 149 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 150 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 151 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 152 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 153 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 154 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 155 Duties applicable for chilled water ∆T between 4 and 8°C. Interpolate for water temperatures between those quoted, do not extrapolate. Water flow rate (l/s) = Output ÷ (Cp x ∆T) For conditions outside of those quoted please refer to Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 156: Dcc Mechanical Data

    DeltaChill™ Air Cooled and FreeCool Chillers DCC Mechanical Data The Deltachill and DeltaChill free cool chiller Base: Plain Galvanised Steel, Panels: Galvanised Sheet Construction - Material / Colour Steel, Epoxy Baked Powder Paint, Light Grey (RAL7035) Evaporator Shell and Tube...
  • Page 157: Dcc Mechanical Data - Regular Quiet

    Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 158 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 159 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 160 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 161 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 162 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 163 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 164 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 165 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 166 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 167 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 168 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 169 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 170 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 171 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 172: Dcc Mechanical Data - Extra Quiet

    Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 173 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 174 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 175 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 176 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 177 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 178 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 179 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 180 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 181 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 182 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 183 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 184 Based on standard unit without options, operating weight includes refrigerant charge and water volume. For unit weights with waterside options fitted please refer to Airedale. For minimum system volume, refer to Design Features & Information - Minimum System Water Volume Calculations Ambient temperature that full Freecool capacity can be achieved Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 185: Dcc Electrical Data

    Chillers DeltaChill™ Air Cooled and FreeCool DCC Electrical Data The following electrical data tables have been reduced in size. This reduction is size is for common electrical features. Mains supply voltage 400V 3PH 50Hz Maximum mains incoming Cable size Direct to Bus bar...
  • Page 186: Dcc Electrical Data - Regular Quiet

    (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 187 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 188 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 189 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 190 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 191 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 192 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 193 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 194 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 195 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 196 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 197 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 198 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 199 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 200 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 201: Dcc Electrical Data - Extra Quiet

    (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 202 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 203 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 204 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 205 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 206 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 207 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 208 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 209 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 210 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 211 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 212 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 213 (1) Based at 7.2°C Evap / 54.4°C Condensing, AC Standard Fans. (2) Starting amps refers to the direct on line connections. (3) For unit RLA values at alternative power factor values contact Airedale. (4) Projected reactive power reduction based on a 0.95PF billing threshold...
  • Page 214: Dcc Sound Data Ec Fans Regular Quiet

    A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 215 A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 216: Dcc Sound Data Ec Fans Extra Quiet

    A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 217 A scale. All sound data measured at nominal conditions: Water in/out 15/10°C at 35°C ambient. Based on standard unit, for units fitted with optional pump packages please contact Airedale. Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 218: Hydraulic Data

    DeltaChill™ Air Cooled and FreeCool Chillers Hydraulic Data Evaporator Pressure Drop References Use the following tables to determine the correct Evaporator Pressure Drop Curve for selected units. DCF Evaporator Pressure Drop Units Evap Num Units Evap Num DCF046DR-07DXY0 DCF098TR-21HVVW DCF048DR-07DPY0...
  • Page 219: Dcc Evaporator Pressure Drop

    Chillers DeltaChill™ Air Cooled and FreeCool Hydraulic Data Evaporator Pressure Drop References Use the following tables to determine the correct Evaporator Pressure Drop Curve for selected units. DCC Evaporator Pressure Drop Units Evap Num Units Evap Num DCC047DR-08EPV0 DCC096TR- 21GWWW...
  • Page 220: Evaporator Pressure Drop Curves (Water)

    DeltaChill™ Air Cooled and FreeCool Chillers Hydraulic Data Evaporator Pressure Drop Curves (Water) Flow rate l/s Flow rate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 221 Chillers DeltaChill™ Air Cooled and FreeCool Hydraulic Data Evaporator Pressure Drop (Water) Flow rate l/s Flow rate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 222: Evaporator Pressure Drop Curves (20% Ethylene Glycol)

    DeltaChill™ Air Cooled and FreeCool Chillers Hydraulic Data Evaporator Pressure Drop Curves (20% Ethylene Glycol) Flow rate l/s Flow rate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 223 DeltaChill™ Air Cooled and FreeCool Chillers Hydraulic Data Evaporator Pressure Drop Curves (20% Ethylene Glycol) Flow rate l/s Flow rate l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 224: Dcf Unit Pressure Drop

    Waterflow(l/s) Unit Pressure Drop (kPa) DCF046DR-07DXY0 15.4 23.8 33.5 44.6 57.1 70.9 86.0 102.5 120.3 139.4 159.9 181.8 204.9 229.4 255.3 282.4 311.0 340.8 372.0 404.5 438.4 473.5 510.1 DCF048DR-07DPY0 17.0 26.3 37.2 49.6 63.5 79.0 96.0 114.6 134.7 156.3 179.4 204.1 230.3 258.1 287.3 318.1 350.4 384.3 419.7 456.6 495.0 535.0 576.5 DCF051DR-08DPV0 15.6 24.1 34.1 45.4 58.1 72.2 87.7 104.6 122.9 142.5 163.6 186.0 209.8 235.0 261.6 289.6 318.9 349.7 381.8 415.3 450.1 486.4 524.1 DCF053DR-08DYY0...
  • Page 225 Waterflow(l/s) Unit Pressure Drop (kPa) 30 DCF082TR-13HYYV 10.2 14.0 18.3 23.2 28.6 34.5 40.9 47.8 55.2 63.2 71.6 80.6 90.1 100.1 110.6 121.6 133.1 145.2 157.7 170.8 184.4 198.4 31 DCF085TR-14HYVV 13.3 17.4 22.0 27.1 32.7 38.8 45.4 52.4 60.0 68.0 76.5 85.6 95.1 105.0 115.5 126.5 137.9 149.9 162.3 175.2 188.6 32 DCF075TR-16GPPY 10.3 14.1 18.5 23.4 28.9 34.8 41.3 48.3 55.9 63.9 72.5 81.6 91.2 101.4 112.1 123.3 135.0 147.2 160.0 173.2 187.0 201.3 33 DCF082TR-15GYYY...
  • Page 226 Technical Waterflow(l/s) Unit Pressure Drop (kPa) 52 DCF047DX-09DXY0 13.0 20.1 28.3 37.6 48.0 59.6 72.2 85.9 100.8 116.7 133.7 151.8 171.1 191.4 212.8 235.4 259.0 283.7 309.5 336.4 364.5 393.6 423.8 53 DCF049DX-09DPY0 14.6 22.6 32.0 42.6 54.5 67.7 82.2 98.0 115.1 133.5 153.2 174.2 196.5 220.1 244.9 271.1 298.5 327.2 357.2 388.5 421.1 455.0 490.2 54 DCF051DX-10DPV0 13.8 21.4 30.2 40.3 51.6 64.1 77.8 92.8 109.0 126.4 145.0 164.8 185.9 208.2 231.7 256.4 282.3 309.5 337.8 367.4 398.3 430.3 463.5 55 DCF053DX-10DYY0...
  • Page 227 Waterflow(l/s) Unit Pressure Drop (kPa) 79 DCF079TX-15GYYY 10.9 15.0 19.7 25.0 30.9 37.3 44.3 52.0 60.1 68.9 78.2 88.1 98.6 109.6 121.3 133.5 146.3 159.6 173.5 188.0 203.1 218.7 80 DCF082TX-16HYYV 12.3 16.1 20.3 25.1 30.2 35.9 42.0 48.5 55.5 63.0 70.9 79.2 88.0 97.3 107.0 117.2 127.8 138.9 150.4 162.4 174.8 81 DCF078TX-17GPYY 10.2 14.1 18.5 23.5 29.1 35.2 41.8 49.0 56.8 65.1 73.9 83.3 93.2 103.7 114.7 126.3 138.4 151.0 164.2 178.0 192.3 207.1 82 DCF082TX-18GYYY...
  • Page 228: Dcc Unit Pressure Drop

    Technical Waterflow(l/s) Unit Pressure Drop (kPa) DCC047DR-08EPV0 11.0 14.8 19.2 24.2 29.7 35.7 42.4 49.5 57.2 65.5 74.3 83.7 93.6 104.1 115.2 126.7 138.9 151.6 164.8 178.6 192.9 DCC049DR-08EYY0 11.0 14.8 19.2 24.2 29.7 35.7 42.4 49.5 57.2 65.5 74.3 83.7 93.6 104.1 115.2 126.7 138.9 151.6 164.8 178.6 192.9 100 DCC049DR-10EPV0 11.0 14.9 19.3 24.3 29.9 36.0 42.7 49.9 57.7 66.0 74.9 84.4 94.4 104.9 116.1 127.7 140.0 152.8 166.1 180.0 194.5 101 DCC051DR-10EYY0...
  • Page 229 Waterflow(l/s) Unit Pressure Drop (kPa) 125 DCC061DR-14DVW0 2.2 10.3 13.1 16.2 19.5 23.2 27.2 31.5 36.1 41.0 46.1 51.6 57.4 63.5 69.9 76.5 83.5 90.8 98.4 106.3 114.5 126 DCC065DR-14DWW0 3.0 11.0 14.7 18.8 23.3 28.4 33.9 39.8 46.3 53.2 60.6 68.4 76.7 85.5 94.8 104.5 114.7 125.4 136.5 148.1 160.2 172.7 127 DCC068TR-13GPPY 10.2 13.0 16.1 19.4 23.1 27.1 31.3 35.9 40.8 46.0 51.4 57.2 63.3 69.6 76.3 83.3 90.5 98.1 106.0 114.1 128 DCC072TR-14GPYY...
  • Page 230 Technical Waterflow(l/s) Unit Pressure Drop (kPa) 152 DCC077TX-16GYYV 11.1 13.4 15.9 18.5 21.4 24.5 27.8 31.3 34.9 38.8 42.9 47.2 51.6 56.3 61.1 66.2 71.5 76.9 153 DCC074TR-17GPYY 11.2 13.3 15.6 18.0 20.7 23.4 26.4 29.5 32.8 36.3 39.9 43.7 47.7 51.8 56.2 60.6 65.3 154 DCC079TR-18GYYY 10.7 12.9 15.2 17.8 20.5 23.5 26.6 29.9 33.4 37.1 41.0 45.0 49.3 53.7 58.3 63.1 68.1 73.3 155 DCC082TR-17GYVV...
  • Page 231: Strainer Pressure Drop

    Chillers DeltaChill™ Air Cooled and FreeCool Strainer Pressure Drop 100% Water 5" 6" Flowrates l/s 20% Ethylene Glycol 5" 6" Flowrates l/s Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 232: Pump Performance Curves

    DeltaChill™ Air Cooled and FreeCool Chillers Pump Performance Curves Standard Standard Head High Head Head High Head DCF046DR-07DXY0 DCF101TR-21HVWW DCF048DR-07DPY0 DCF103TR-21HWWW DCF051DR-08DPV0 DCF047DX-09DXY0 DCF053DR-08DYY0 DCF049DX-09DPY0 DCF049DR-09DXY0 DCF051DX-10DPV0 DCF051DR-09DPY0 DCF053DX-10DYY0 DCF053DR-10DPV0 DCF049DX-11DXY0 DCF055DR-09DYV0 DCF051DX-11DPY0 DCF055DR-10DYY0 DCF053DX-12DPV0 DCF058DR-10DVV0 DCF055DX-11DYV0 DCF062DR-10FVW0 DCF055DX-12DYY0 DCF065DR-10FWW0...
  • Page 233 Chillers DeltaChill™ Air Cooled and FreeCool Pump Performance Curves Standard Standard Head High Head Head High Head DCC047DR-08EPV0 144 DCC049DX-10EYY0 DCC049DR-08EYY0 145 DCC049DX-12EPV0 100 DCC049DR-10EPV0 146 DCC051DX-12EYY0 101 DCC051DR-10EYY0 147 DCC053DX-11DYV0 102 DCC052DR-09DYV0 148 DCC056DX-12DVV0 103 DCC056DR-10DVV0 149 DCC058DX-12DVW0 104 DCC058DR-10DVW0...
  • Page 234 DeltaChill™ Air Cooled and FreeCool Chillers Pump Performance Curves Flow rate l/s Flow rate l/s Pump Curves based upon water Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 235 Chillers DeltaChill™ Air Cooled and FreeCool Pump Performance Curves Flow rate l/s Correction Factors Ethylene Glycol Glycol in System / 10% / -4°C 20% / -9°C 30% / -15°C 40% / -23°C Freezing Point ºC Cooling Duty 0.98 0.97 0.95 0.93...
  • Page 236 All Airedale products or parts (non consumable) supplied for installation within the UK mainland and commissioned by an Airedale engineer, carry a full Parts & Labour warranty for a period of 12 months from the date of commissioning or 18 months from the date of despatch, whichever is the sooner.
  • Page 237: Appendix - Ecodesign

    Chillers DeltaChill™ Air Cooled and FreeCool Appendix - Ecodesign The following tables of Ecodesign data is based on the following common information: SEPR (Seasonal Energy Performance Ratio) ● Type of Condensing - Air Cooled Standard EC Fans. ● Refrigerant Fluid - R410A.
  • Page 238: Technical Data Dcc

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 239: Dcc056Dr-10Dvv0, Dcc058Dr-10Dvw0, Dcc061Dr-10Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 240: Dcc065Tr-10Gppy, Dcc069Tr-11Gpyy, Dcc074Tr-12Gyyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 241: Dcc077Tr-13Gyyv, Dcc080Tr-14Gyvv, Dcc083Tr-15Gvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 242: Dcc086Tr-15Gvvw, Dcc088Tr-15Gvww, Dcc091Tr-15Gwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 243: Dcc049Dr-10Epv0, Dcc051Dr-10Eyy0, Dcc054Dr-11Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 244: Dcc058Dr-12Dvv0, Dcc060Dr-12Dvw0, Dcc063Dr-12Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 245: Dcc031Dr-08Blm0, Dcc032Dr-06Bmm0, Dcc033Dr-08Bmm0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 246: Dcc080Tr-16Gyyv, Dcc082Tr-17Gyvv, Dcc085Tr-18Gvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 247: Dcc088Tr-18Gvvw, Dcc091Tr-18Gvww, Dcc094Tr-18Gwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 248: Dcc050Dr-12Epv0, Dcc052Dr-12Eyy0, Dcc056Dr-13Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 249: Dcc059Dr-14Dvv0, Dcc061Dr-14Dvw0, Dcc065Dr-14Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 250: Dcc070Tr-16Gppy,Dcc074Tr-17Gpyy, Dcc079Tr-18Gyyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 251: Dcc082Tr-19Gyyv, Dcc084Tr-20Gyvv, Dcc087Tr-21Gvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 252: Dcc015Dx-04Adf0, Dcc016Dx-04Ajj0, Dcc018Dx-04Bjk0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 253: Dcc048Dx-10Epv0, Dcc049Dx-10Eyy0, Dcc053Dx-11Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 254: Dcc056Dx-12Dvv0, Dcc058Dx-12Dvw0, Dcc061Dx-12Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 255: Dcc066Tx-13Gppy, Dcc070Tx-14Gpyy, Dcc075Tx-15Gyyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 256: Dcc077Tx-16Gyyv, Dcc080Tx-17Gyvv, Dcc083Tx-18Gvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 257: Dcc086Tx-18Gvvw, Dcc088Tx-18Gvww, Dcc091Tx-18Gwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 258: Dcc049Dx-12Epv0, Dcc051Dx-12Eyy0, Dcc054Dx-13Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 259: Dcc057Dx-14Dvv0, Dcc060Dx-14Dvw0, Dcc063Dx-14Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 260: Dcc068Tx-16Gppy, Dcc072Tx-17Gpyy, Dcc077Tx-18Gyyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 261: Dcc080Tx-19Gyyv, Dcc082Tx-20Gyvv, Dcc085Tx-21Gvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 262: Dcc088Tx-21Gvvw, Dcc091Tx-21Gvww, Dcc094Tx-21Gwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 263: Dcc050Dx-14Epv0, Dcc052Dx-14Eyy0, Dcc055Dx-15Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 264: Dcc059Dx-16Dvv0, Dcc061Dx-16Dvw0, Dcc065Dx-16Dww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 265: Dcc070Tx-19Gppy Dcc074Tx-20Gpyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 266: Dcc079Tx-21Gyyy Dcc081Tx-22Gyyv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 267: Technical Data Dcf

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 268: Dcf053Dr-08Dyy0, Dcf055Dr-09Dyv0, Dcf058Dr-10Dvv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 269: Dcf062Dr-10Fvw0, Dcf065Dr-10Fww0, Dcf069Tr-10Gppy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 270: Dcf074Tr-11Gpyy, Dcf079Tr-12Gyyy, Dcf082Tr-13Hyyv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 271: Dcf085Tr-14Hyvv, Dcf090Tr-15Hvvv, Dcf092Tr-15Hvvw

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 272: Dcf094Tr-15Hvww, Dcf096Tr-15Hwww, Dcf049Dr-09Dxy0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 273: Dcf051Dr-09Dpy0, Dcf053Dr-10Dpv0, Dcf055Dr-10Dyy0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 274: Dcf058Dr-11Dyv0, Dcf060Dr-12Dvv0, Dcf065Dr-12Fvw0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 275: Dcf068Dr-12Fww0, Dcf073Tr-13Gppy, Dcf078Tr-14Gpyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 276: Dcf082Tr-15Gyyy, Dcf085Tr-16Hyyv, Dcf088Tr-17Hyvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 277: Dcf093Tr-18Hvvv, Dcf095Tr-18Hvvw, Dcf098Tr-18Hvww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 278: Dcf100Tr-18Hwww, Dcf051Dr-11Dxy0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 279: Dcf055Dr-12Dpv0, Dcf057Dr-12Dyy0, Dcf059Dr-13Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 280: Dcf062Dr-14Dvv0, Dcf066Dr-14Fvw0, Dcf070Dr-14Fww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 281: Dcf075Tr-16Gppy, Dcf080Tr-17Gpyy, Dcf085Tr-18Gyyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 282: Dcf088Tr-19Hyyv, Dcf090Tr-20Hyvv, Dcf095Tr-21Hvvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 283: Dcf098Tr-21Hvvw, Dcf101Tr-21Hvww, Dcf103Tr-21Hwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 284: Dcf047Dx-09Dxy0, Dcf049Dx-09Dpy0, Dcf051Dx-10Dpv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 285: Dcf053Dx-10Dyy0, Dcf055Dx-11Dyv0, Dcf058Dx-12Dvv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 286: Dcf062Dx-12Fvw0, Dcf065Dx-12Fww0, Dcf069Tx-13Gppy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 287: Dcf075Tx-14Gpyy, Dcf079Tx-15Gyyy, Dcf082Tx-16Hyyv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 288: Dcf085Tx-17Hyvv, Dcf089Tx-18Hvvv, Dcf092Tx-18Hvvw

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 289: Dcf098Tr-21Hvvw, Dcf101Tr-21Hvww, Dcf103Tr-21Hwww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 290: Dcf051Dx-11Dpy0, Dcf053Dx-12Dpv0, Dcf055Dx-12Dyy0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 291: Dcf057Dx-13Dyv0, Dcf060Dx-14Dvv0, Dcf064Dx-14Fvw0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 292: Dcf047Dx-09Dxy0, Dcf049Dx-09Dpy0, Dcf051Dx-10Dpv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 293: Dcf082Tx-18Gyyy, Dcf085Tx-19Hyyv, Dcf088Tx-20Hyvv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 294: Dcf092Tx-21Hvvv, Dcf095Tx-21Hvvw, Dcf097Tx-21Hvww

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 295: Dcf099Tx-21Hwww, Dcf050Dx-13Dxy0, Dcf053Dx-13Dpy0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 296: Dcf055Dx-14Dpv0, Dcf057Dx-14Dyy0, Dcf059Dx-15Dyv0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 297: Dcf061Dx-16Dvv0, Dcf066Dx-16Fvw0, Dcf069Dx-16Fww0

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 298: Dcf074Tx-19Gppy, Dcf079Tx-20Gpyy

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 299: Dcf084Tx-21Gyyy, Dcf087Tx-22Hyyv

    (3) Performance data (Nett) is supplied in accordance with EN14511-1:2013. (4) Performance data (Gross) is supplied excluding absorbed pump power as per EN14511-1:2013. (5) All performance data based upon standard waterside configuration. (6) Please contact Airedale regarding Non Compliant selections Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 300 DeltaChill™ Air Cooled and FreeCool Chillers Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 301 Chillers DeltaChill™ Air Cooled and FreeCool Chiller Technical Manual 7267818 V1.13.0_01_2018...
  • Page 302 Head Offi ce Airedale International Air Conditioning Ltd Leeds Road Rawdon Leeds LS19 6JY Tel: +44 (0) 113 2391000 Fax:+44 (0) 113 2507219 E-mail enquiries@airedale.com Web www.airedale.com TM_7267818_DeltaChill_510-1000Kw_V1.13.0_01_2018...

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