mechanical services specification
DESCRIPTION
Mechanical SpecificationTRANSCRIPT
Etihad Pier and Concourse Interim Facility Abu Dhabi International Airport
65% DESIGN SPECIFICATION 18th February 2006
VOLUME 3D MECHANICAL
Part 5 – Mechanical Services Particular Specification
WSP BUILDINGS BUCHANAN HOUSE
24-30 HOLBORN LONDON
EC1N 2HS TEL: 020 7314 5000 FAX: 020 7314 5001
http://www.wspgroup.com
Issue/revision Conformed to
Contract issue
Remarks Contract
Date 2nd July 2006
Prepared by Himanshu Kotak
Signature
Checked by Nigel Williams
Signature
Project number 24820283
File reference 24820283/7/Main 65% Specification/Volume 3D/Part 5
VOLUME 3D CONTENTS 5 PART 5 - MECHANICAL SERVICES PARTICULAR SPECIFICATION
5.1 GENERAL ................................................................................................................................... 5-1 5.1.1 Smoke Control ........................................................................................................................... 5-1 5.1.2 Carbon Monoxide Monitoring .................................................................................................... 5-2 5.1.3 Multi – Split System for Pier Fixed Links ................................................................................... 5-2 5.1.4 Multi – Split Heat Pump System for Two Huts (Apron Level).................................................... 5-2 5.1.5 Multi – Split Heat Pump System for three Huts (Apron Level) .................................................. 5-3
5.2 Mechanical Ventilation – System Description ........................................................................ 5-3 5.2.1 The Pier building........................................................................................................................ 5-3 5.2.2 Fixed Links................................................................................................................................. 5-4 5.2.3 The Terminal building ................................................................................................................ 5-4
5.3 Comfort Cooling – System Description .................................................................................. 5-6 5.3.1 The Pier building........................................................................................................................ 5-6 5.3.2 Pier connector............................................................................................................................ 5-7 5.3.3 The Terminal building ................................................................................................................ 5-7
5.4 Energy Centre – Chilled Water Generation............................................................................. 5-8 5.4.1 General ...................................................................................................................................... 5-8 5.4.2 Chilled Water Generation Plant ................................................................................................. 5-9 5.4.3 Cooling to Energy Centre .......................................................................................................... 5-9
5.5 APPENDIX 1 ............................................................................................................................. 5-11 5.5.1 PREFERRED SUPPLIERS ..................................................................................................... 5-11
5.6 APPENDIX 2 ............................................................................................................................. 5-18 5.6.1 PIER EQUIPMENT SCHEDULES........................................................................................... 5-18
5.7 APPENDIX 3 ............................................................................................................................. 5-64 5.7.1 TERMINAL EQUIPMENT SCHEDULES................................................................................. 5-64
5.8 APPENDIX 4 ........................................................................................................................... 5-135 5.8.1 SUMMARY & SCHEDULE FOR AHU’s AND FCU’s............................................................. 5-135
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5.1 GENERAL
PLEASE NOTE: ON THE LATEST ARCHITEC’S DRAWING NO. GA – 00B18 REV P04, NEW SOC AND CRISIS MANAGEMENT OFFICE HAVE BEEN ADDED. THESE CHANGES ARE NOT REFLECTED ON THE SERVICES DRAWINGS DUE TO THE LATE ADDITION. THE CONTRACTOR SHALL ALLOW FOR ALL BUILDING SERVICES TO BE INSTALLED WITHIN THESE AREAS, BASED UPON SIMILAR ROOM DATA SHEETS. This section of the specification covers the provision of the Mechanical Engineering Services, which are included in the following sections:-
• Mechanical Ventilation • Comfort Cooling • Energy Centre – Chilled Water
This section of the Specification should be read in conjunction with the following documentation:-
• Volume 2 Drawings • Volume 3 Specifications, with particular regard to:-
o Volume 3D Part 1: General Conditions o Volume 3D Part 2: Description of Works
o Volume 3D Part 3: Mechanical Services – Workmanship and materials.
Together they cover the design, manufacture, supply, delivery to site, erection, testing, setting to
work and commissioning of all equipment, accessories and controls. It shall be the tenderer’s responsibility to seek clarification, if needed, where there is ambiguity in
the specification. Diversity has been applied in the occupancy. No further diversity figure is to be applied. 5.1.1 Smoke Control
The Fire Strategy shall be developed during the next design stage to establish the extract requirements for the hot smoke systems.
On detection of a fire, the hot smoke extract system shall provide a smoke free zone to facilitate egress from the building.
Mechanical Extract Systems for TERMINAL BUILDING (Departures & Mezzanine levels)
Mechanical extract systems including extract fans, extract ductwork, volume control dampers, shut off dampers, sand trap louvers, controls linked to fire detection system will be provided for all circulation spaces and retail areas.
On receipt of a signal from the fire alarm system the smoke extract fan, relevant to the area, will start and dump the hot smoke into the atmosphere at a high level via fire rated ductwork. The make up air fan will start simultaneously and will supply air from an adjacent area.
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All equipment shall be designed and rated for hot smoke extract and the system shall operate automatically in the event of a fire alarm.
The ductwork shall be fire rated wherever it crosses areas outside of the extract fire zone.
Mechanical Extract Systems for PIER BUILDING and TERMINAL BUILDING (Arrivals level)
Motorised Ventilators (Both for smoke extract and make up air), mounted in the roof, controlled and linked to fire detection system will be provided for Pier Building and all circulation spaces and retail areas in Terminal Building at Arrivals Level and double height spaces.
On receipt of a signal from the fire alarm system the smoke extract ventilator, installed in the roof, will open and let the hot smoke pass into the atmosphere. The make up air ventilator, relevant to the area, will open simultaneously and will let air in from atmosphere.
The ventilators shall be designed to prevent sand ingress and be thermally and acoustically designed to meet the specification requirements of the roof.
5.1.2 Carbon Monoxide Monitoring
Diesel vehicles will be used in the baggage hall and so carbon monoxide monitors shall be provided to continuously monitor the air quality. The monitors shall comprise of NO2 & CO2 monitors at low level and NO and CO monitors at higher level. The monitors shall provide total coverage of the baggage hall and be positioned in accordance with the manufacturer’s recommendations. The monitors will be connected to the BMS to sound an alarm if the contamination level exceeds a pre set limit.
5.1.3 Multi – Split System for Pier Fixed Links
A multi–split twin system (cooling only), comprising of the following, will be provided for plant room and stairs of each fixed link.
Internal Unit
A wall mounted internal unit having a capacity of 1.8 KW will be installed in each plant room and stairs area. Both internal units will be connected to a single condensing unit.
Condensing (Outdoor) Unit
A condensing unit matching the capacity of two internal units will be mounted on a suitable plinth on top of the roof.
Interconnecting pipe work, necessary fittings, controller and fixtures shall be provided for the operation of the complete system.
Testing and commissioning of each system, at the end of installation, will be carried out in accordance with CIBSE guide, British standard and manufacturer’s recommendations.
5.1.4 Multi – Split Heat Pump System for Two Huts (Apron Level)
A multi – split Inverter Heat Pump twin system, comprising of the following, will be provided for two huts.
Internal Unit
A wall mounted internal unit having a capacity of 1.5 KW will be installed in each hut. Both internal units will be connected to a single condensing unit.
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Condensing (Outdoor) Unit
A condensing unit matching the capacity of two internal units will be installed on a suitable plinth in the adjacent mechanical plant room.
Interconnecting pipe work, necessary fittings, controller and fixtures shall be provided for the operation of the complete system.
Testing and commissioning of the system, at the end of installation, will be carried out in accordance with CIBSE guide, British standard and manufacturer’s recommendations.
5.1.5 Multi – Split Heat Pump System for three Huts (Apron Level)
A multi – split Inverter Heat Pump system, comprising of the following, will be provided for three huts.
Internal Unit
A wall mounted internal unit having a capacity of 1.5 KW will be installed in each hut. All three internal units will be connected to a single condensing unit.
Condensing (Outdoor) Unit
A condensing unit matching the capacity of three internal units will be installed on a suitable plinth in the adjacent mechanical plant room.
Interconnecting pipe work, necessary fittings, controller and fixtures will be provided for the operation of the complete system.
Testing and commissioning of the system, at the end of installation, will be carried out in accordance with CIBSE guide, British standard and manufacturer’s recommendations.
5.2 Mechanical Ventilation – System Description The building addresses three separate demarcation areas:
• The Pier building – Apron level, Departures lounge level and Arrivals corridor level. • Fixed Links - Link walkways from the Departures lounges and the Arrivals corridor.
• The Terminal building – Apron level, Mezzanine level, Departures level and Arrivals
level facilities.
5.2.1 The Pier building
The Pier building has four AHU plant rooms (Nos. 5 to 8) which are located at Apron level. The plant rooms house dedicated AHU’s that provides primary fresh air to the Pier building. Outside air is ducted from roof level, via sand trap louvers, down to the AHU plant rooms where it supplies each AHU. All AHU plant room will have a dedicated FCU’s to cool the plant space.
• The primary fresh air supply air handling units consisting of motorized dampers, panel and bag filters, total energy thermal wheel, cooling coil and sensible only thermal wheel, supply and extract fans and air side attenuators. The air will extract at Apron level via acoustic louvers.
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Apron level The Apron level comprises of W/C’s, pray rooms, AHU plant rooms, electrical rooms, IT rooms, ramp accommodation, Arrivals coaching lobby and Departures lobbies. AHU’s supply conditioned air to W/C’s, pray rooms, ramp accommodation, Arrivals coaching lobby and Departures lobbies. Contaminated air return to AHU’s from where it will be dumped into the atmosphere, via individual ductwork from the AHU’s and acoustic louvers in the plant rooms. Departures Level The Departures level comprises of departure lounges which are all interconnected, retail units, gate access to the fixed links and stair / lifts to access toilet facilities which are located at Apron level. The departure lounges, at level 1 will have primary fresh air supplied, from the floor below, to the underside of the floor mounted Comfort Cooling Units (CCU’S). These are mounted on plinths which enable the fresh air to mix with the recirculated air, before being ducted to high level and supplying conditioned air to the Departure lounges. Extract air, from the Departures lounges will be located within the back wall services zone, taking stale air back to the AHU’s within the plant rooms, located at Apron level. Arrivals Level The Arrivals level comprises an Arrivals corridor, Toilets and gate access to the fixed links. The Arrivals corridor has primary fresh air and extract supplied, from Apron level. Primary air will be ducted to supply grilles in the false ceiling. Extract air will be from extract grilles, connected to ductwork within the back wall services zone.
5.2.2 Fixed Links
Ventilation System for Fixed Links will be designed and installed as part of ‘Link & Bridge’ special package.
5.2.3 The Terminal building
There are four AHU plant rooms (Nos. 1 to 4) in the Terminal Building which are located at Apron level. The plant rooms’ house dedicated AHU’s that provides conditioned fresh air to the building. Outside air is ducted from roof level down to the AHU plant rooms, via sand trap louvers, where it supplies each AHU. All AHU plant rooms will have dedicated FCU’s to cool the plant space. There are two types of AHU’s:
o The total fresh air supply air handling units consisting of motorized dampers, panel and bag filters, total energy thermal wheel, cooling coil and sensible only thermal wheel, supply and extract fans and air side attenuators. The air will extract at Apron level via louvers.
o The partial fresh air supply air handling units consisting of motorized dampers, panel
and bag filters, thermal wheel, cooling coil, electric heater battery, supply and extract fans and air side attenuators. The air will extract at Apron level via louvers.
Apron Level
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The Apron level comprises of baggage handling areas, bonded store, mechanical plant rooms, IT and Electrical Sub-stations. The baggage handling areas will be supplied fresh air at the rate of six air changes per hour from a number of AHU’s housed in the plant rooms. Contaminated air returns to AHU’s from where it will be dumped into the atmosphere, via individual ductwork from the AHU’s and acoustic louvers in the plant rooms. Mezzanine Level The Mezzanine level comprises of a canteen, prayer rooms, toilets, kitchen, staff room, tea making area, offices and lost & found store. AHU’s supply conditioned air to all areas. Contaminated return air will be dumped into the atmosphere, via individual ductwork from the AHU’s and acoustic louvers in the plant rooms.
The toilets will be supplied fresh air at the rate of six air changes per hour where as the kitchen will be supplied fresh air at the rate of twenty air changes per hour and it will have its own exhaust fan.
The canteen, offices and prayer rooms will be supplied fresh air at the rate of 8 l/s/person (minimum). The offices will have fresh air from the AHU’s via FCU’s. Departure Level The departure level comprises of check-in lobby, check-in, security search & passport control, custom area, meet & greet, offices, retail and retail circulation. The pre check-in lobby, check-in, security search & passport control, custom area, meet & greet, retail circulation and offices will be supplied fresh air at the rate of 8 l/s/person (minimum). The retail, retail circulation and offices will have fresh air from the AHU’s via FCU’s.
The toilets will be supplied fresh air at the rate of six air changes per hour from the AHU’s housed in the plant rooms. Stale air will be exhausted to the atmosphere, via individual ductwork from the AHU’s and acoustic louvers in the plant rooms. Arrivals Level The arrivals level comprises of arrivals circulation corridor, baggage reclaim, passport control, immigration hall, CIP areas, prayer areas, offices, toilets, sanitary & health areas & smoking rooms. Arrivals circulation corridor, baggage reclaim, passport control, immigration hall, CIP areas & prayer areas will be supplied fresh air at the rate of 8 l/s/person where as smoking rooms, sanitary & health areas will be supplied fresh air at the rate of twenty air changes per hour and will have their own exhaust fans.
The offices, lounge, food & eating areas, sanitary & health areas & smoking rooms will have fresh air from the AHU’s via FCU’s.
The toilets will be supplied fresh air at the rate of six air changes per hour from the AHU’s housed in the plant rooms. Stale air will be exhausted to the atmosphere, via individual ductwork from the AHU’s and acoustic louvers in the plant rooms.
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5.3 Comfort Cooling – System Description
The building addresses three separate demarcation areas:
• The Pier building – Apron level, Departures lounge level and Arrivals corridor level.
• Fixed Links - Link walkways from the Departures lounges and the Arrivals corridor.
• The Terminal building – Apron level, Mezzanine level, Departures level and Arrivals level facilities.
5.3.1 The Pier building
Apron level
The Apron level comprises of W/C’s, pray rooms, AHU plant rooms, electrical rooms, IT rooms, ramp accommodation, Arrivals coaching lobby and Departures lobbies.
The Ramp accommodation, Arrivals lobby and Departures lounges will be provided comfort cooling from Fan Coil Units, mounted within the false ceiling, and ducted to supply grilles installed within the false ceiling. These areas will have primary fresh air supplied to the back of the FCU’s. All ceiling mounted FCU’s will have condensate drains. Mechanical plant rooms are cooled by the FCU’s installed in the plant rooms. The W/C’s and pray rooms will be cooled from a ducted fresh air system, supplying primary fresh air to the space. The heat generated in electrical and IT rooms will be taken away by the dedicated FCU’s allocated to the areas. IT rooms will have 100 % standby units where as Electrical Sub-stations will have 50 % of the load as standby units.
Departures Level The Departures level comprises of departure lounges which are all interconnected, retail units, gate access to the fixed links and stair/ lifts to access toilet facilities which are located at Apron level.
Comfort cooling to the Departures lounges is provided from floor standing Comfort Cooling Units (CCU’s). These units are recessed into the rear wall services void. The floor standing CCU’s will be mounted on plinths where primary fresh air is ducted into; the primary air is supplied from the floor below. Chilled air and fresh air mixes and is then ducted to high level, within the rear wall services void, of the departure lounges where it discharges, through adjustable drum louvers, to the occupied space. The CCU’s are to incorporate casing attenuation to reduce noise break out from the units, room side attenuators and upgraded fans to handle the additional resistance from the associated attenuators, ductwork distribution and terminal drum louvers. Return air from the Departures lounges re-circulates through the CCU’s through louvered openings that encase the CCU’s; the return air re-enters the CCU’s at low velocity. The CCU’s have condensation drains which drains to the level below. The CCU’s operate on a compensated chilled water circuit that supplies chilled water, at a higher temperature. Arrivals Level The Arrivals level comprises an Arrivals corridor; W/C’s and gate access to the fixed links.
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The arrivals corridor has floor standing Fan Coil Units which may be recessed into the rear wall services void. These FCU’s provide chilled air to the Arrivals corridor which is recirculated through the units. All FCU’s have condensate drains, draining to Apron level.
5.3.2 Pier connector Comfort Cooling System for Fixed Links will be designed and installed as part of ‘Link & Bridge’ special package.
5.3.3 The Terminal building
Apron level The Apron level comprises of baggage handing areas, bonded store, AHU plant rooms, electrical rooms and IT rooms. The bonded store and baggage handling areas will be cooled from a ducted fresh air system, supplying conditioned fresh air to the space. As the return air from baggage handling areas is contaminated with smoke it will be dumped into the atmosphere, after recovering the energy, via individual ductwork from the AHU’s and acoustic louvers. Twin wheel technology is adopted for the AHU’s. The energy components of AHU’s will consist of total energy thermal wheel, cooling coil and sensible only thermal wheel thereby reducing the energy demand by half.
The pant rooms will have background cooling provided from Fan Coil Units; these units provide chilled air into the rooms, which is re-circulated through the units. Fresh air is supplied to AHU’s by individual ductwork via sand trap louvers installed at roof level. The heat generated in electrical and IT rooms will be taken away by the dedicated FCU’s allocated to the areas. IT rooms will have 100 % standby units where as Electrical Sub-stations will have 50 % of the load as standby units. Mezzanine level The Mezzanine level comprises of a canteen, prayer rooms, toilets, kitchen, staff room, tea making area, offices and lost & found store.
The canteen, toilets, kitchen and prayer rooms will be cooled from a ducted fresh air system, supplying an adjustable quantity of conditioned fresh air to the space. The offices, staff room, tea making areas will be provided comfort cooling from Fan Coil Units. These areas will have primary fresh air supplied to the back of FCU’s from AHU’s. All FCU’s will have condensate drains.
Departure level The departure level comprises of check-in lobby, check-in, security search & passport control, custom area, meet & greet, offices, retail and retail circulation.
There is an area allocated for retail which is to be developed at a later stage. AHU’s are to be included for these areas where as FCU’s are to be ignored at this stage. However capped chilled water connections will be provided for the future pipe work. Pre check-in lobby, check-in, security search & passport control, custom area, meet & greet will be cooled from a ducted fresh air system, supplying an adjustable quantity of conditioned fresh air to the space.
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The offices will be provided comfort cooling from Fan Coil Units. These areas will have primary fresh air supplied to the back of the FCU’s from AHU’s. All FCU’s will have condensate drains. The toilets will be cooled from a ducted fresh air system, supplying conditioned fresh air to the space. Contaminated return air will be dumped into the atmosphere, after recovering the energy, via individual ductwork from the AHU’s and acoustic louvers. Twin wheel technology is adopted for the AHU’s. The energy components of AHU’s will consist of total energy thermal wheel, cooling coil and sensible only thermal wheel thereby reducing the energy demand by half. Fresh air is supplied to AHU’s by individual ductwork via sand trap louvers installed at roof level. The heat generated in IT rooms will be taken away by the dedicated FCU’s allocated to the areas. IT rooms will have 100 % standby units. Arrivals level The arrivals level comprises of arrivals circulation corridor, baggage reclaim, passport control, immigration hall, CIP areas, prayer areas, offices, toilets, sanitary & health areas & smoking rooms. Arrivals circulation corridor, baggage reclaim, passport control, immigration hall, CIP areas & prayer areas will be cooled from a ducted fresh air system, supplying an adjustable quantity of conditioned fresh air to the space. The toilets will be cooled from a ducted fresh air system, supplying conditioned fresh air to the space. Contaminated return air will be dumped into the atmosphere, after recovering the energy, via individual ductwork from the AHU’s and extract louvers. Smoking rooms, sanitary & health areas will have their own exhaust fans extracting contaminated air directly from these rooms.
The offices, sanitary & health areas & smoking rooms will be provided comfort cooling from Fan Coil Units, mounted within the false ceiling, and ducted to supply grilles installed in the false ceiling. These areas will have primary fresh air supplied to the back of the FCU’s from AHU’s. All ceiling mounted FCU’s will have condensate drains. Fresh air is supplied to AHU’s by individual ductwork via sand trap louvers installed at roof level. There is an area allocated for food and beverages which is to be developed at a later stage. AHU’s is to be included for this area where as FCU’s are to be ignored at this stage. However capped chilled water connections will be provided for the future pipe work.
5.4 Energy Centre – Chilled Water Generation 5.4.1 General
The Energy Centre will be located adjacent to the new Pier Building and will provide a primary chilled water generation plant to serve the cooling requirements for the new Terminal Extension and Pier Building. The building will be comprised of two levels; Ground Level and Level 1. The chillers will be located at Ground Level and the Heat rejection plant on the upper level.
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5.4.2 Chilled Water Generation Plant
Liquid Chillers: The chilled water will be generated by a total of 4no water cooled two-stage liquid chillers, each providing a cooling capacity of 3516 kW. The total cooling capacity will be 10548 kW. A maximum of 3no chillers will satisfy the cooling load of the new Terminal and Pier, and the fourth chiller will be a standby machine. An operational protocol provided by the BMS will rotate the operation of the standby chiller to maintain equal running hours for the compressors. A lead-lag change over sequence will also be incorporated for the 3no duty machines. The compressor motors shall operate on a high voltage supply of 11000 Volts. The chillers shall operate with R134A refrigerant, and a refrigerant storage and recycling system will be provided. The chillers shall include shell and tube evaporators and condensers. The chillers will operate on chilled water temperatures of 6ºC leaving and 12ºC return. The chilled water temperature controls shall maintain a constant leaving temperature of 6ºC. The chiller shall include a microprocessor to modulate the output of the chiller in response to the chilled water return temperature. The chilled water distribution to the Terminal Building and Pier Building shall be pumped from the Energy Centre by buried flow and return pipe work. Two duty operation pumps will share the total flow volume, rated at 50% each. A third pump of equal size will be standby. The chilled water pumps will be inverter driven, although the system will be operated on a constant volume basis. The Chilled water will be distributed to 8no Air Handling Plant rooms located at Apron Level within the Terminal and Pier Buildings. All main air handling units will be provided with primary chilled water at 6ºC flow and 12ºC return. The chilled water flow to the cooling coils will be controlled by means of 3-port control valves. Plate heat exchangers will be provided in each plant room to serve the chilled water fan coil units throughout the new buildings. Fan coil units serving externally glazed areas will be provided with chilled water at 10ºC flow and 16ºC return. The internal area fan coil units will be fed by chilled water at 6ºC and 11ºC. Heat Rejection: Heat rejection shall be achieved by means of dry air coolers. The dry air coolers will be located on the upper open plant area. 4No dry coolers will operate together in parallel, with each chiller. Each chiller will have a dedicated pumped condenser water circuit. The dry cooler control system shall include fan cycling to operate in response to the condenser load requirements.
5.4.3 Cooling to Energy Centre
Chilled water will be piped to the fresh air AHU serving the Office, Workshops, Kitchen, W/C’s and Corridor areas.
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Chilled water fan coil units serving the rest of the areas will be provided with chilled water via plate heat exchangers, as indicated on the chilled water schematic.
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5.5 APPENDIX 1
5.5.1 PREFERRED SUPPLIERS
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Preferred Suppliers
Equipment Description Manufacturers Manufacturers Manufacturers Manufacturers Manufacturers
Pipe Hangers Grinnell (T:02-6727488)
Diamond (Ramesh Hira T:04-3478115)
Expansion Joints Flexonics Strainers Spirax Sarco Thermometers Trerice Weiss Hunter Gauges Trerice Weiss Hunter Fire Rated Access Panels
Panel and Louvre Co Ltd
Fire stopping Material Nullifire Ltd PPR Pipes Upnor-Germany Aquatherm Wefatherm Pex Pipe Comap-France JRG Sanipex Viega Wirsbro UPVC pipes and fittings Hepworth Terrain
Copper pipes and fittings Crane IMI Yorkshire Kembla Wednesbury
Pipe Flexible Connectors for Chillers, Pumps
Metraflex-U.S.A. (Cheqpoint T:04-2830095)
Proco-U.S.A, Trojan-Japan.
Motors Westinghouse Reliance Siemens ABB Starters Cutler Hammer Motor Control Centres Cutler Hammer
Variable Speed Drives Graham Company
Valves See Section Control Valves Crane Hattersley T&A Automatic Air Vents Spirax Sarco Armstrong Manual Vents Bell & Gossett Amtrol Dole Expansion Tanks Bell & Gossett Amtrol Taco Air Separators Bell & Gossett Amtrol Taco
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Equipment Description Manufacturers Manufacturers Manufacturers Manufacturers Manufacturers
Chemical Water Feeders Mogul
Strainers Crane Mueller (Unigulf T:04-2223697)
Pressure Gauges Trerice Weiss Ametek Ashcroft
Thermometers Trerice Weiss Mueller (Unigulf T:04-2223697)
Insulated Couplings Epco Lochinvar
Test Plugs Peterson Sisco (Ramesh Hira T:04-3478115)
Piping Identification Seton Brady Sigmark Wilmington Plastic
Expansion joints Pipe solutions Engineering Appliances
Meters and Gauges Trerice Weiss Ametek Ashcroft
Pipe Hangers Grinnell (T:02-6727488)
Carpenter & Paterson Pipe Shields Diamond
Sound Attenuators Trox Kinetics Vibration Isolators Trox Kinetics Acoustic Ducts Trox Kinetics Acoustic Louvres Trox Kinetics Insulation adhesive Childers Bakor Fosters Insulation sealant Childers Bakor Fosters
Insulation Owens Corning Arabian insulation Kaimann Schuller
Armstrong / Rubatex / Imoca / Knauf / Manson
Fire System Valves Crane Grinnell (T:02-6727488) Jenkins
Backflow Preventers Cla-val
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Equipment Description Manufacturers Manufacturers Manufacturers Manufacturers Manufacturers
Pressure Reducing Valves Cla-val
Siamese connections National Fire Fire Hose Cabinet Norsen Nimbus Fire Pumps Naffco Patterson Unisafe Armstrong Pullen / Aurora Sprinkler system valves Check Rite Crane Jenkins Potter
Pressure reducing valves Cla-val
Pumps Albany
Sprinkler Heads Naffco Grinnell (T:02-6727488) Reliable Viking Unisafe
Automatic dry powder extinguishers Naffco Grinnell (T:02-
6727488) Reliable Viking Unisafe
Valves Kitz Crane Jenkins check rite centreline / Red-white
Sump Pumps SA Armstrong Floor and Area Drains Zurn JR Smith Wade Roof Drains Zurn JR Smith Cleanouts Zurn JR Smith Barrett Back water Valves Zurn JR Smith Backflow Preventers Watts Trap Primers Zurn Water Hammer Arrestors PPP Inc
Water Pressure Reducing Valves Cla-val
Hose Bibb Tap Watts Wall hydrant Zurn JR Smith Post Hydrant Zurn JR Smith
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Equipment Description Manufacturers Manufacturers Manufacturers Manufacturers Manufacturers
Domestic Water Recirculation Pumps SA Armstrong ITT B&G
Grease Interceptors Zurn JR Smith
Manhole covers
Stanton, Wade, Hepworth, MCP-Italy, Ducast, RBA
Domestic Water Expansion Tank
Water Storage Tanks See section Water heaters Ariston Thelmex LPG Distribution & Gas Detection
Valves Kitz Crane Jenkins check rite
centreline / Red-white / Victaulic / Armstrong / T&A / Watts / Dahl / Dezurik
Air Vents Spirax Sarco
Expansion Tank Holden Brooke-Pullen (IMEC-T:06-5568366)
Refrigerants See section Refrigerant Valves & specialties
Pumps SA Armstrong Holden Brooke-Pullen (IMEC-T:06-5568366)
ITT Bell & Gossett lowara
Grundfos / ESPA / Aurora / TACO
Condensing Units Carrier Mitsubishi York Trane
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Equipment Description Manufacturers Manufacturers Manufacturers Manufacturers Manufacturers
Pressurisation units Bell & Gossett Holden Brooke-Pullen (IMEC-T:06-5568366)
TACO Armstrong
Water Chillers Carrier Trane York
Chilled water treatment plant Culligan Aquapack
Air Cooled Condenser Carrier Trane Fan Coil Units (chilled water)
Carrier / Eaton-Williams (IPAC) Trane / York Diffusion / VTS
Clima Euroclima Klimak
Fan Coil Units (DX) Carrier / Trane Trane VTS Clima Euroclima Klimak
Air Handling Units Carrier / York Trane / Flakt Woods
VTS Clima Euroclima Klimak
Smoke Control Equipment Colt
Fans Woods Nuaire Vent Axia Penn Greenheck Balancing Dampers Trox Titus Price Fire Rated Ductwork Cape Durasteel Flamebar Acoustic Duct Lining Fire Dampers Technalco Trox Halton Gilberts Beta Fire & Smoke Dampers Technalco Trox Halton Gilberts Beta
Smoke Dampers Technalco Trox Halton Gilberts Beta Backdraft Dampers Technalco Trox Halton Gilberts Beta Manual Volume Control Dampers Technalco Trox Halton Gilberts Beta
Pre-Insulated Ductwork
Sand Trap Louvres EMTEC Grilles, Registers & Trox Halton Krantz Gilberts
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Diffusers Electronic Controls & Monitoring Honeywell Landis & Gyr
Note This list is intended to show the range of preferred equipment suppliers associated with the Mechanical Services element of this project.
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24820283 5-18 WSP 2nd July 2006 Conformed to Contract Issue
5.6 APPENDIX 2
5.6.1 PIER EQUIPMENT SCHEDULES
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24820283 5-19 WSP 2nd July 2006 Conformed to Contract Issue
List of Pier Equipment Schedules Grilles – Schedule Ref. M20-1 Some changes / amendments have been carried out as a result of re-location of equipment, therefore please refer to AHU’s and FCU’s Schedule in Appendix 4 Air Handling Unit Ref. AHU-1P Air Handling Unit Ref. AHU-2P Air Handling Unit Ref. AHU-3P Air Handling Unit Ref. AHU-4P Air Handling Unit Ref. AHU-5P Air Handling Unit Ref. AHU-6P Air Handling Unit Ref. AHU-7P Air Handling Unit Ref. AHU-8P Air Handling Unit Ref. AHU-9P Air Handling Unit Ref. AHU-10P Air Handling Unit Ref. AHU-11P Air Handling Unit Ref. AHU-12P Air Handling Unit Ref. AHU-13P Air Handling Unit Ref. AHU-14P Air Handling Unit Ref. AHU-15P Air Handling Unit Ref. AHU-16P Air Handling Unit Ref. AHU-EC01 Fan Coil Units Comfort Cooling Units: serving Pier Building – Departures Lounges M02-1 Fan Coil Units Floor Standing Units: serving Pier Building – Arrivals Corridor M02-2 Fan Coil Units Ceiling Mounted Units: serving Pier Building – Ramp Level, Ground Floor M02-3
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24820283 5-20 WSP 2nd July 2006 Conformed to Contract Issue
Project: AUH Etihad Facility Schedule ref: M20-1 Equipment: Grilles Sheet – of - Schedule Rev: Date: Feb 2006
Ref Location Size
(mm)
Type Duty (l/s)
Noise Rating (NR)
Pressure Drop (Pa)
Model Ref
SG01-SG130 Departures High Level
957x303 Drum 1250 35 Drum Louvre size 8
Manufacturer: Gilberts or equal and approved. Additional Information: To include opposed blade damper – refer to Mechanical drawings. Finish To suit Architect’s Specification Plenum boxes Special plenum box with perforated balance plate – refer to Mechanical drawings.
Notes 1. This schedule shall be read in conjunction with the specification and drawings 2. High level drum louvers for Pier Departure Lounges, in accordance with detail shown on drawings
to suit air flow rates of dedicated CCU’s.
Version 1.0 Volume 3D, Part 5
24820283 5-21 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-1P Unit location Plantroom P00.71 Terminal Building Area served Departures Lounge, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 2.94 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 46.6 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 215.8 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 10.32 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-22 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 2.94 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 2.94 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-23 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-2P Unit location Plantroom P00.71 Terminal Building Area served Toilets at Apron Level & Arrivals Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 2.9 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 46 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 212.9 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 10.18 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-24 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 2.9 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 3.6 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-25 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-3P Unit location Plantroom P00.71 Terminal Building Area served Arrivals Corridor Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.44 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 22.8 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 105.72 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.05 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-26 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.44 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.44 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-27 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-4P Unit location Plantroom P00.60 Terminal Building Area served Departure Lounges 5&6 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 2.6 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 41.84 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 193.8 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 9.26 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-28 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 2.64 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 2.64 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-29 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-5P Unit location Plantroom P00.60 Terminal Building Area served Arrival Corridor Gate A1 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.72 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 11.4 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 52.86 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 2.53 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-30 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 0.72 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.72 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-31 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-6P Unit location Plantroom P00.43 Terminal Building Area served Toilets at Apron & Arrivals Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 3.4 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 36.8 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 249.6 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 11.93 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-32 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 3.4 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 4.25 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-33 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-7P Unit location Plantroom P00.43 Terminal Building Area served Ramp Accommodation Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.28 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 20.3 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 93.98 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 4.49 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-34 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.28 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.28 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-35 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-8P Unit location Plantroom P00.43 Terminal Building Area served Arrival Corridor Gates 2, 3, & 4 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.8 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 28.53 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 132.15 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.32 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-36 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.8 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.8 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-37 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-9P Unit location Plantroom P00.43 Terminal Building Area served Departures Lounges 6, 7, & 8 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 4.79 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 75.9 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 351.7 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 16.8 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-38 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 4.79 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 4.79 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-39 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-10P Unit location Plantroom P00.18 Terminal Building Area served Departures Lounges 8 & 9 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 3.45 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 54.69 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 253.3 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 12.1 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-40 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 3.45 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 3.45 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-41 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-11P Unit location Plantroom P00.18 Terminal Building Area served Toilets Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.6 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 9.5 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 44 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 2.1 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-42 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 0.6 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 0.75 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-43 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-12P Unit location Plantroom P00.18 Terminal Building Area served Arrivals Corridor Gates 4&5 Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.08 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 17.1 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 79.3 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.79 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-44 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.08 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.08 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-45 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-13P Unit location Plantroom 4 Terminal Building Area served Arrivals Lobby, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.72 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 11.4 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 52.86 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 2.53 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-46 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 0.72 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 0.72 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-47 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-14P Unit location Plantroom 4 Terminal Building Area served Departures Lounge, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.7 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 26.9 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 124.8 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.97 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-48 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-49 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-15P Unit location Plantroom 4 Terminal Building Area served Toilets, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.6 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 25.36 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 117.47 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.62 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-50 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.6 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 2.1 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-51 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-16P Unit location Plantroom 4 Terminal Building Area served Departures Lounge D1, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.92 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 30.4 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 140.97 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.74 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-52 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.92 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.92 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-53 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-EC01 Unit location Mezz Plantroom, Energy Centre Area served Energy Centre Plant Areas & Accommodation Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 4.24 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 67 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 311.3 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.0 Water temperature off ° C 12 Water flow rate kg/s 12.4 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-54 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 4.24 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 3.4 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-55 WSP 2nd July 2006 Conformed to Contract Issue
Some changes / amendments have been carried out as a result of re-location of equipment, therefore please refer to AHU’s and FCU’s Schedule in Appendix 4 Schedule Ref. M02-1 Fan Coil Units – Comfort Cooling Units: serving Pier Building – Departures Lounge Water temperatures Primary air supply condition Electrical supply External static to unit 250 Pa Heating flow - Dry bulb 15ºC Phase 3 Ø Minimum supply air temperature 15ºC Heating return - Wet bulb Frequency 50Hz Integral condensate pump Yes Chilled flow 10ºC Voltage 400V Nominal flow capacity Chilled return 16ºC Head
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensi
ble (w)
Total (w) °C RH (%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR
Model ref
CCU 1 Pier – Departures Lounge 58000 23 n/a 15000 23 yes 2.31 n/a 5700 low 40 IPAC 80-2 CCU 2 (Refer to layout drawings for CCU 3 Locations of units CCU1-26) CCU 4 CCU 5 CCU 6 CCU 7 CCU 8 CCU 9 CCU 10 CCU 11 CCU 12 CCU 13 CCU 14 CCU 15 CCU 16 CCU 17 CCU 18 CCU 19 CCU 20 CCU 21 CCU 22 CCU 23
Version 1.0 Volume 3D, Part 5
24820283 5-56 WSP 2nd July 2006 Conformed to Contract Issue
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensible
(w) Total (w) °C RH
(%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR)
Model ref
CCU 24 CCU 25 CCU 26 Manufacturer: or equal and approved
Acoustics Hz 63 128 250 500 1k 2k 4k 8k Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout
Version 1.0 Volume 3D, Part 5
24820283 5-57 WSP 2nd July 2006 Conformed to Contract Issue
Notes
1. This schedule shall be read in conjunction with the specification and drawings. 2. Units to be complete with acoustically lined inlet plenum. 3. Units shall be selected to achieve the duties at low to medium speed of operation or as indicated in the equipment schedule 4. The electrical components and installation of the units to comply with BS 7671. 5. High efficiency motors shall be supplied as stated elsewhere. 6. Filters shall comprise one section and designed for front withdrawal. 7. Units to be complete with condensate tray fitted with 15mm plain tail copper connection. Condensate tray to be provided under control valve
assembly. 8. All coils to be factory tested to 15 bar and shall be suitable for an operating pressure up to 10 bar. 9. Each coil to be fitted with manual radiator key pattern air vent and key operated drain cock. 10. Motors shall have power factors at full load running conditions that are equivalent or better than that required by the electricity supply authority. 11. The controls shall be compatible with the open BMS system. 12. The manufacturer shall check control valve size according to coil pressure drop and flow rate to achieve accurate control. Agree with CA prior to
ordering 13. All controls shall be pre-wired and tested at the factory. 14. All insulation shall be Class O fire rating. 15. Units shall meet noise criteria as stated elsewhere. 16. This equipment schedule has been based on Eaton Williams ‘Qualitair’ floor standing units, IPAC range. Units shall be equal and approved. 17. The units shall be housed in an acoustic services zone. 18. Return air grille to be sized on a maximum velocity of 3 m/s. 19. Units to be mounted on a 200mm plinth to allow for chilled water and primary air connections. 20. Units to have room-side attenuation. 21. Close temperature and humidity control is not required. Humidifiers are not required. 22. Unit controls shall interface with main BMS system.
Version 1.0 Volume 3D, Part 5
24820283 5-58 WSP 2nd July 2006 Conformed to Contract Issue
Some changes / amendments have been carried out as a result of re-location of equipment, therefore please refer to AHU’s and FCU’s Schedule in Appendix 4 Schedule Ref. M02-2 Fan Coil Units – Floor Standing Units Serving Pier Building – Arrivals Corridor Water temperatures Primary air supply condition Electrical supply External static to unit 50 Pa Heating flow - Dry bulb 15ºC Phase 1 Ø Minimum supply air temperature 15ºC Heating return - Wet bulb Frequency 50Hz Integral condensate pump Yes Chilled flow 6ºC Voltage 230V Nominal flow capacity Chilled return 12ºC Head
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensi
ble (w)
Total (w) °C RH (%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR
Model ref
FCU-01 Pier – Arrivals Corridor 3000 3800 23 n/a 2500 23 yes 0.18 n/a 200 low 35 Low Line WV18CH
FCU-02 (Refer to layout drawings for FCU-03 Locations of units FCU 01-36) FCU-04 FCU-05 FCU-06 FCU-07 FCU-08 FCU-09 FCU-10 FCU-11 FCU-12 FCU-13 FCU-14 FCU-15 FCU-16 FCU-17 FCU-18 FCU-19 FCU-20 FCU-21 FCU-22 FCU-23
Version 1.0 Volume 3D, Part 5
24820283 5-59 WSP 2nd July 2006 Conformed to Contract Issue
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensible
(w) Total (w) °C RH
(%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR)
Model ref
FCU-24 FCU-25 FCU-26 FCU-27 FCU-28 FCU-29 FCU-30 FCU-31 FCU-32 FCU-33 FCU-34 FCU-35 FCU-36 Manufacturer: or equal and approved
Acoustics Hz 63 128 250 500 1k 2k 4k 8k Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout
Version 1.0 Volume 3D, Part 5
24820283 5-60 WSP 2nd July 2006 Conformed to Contract Issue
Notes
1 This schedule shall be read in conjunction with the specification and drawings. 2 Units to be complete with acoustically lined inlet plenum. 3 Units shall be selected to achieve the duties at low to medium speed of operation or as indicated in the equipment schedule 4 The electrical components and installation of the units to comply with BS 7671. 5 High efficiency motors shall be supplied as stated elsewhere. 6 Filters shall comprise one section and designed for front withdrawal. 7 Units to be complete with condensate tray fitted with 15mm plain tail copper connection. Condensate tray to be provided under control valve
assembly. 8 All coils to be factory tested to 15 bar and shall be suitable for an operating pressure up to 10 bar. 9 Each coil to be fitted with manual radiator key pattern air vent and key operated drain cock. 10 Motors shall have power factors at full load running conditions that are equivalent or better than that required by the electricity supply authority. 11 The controls shall be compatible with the open BMS system. 12 The manufacturer shall check control valve size according to coil pressure drop and flow rate to achieve accurate control. Agree with CA prior to
ordering 13 All controls shall be pre-wired and tested at the factory. 14 All insulation shall be Class O fire rating. 15 Units shall meet noise criteria as stated elsewhere. 16 This equipment schedule has been based on Diffusion ‘Low-Line’ floor standing Waterside fan coil units, WV range. Units shall be equal and
approved. 17 The units shall be housed in an acoustic services zone. 18 Close temperature and humidity control is not required. Humidifiers are not required. 19 Unit controls shall interface with main BMS system.
Version 1.0 Volume 3D, Part 5
24820283 5-61 WSP 2nd July 2006 Conformed to Contract Issue
Some changes / amendments have been carried out as a result of re-location of equipment. Therefore please refer to AHU’s and FCU’s Schedule in Appendix 4. Schedule Ref. M02-3 Fan Coil Units – Ceiling Mounted units serving Pier Building – Ramp Level, Ground Floor Water temperatures Primary air supply condition Electrical supply External static to unit 100 Pa Heating flow - Dry bulb 15ºC Phase 1 Ø Minimum supply air temperature 15ºC Heating return - Wet bulb Frequency 50Hz Integral condensate pump Yes Chilled flow 6ºC Voltage 230V Nominal flow capacity Chilled return 12ºC Head
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensi
ble (w)
Total (w) °C RH (%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR
Model ref
FCU-37 Cargo Office 5000 6700 23 n/a 2500 23 yes 0.31 n/a 330 low 35 High-line WHC015CH
FCU-38 Cargo Store FCU-39 Marshallers Office FCU-40 Staff Training FCU-41 Control Room FCU-42 ADP & Archives Office FCU-43 Head of Aprons Office FCU-44 GAMCO Maintenance Office FCU-45 Ramp & Dispatch FCU-46 ADAS Dispatch Office FCU-47 Supervisor FCU-48 DCA 1 FCU-49 DCA 2 FCU-50 DCA 3 FCU-51 Engineering FCU-52 Safety Officer FCU-53 Flight Data Follow-up FCU-54 Police Supervisor FCU-55 Kitchen FCU-56 Police Deputy
Version 1.0 Volume 3D, Part 5
24820283 5-62 WSP 2nd July 2006 Conformed to Contract Issue
FCU-57 Police Office FCU-58 Arrival Lobby FCU-59 Departures 1
Cooling Heating Water flow rate Load Room air
Unit ref Location Sensible
(w) Total (w) °C RH
(%)
Load (w)
Room air °C E
lect
ric
Chilled (l/s)
Heating (l/s)
Nominal Air flow rate (l/s)
Fan speed
Noise level (NR)
Model ref
FCU-60 Departures 2 Manufacturer: or equal and approved
Acoustics Hz 63 128 250 500 1k 2k 4k 8k Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout Fan coil model ref Induct Casing breakout
Version 1.0 Volume 3D, Part 5
24820283 5-63 WSP 2nd July 2006 Conformed to Contract Issue
Notes
1 This schedule shall be read in conjunction with the specification and drawings.
2 Units to be complete with acoustically lined inlet plenum.
3 Units shall be selected to achieve the duties at low to medium speed of operation or as indicated in the equipment schedule
4 The electrical components and installation of the units to comply with BS 7671.
5 High efficiency motors shall be supplied as stated elsewhere.
6 Filters shall comprise one section and designed for front withdrawal.
7 Units to be complete with condensate tray fitted with 15mm plain tail copper connection. Condensate tray to be provided under control valve
assembly.
8 All coils to be factory tested to 15 bar and shall be suitable for an operating pressure up to 10 bar.
9 Each coil to be fitted with manual radiator key pattern air vent and key operated drain cock.
10 Motors shall have power factors at full load running conditions that are equivalent or better than that required by the electricity supply authority.
11 The controls shall be compatible and interface with the main BMS system.
12 The manufacturer shall check control valve size according to coil pressure drop and flow rate to achieve accurate control. Agree with CA prior to
ordering
13 All controls shall be pre-wired and tested at the factory.
14 All insulation shall be Class O fire rating.
15 Units shall meet noise criteria as stated elsewhere.
16 This equipment schedule has been based on Diffusion ‘High-Line’ Ceiling Mounted Waterside fan coil units, WH range. Units shall be equal and
approved.
17 Close temperature and humidity control is not required. Humidifiers are not required.
18 Fan selections to suit room demarcations and cooling loads.
Version 1.0 Volume 3D, Part 5
24820283 5-64 WSP 2nd July 2006 Conformed to Contract Issue
5.7 APPENDIX 3
5.7.1 TERMINAL EQUIPMENT SCHEDULES
Version 1.0 Volume 3D, Part 5
24820283 5-65 WSP 2nd July 2006 Conformed to Contract Issue
Some changes / amendments have been carried out as a result of re-location of equipment, therefore please refer to AHU’s and FCU’s Schedule in Appendix 4 List of Terminal Equipment Schedules Air Handling Unit Ref. AHU-1T Air Handling Unit Ref. AHU-2T Air Handling Unit Ref. AHU-3T Air Handling Unit Ref. AHU-4T Air Handling Unit Ref. AHU-5T Air Handling Unit Ref. AHU-6T Air Handling Unit Ref. AHU-7T Air Handling Unit Ref. AHU-8T Air Handling Unit Ref. AHU-9T Air Handling Unit Ref. AHU-10T Air Handling Unit Ref. AHU-11T Air Handling Unit Ref. AHU-12T Air Handling Unit Ref. AHU-13T Air Handling Unit Ref. AHU-14T Air Handling Unit Ref. AHU-15T Air Handling Unit Ref. AHU-16T Air Handling Unit Ref. AHU-17T Air Handling Unit Ref. AHU-18T Air Handling Unit Ref. AHU-19T Air Handling Unit Ref. AHU-20T Air Handling Unit Ref. AHU-21T Air Handling Unit Ref. AHU-22T Air Handling Unit Ref. AHU-23T Air Handling Unit Ref. AHU-24T Air Handling Unit Ref. AHU-25T Air Handling Unit Ref. AHU-26T Air Handling Unit Ref. AHU-27T Air Handling Unit Ref. AHU-28T Air Handling Unit Ref. AHU-29T Air Handling Unit Ref. AHU-30T Air Handling Unit Ref. AHU-31T Air Handling Unit Ref. AHU-32T Pumps M01 Chillers M09 Dry Air Coolers M10
Version 1.0 Volume 3D, Part 5
24820283 5-66 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-1T Unit location Plantroom 1 Terminal Building Area served Canteen Facility Apron Level & Meet&Greet
Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 2.49 Return Air Volume m³/s 5.21 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 122 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 186 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 8.9 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-67 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 7.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 7.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-68 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-2T Unit location Plantroom 1 Terminal Building Area served Kitchen Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 5.26 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 83.4 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 386 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.78 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-69 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 5.26 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.79 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-70 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-3T Unit location Plantroom 1 Terminal Building Area served Prayer Area & Customs Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.64 Return Air Volume m³/s 4.84 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 86.9 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 120 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.74 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-71 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 5.48 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.48 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-72 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-4T Unit location Plantroom 1 Terminal Building Area served Toilet Areas Apron & Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.7 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 27 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 124.8 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.0 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-73 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-74 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-5T Unit location Plantroom 1 Terminal Building Area served Arrivals Offload, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 6.8 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 107.8 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 499.25 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 23.8 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-75 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 6.8 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 6.8 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-76 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-6T Unit location Plantroom 1 Terminal Building Area served Arrivals Offload, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 9.4 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 150 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 690 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 33.0 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-77 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 9.4 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 9.4 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-78 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-7T Unit location Plantroom 2 Terminal Building Area served Baggage Sortation Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 16.0 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 253.6 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 1174.7 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 56.2 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-79 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 16.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 16.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-80 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-8T Unit location Plantroom 2 Terminal Building Area served Baggage Hall Apron Level, and Staff Room,
Offices, Mezzanine Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 9.6 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 152.2 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 712.2 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 34.0 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-81 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 9.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 9.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-82 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-9T Unit location Plantroom 3 Terminal Building Area served Transfer Baggage Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 7.2 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 114.1 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 528.6 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 25.27 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-83 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 7.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 7.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-84 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-10T Unit location Plantroom 4 Terminal Building Area served Bonded Store, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.16 Return Air Volume m³/s 0.94 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 17.4 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 25 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 1.2 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-85 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.1 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.1 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-86 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-11T Unit location Plantroom 1 Terminal Building Area served Toilet Areas, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.85 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 13.5 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 62.4 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 2.98 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-87 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 0.85 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 0.935 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-88 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-12T Unit location Plantroom 1 Terminal Building Area served Baggage Reclaim, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.8 Return Air Volume m³/s 5.05 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 92.7 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 128 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.12 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-89 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 5.85 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.85 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-90 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-13T Unit location Plantroom 2 Terminal Building Area served Baggage Reclaim, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.8 Return Air Volume m³/s 5.34 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 97.3 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 128 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.12 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-91 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 6.14 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 6.14 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-92 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-14T Unit location Plantroom 2 Terminal Building Area served Check In Departures Level, Retail & Lost &
Found, Mezzanine Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.04 Return Air Volume m³/s 2.88 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 62.13 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 80 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.8 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-93 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 3.92 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 3.92 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-94 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-15T Unit location Plantroom 4 Terminal Building Area served Check In, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.8 Return Air Volume m³/s 7.7 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 134.7 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 193 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 9.23 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-95 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 8.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 8.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-96 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-16T Unit location Plantroom 4 Terminal Building Area served Security Search & passport Control,
Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.8 Return Air Volume m³/s 6.7 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 118.9 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 169 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 8.1 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-97 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 7.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 7.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-98 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-17T Unit location Plantroom 4 Terminal Building Area served Security Search & Passport Control, & 8no
Offices, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.96 Return Air Volume m³/s 5.7 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 105.6 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 146 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.98 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-99 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 6.66 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 6.66 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-100 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-18T Unit location Plantroom 4 Terminal Building Area served Transfer Corridor, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.16 Return Air Volume m³/s 1.34 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 23.8 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 34.5 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 1.65 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-101 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.5 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-102 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-19T Unit location Plantroom 4 Terminal Building Area served Smoking Rooms, Seated Eating Area, Arrivals
Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 7.25 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 114.9 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 532.3 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 25.45 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-103 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 7.25 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 7.25 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-104 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-20T Unit location Plantroom 2 Terminal Building Area served Queuing & Passport Control Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.4 Return Air Volume m³/s 4.6 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 79.25 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 109 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.21 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-105 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 5.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-106 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-21T Unit location Plantroom 3 Terminal Building Area served Immigration Hall, 11no Offices, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.53 Return Air Volume m³/s 4.6 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 81.3 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 109 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.2 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-107 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 5.13 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.13 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-108 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-22T Unit location Plantroom 4 Terminal Building Area served Retail Circulation & Retail Area, Departures
Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.56 Return Air Volume m³/s 3.34 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 61.8 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 79 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.78 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-109 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 3.9 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 3.9 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-110 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-23T Unit location Plantroom 4 Terminal Building Area served Retail Circulation & Retail Area, Departures
Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.76 Return Air Volume m³/s 1.24 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 31.7 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 31 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 1.48 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-111 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 2.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 2.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-112 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-24T Unit location Plantroom 4 Terminal Building Area served Toilet Areas, Departures Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.0 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 15.85 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 73.42 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.5 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-113 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-114 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-25T Unit location Plantroom 3 Terminal Building Area served 3No Toilet Areas, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.85 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 13.47 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 62.4 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 52.2 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-115 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 0.85 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-116 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-26T Unit location Plantroom 2 Terminal Building Area served Pre-Check In Lobby, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.4 Return Air Volume m³/s 3.9 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 68.15 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 98 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 4.68 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-117 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 4.3 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 4.3 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-118 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-27T Unit location Plantroom 3 Terminal Building Area served Transfer Area/Desks, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.4 Return Air Volume m³/s 5.6 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 95.1 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 137 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 6.55 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-119 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 6.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 6.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-120 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-28T Unit location Plantroom 4 Terminal Building Area served Prayer Rooms & Void Food Area, Arrivals
Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.6 Return Air Volume m³/s 4.34 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 78.3 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 110 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.26 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-121 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 4.94 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 4.94 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-122 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-29T Unit location Plantroom 3 Terminal Building Area served Baggage Hall, Apron Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 11.2 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 177.5 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 822.3 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 39.3 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-123 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 11.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 11.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-124 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-30T Unit location Plantroom 3 Terminal Building Area served CIP Areas, Sanitary Area, Health, CID Office,
Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.49 Return Air Volume m³/s 4.59 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 80.5 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 113 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 5.4 Hydraulic resistance kPa
Version 1.0 Volume 3D, Part 5
24820283 5-125 WSP 2nd July 2006 Conformed to Contract Issue
Inlet Attenuator – See Acoustic Data Fan (Supply) Air flow rate m³/s 5.08 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 5.08 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-126 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-31T Unit location Plantroom 4 Terminal Building Area served Arrival Circulation Corridor, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 0.4 Return Air Volume m³/s 7.3 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 122 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 173 Air on temperature (db/wb) ° C Air off temperature (db/wb) ° C Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 8.27 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-127 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 7.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 7.7 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-128 WSP 2nd July 2006 Conformed to Contract Issue
Air handling unit ref AHU-32T Unit location Plantroom 4 Terminal Building Area served Toilet Areas, Arrivals Level Maximum dimensions and weight Length mm Width mm Height mm Weight kg Construction Frame Panel construction Double skin Colour/casing finish AHU support/base Base height mm Double stacked
Components scheduled in direction of airflow but see drawings for configuration Mixing Box Fresh Air Volume m³/s 1.0 (100% outside air) Return Air Volume m³/s 0.0 Pre-filter Filter grade EU3 Filter type Panel Maximum final flow resistance Pa Bag filter Filter grade EU7 Filter type Pleated Bag Maximum final flow resistance Pa Heating coil (Electric) Heating capacity kW 15.85 Air on coil temperature (db) ° C 11.9 Air off coil temperature (db) ° C 25 Cooling Coil (CHW) Cooling Capacity kW 73.42 Air on temperature (db/wb) ° C 46/29.2 Air off temperature (db/wb) ° C 13.6/12.7 Water temperature on ° C 6.5 Water temperature off ° C 11.5 Water flow rate kg/s 3.5 Hydraulic resistance kPa Inlet Attenuator – See Acoustic Data
Version 1.0 Volume 3D, Part 5
24820283 5-129 WSP 2nd July 2006 Conformed to Contract Issue
Fan (Supply) Air flow rate m³/s 1.0 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, Inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Hz AHU A1 Fan SWL Inlet attenuator insertion loss Discharge attenuator insertion loss Unit casing insertion loss
Fan (Extract) Air flow rate m³/s 1.2 Resistance external to unit Pa To suit final ductwork configuration Fan type Backward curved centrifugal Motor rating kW Duty/standby motors Motor(s) in air stream Yes Variable speed Yes, inverter required Maximum motor speed rpm 1450 Fan speed rpm Electrical supply 380-415/3Ø/50 Hz Full load current amps Starting current amps Method of start Star delta Discharge Attenuator – See Acoustic Data Acoustics
Version 1.0 Volume 3D, Part 5
24820283 5-130 WSP 2nd July 2006 Conformed to Contract Issue
Schedule Ref. M01 Pumps
Pump reference CDP 1 - 12 CHWP1 - 3 16-20 Number off No. 12 3 4
Location Pump room Pump room EC Mezz Plant Room
System/purpose Condenser cooling Chilled water Chilled Water
Fluid water water water Operation Construction
Pump type Base mounted In-Line End Suction Base mounted
In-Line
Pump casing Pump impellers Pump shaft Drive type Motor type Inlet connection mm 200 300 Outlet connection mm 200 250 Duty Operating flow rate kg/s 129 211 9.5 Pressure head available kPa 200 500 150 Fluid temperature °C 56-60 6-12 6-12 Electrical Phase ph 3 3 3 Frequency Hz 50 50 50 Voltage volts 380-415 380-415 380-415 Motor rating kW - 200 - Full load current amps - 340 - Starting current amps - 1870 - Maximum motor speed rpm 1450 1490 1450 No of speeds No Variable Variable Variable Method of start Star delta Star delta Star delta Auto-changeover Yes Yes Yes Accessories Inertia base yes Yes Yes Resilient mounts yes Yes Yes Acoustics Octave Band Centre Frequencies Hz 125 250 500 1k 2k 4k 8k
Fan Sound Power dB Manufacturer: Grundfos or equal and approved Type Grundfos Grundfos - Model Tp 200-390/4 Nk 250 400 -
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24820283 5-131 WSP 2nd July 2006 Conformed to Contract Issue
Notes
1 This schedule shall be read in conjunction with the specification and drawings 2 The installer shall be responsible for calculating the final pressure head required prior
to ordering 3 All pumps shall be tested to the relevant standards and test certificates provided 4 Locate pumps with adequate space for maintenance 5 Pump connections shall be isolated by flexible connections (line size) as stated
elsewhere 6 Ensure that the pipelines do not stress the pump casing 7 Motors shall have power factors at full load running conditions that are equivalent or
better than that required by the electricity supply authority 8 High efficiency motors shall be supplied as stated elsewhere 9 All centrifugal pumps to be mounted on inertia base frames complete with anti-
vibration mountings 10 Pipeline supports shall incorporate kinetic spring hangers for vibration control 11 One 15 mm drain cock shall be provided on each pump suction 12 Fit safety guards around all exposed revolving parts and comply with all relevant
standards 13 Select pump at or near most efficient part of performance curve, and for the middle
sized impeller to suit the duty required. Advise CA of potential spare capacity of selected pump prior to ordering.
14 All motors shall be inverter driven. 15 Refer to the specification and drawings for the pump duty and standby operation.
Version 1.0 Volume 3D, Part 5
24820283 5-132 WSP 2nd July 2006 Conformed to Contract Issue
Schedule M09 Chillers
Chiller reference CH 1 to CH 4 Number off No 4 Location Energy Centre Grd level System 2 stage centrifugal chiller Physical Data Size (L x W x H) mm 5182 (L) x 3658 (W) x 3962 (H) Operating weight kg 35500 Shipping weight kg 29500 Evaporator Type Shell & Tube Flow rate l/s 140.64 l/s (2222.2 USgpm) Entering ChW temperature ºC 12ºC (53.6ºF) Leaving ChW temperature ºC 6ºC (42.8ºC) Pressure drop kPa 37.1 kPa (12.4 ft) Glycol % 0 No of Passes 2 Condenser Type Shell & Tube Flow rate l/s 256.9 l/s (4059.4 USgpm) Entering ChW temperature ºC 55.56 ºC (132ºF) Leaving ChW temperature ºC 60.0ºC (140ºF) Pressure drop kPa 50.2 kPa (16.8 ft) Glycol % 0 No of Passes 2 Duty Refrigerant R134A Duty kW 3516 kW (1000 TonR) Power absorbed (unit total) kW 1236 kW COP (at full load) 2.84 Compressor type Two single stage centrifugal No. of compressors 2 Control % Microprocessor Electrical Phase ph 3 Frequency Hz 50 Voltage volts 11000 Compressor rating hp 825 hp Full load current amps 41 Starting current amps 237 Method of start Direct on line / ATS
Accessories Refrigerant storage & recycling system, motor starter, refrigerant leak detection system, BMS interface with special protocols such as Modbus, BACNET etc., R134A refrigerant, factory testing.
Resilient mounts Springs Acoustics Octave Band Centre Frequency Hz 63 125 250 500 1k 2k 4k 8k
Chiller noise level (sound power pressure @ 1m) dB
Weighted Average dbA @ 1m 86 Manufacturer: York International or equal and approved Type 2 Stage Water Cooled Centrifugal Chiller Model CYK JFJZJ2H 15CXCXF
Version 1.0 Volume 3D, Part 5
24820283 5-133 WSP 2nd July 2006 Conformed to Contract Issue
Notes 1 This schedule shall be read in conjunction with the specification, drawings and dry air
cooler schedule ref. 10 2 All chillers shall be tested to the relevant standards and test certificates provided 3 Locate chillers with adequate space for maintenance 4 The contractor shall ensure that builders work bases are adequate for the selected
chiller 5 Suitable test points shall be provided for commissioning purposes.
Version 1.0 Volume 3D, Part 5
24820283 5-134 WSP 2nd July 2006 Conformed to Contract Issue
Schedule Ref. M10 Dry Air Coolers
Reference DC 1 to DC 16 Number off No 16 Location Energy Centre, Roof Level System Condenser Water system serving Chillers CH 1 to CH 4 Construction Casing Suitable for outdoor location at site conditions. Size (L x W x H) mm 3220 (L) x 1015 (W) x 1125 (H) Operating weight kg 10077 kg Shipping weight kg 8723 kg Duty Duty kW 1367 kW (4,668,100 Btu/hr) Air flow rate m³/s 91m³/s (192,813 cfm) No. of fans 4 Sound pressure level (@10m) dBA TBA
Sound power level dBA TBA Air inlet temperature ºC 46ºCdb Fluid Fluid Water Inlet temperature ºC 60.0ºC (140ºF) Outlet temperature ºC 55.56ºC (132ºF) Flow rate l/s 64.22 l/s (1015 USgpm) Pressure drop bar TBA Electrical Phase ph 3Ø Frequency Hz 50 Voltage volts 400 Motor rating (per fan) kW 11 kW Full load current (per fan) amps - Starting current (per fan) amps - Method of start Star~delta Accessories Resilient mounts Tico/neoprene pads Acoustics Octave Band Centre Frequency Hz 63 125 250 500 1k 2k 4k 8k
Chiller noise level (sound power pressure @ 1m) dB
Noise attenuation sound reduction dB
Manufacturer: York International or equal and approved Type Air cooled fluid cooler with propeller induced air fans. Model FCV/H-370
Notes
1 This schedule shall be read in conjunction with the specification, drawings and chiller schedule ref. M09.
2 All dry air coolers shall be tested to the relevant standards and test certificates provided.
3 Locate dry air coolers with adequate space for maintenance. 4 The contractor shall ensure that builders work bases are adequate for the selected
dry air coolers. 5 Suitable test points shall be provided for commissioning purposes. 6 Unit control panel to include fan cycling to suit cooling load requirements.
Version 1.0 Volume 3D, Part 5
24820283 5-135 WSP 2nd July 2006 Conformed to Contract Issue
5.8 APPENDIX 4
5.8.1 SUMMARY & SCHEDULE FOR AHU’s AND FCU’s
Version 1.0 Volume 3D, Part 5
24820283 5-136 WSP 2nd July 2006 Conformed to Contract Issue
SCHEDULE FOR AIR HANDLING UNITS AND FAN COIL UNITS
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
TERMINAL BUILDING
Canteen (Mezzanine Level)
23 deg 249.12 2.00 650 x 1000 AHU 1T 1
Meet & Greet (Departure Level)
23deg 58.69 0.92 650 x 400 AHU 1T 4.35 1
Kitchen area (Mezzanine Level)
23 deg 103.69 5.26 650 x 1400 AHU 2T 5.26 1
Prayer area (Mezzanine Level)
23 deg 65.38 0.40 650 x 400 AHU 3T 1.33 1
Custom area (Departure Level)
23deg 25.48 0.24 650 x 250 AHU 3T 1
Retail (Departure Level) 23deg 1.20 0.08 100 x 140 AHU 3T 1
Retail (Departure Level)
23deg 9.10 Ceiling mounted FCU's.
Conditioned Fresh air from AHU 3T
_
Plant Room 1(Apron Level) 26 deg
212.92
Free Standing FCU's.
Toilet areas (Mezzanine Level)
26 deg 338.09 0.96 350 x 600 AHU 4T 3.46 _
Toilet areas (Departure Level)
26deg _ 0.64 300 x 500 AHU 4T 1
Toilet areas (Departure Level)
26deg _ 0.53 300 x 400 AHU 4T 1
Toilet areas (Departure Level)
26deg _ 0.71 Branch AHU 4T _
Toilet areas (Departure Level)
26deg _ 0.62 550 x 500 AHU 4T 1
Arrivals Offload (Apron Level) 26deg 521.65 6.80 1000 x 1200 AHU 5T 6.80 1
Arrivals Offload (Apron Level) 26deg 392.75 9.40 1000 x 1700 AHU 6T 9.40 1
Plant Room 2 (Apron Level) 26deg 270.91
Free Standing FCU's.
Baggage Sortation (Apron Level)
26deg 880.69 13.36 1000 x 1100 & 1000 x 1200
AHU 7T 13.36 2
Baggage Hall (Apron Level) 26deg 630.95 8.84 1000 x 1600 AHU 8T 9.52 2
Version 1.0 Volume 3D, Part 5
24820283 5-137 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Staff Room, Tea making, Lost & found store etc (Mezzanine Between T 06 & T 011)
23deg 1.07 0.29 400 x 350
Conditioned Fresh air from AHU 8T
2
Toilets (Mezzanine Between T 06 & T 07)
26deg 4.50 0.39 Branch
Conditioned Fresh air from AHU 8T
2
Staff Room, Tea making, Lost & found store etc (Mezzanine Between T 06 & T 011)
23deg 45.10 Wall mounted FCU's. _
Plant Room 3 (Apron Level) 26deg 38.81
Free Standing FCU's.
Transfer Baggage (Apron Level)
26deg 296.69 7.20 1000 x 1300 AHU 9T 7.20 3
Bonded Store (Apron Level) 26deg 104.33 0.48 650 x 500 AHU 10T 2.43 4
Transfers Corridor (Departure Level)
26deg 61.11 0.09 650 x 400 AHU 10T 4
Retail (Departure Level) 23deg 8.78 0.22 250 x 200 AHU 10T 4
Retail (Departure Level) 23deg 27.33
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 10T
_
Retail Circulation (Departure Level)
23deg 2.18 0.06 250 x 100 AHU 10T 4
Retail Circulation (Departure Level)
23deg 246.79 Ceiling mounted FCU's.
Conditioned Fresh air from AHU 10T
4
Plant Room 4 (Apron Level) 26deg 124.34
Free Standing FCU's.
Toilet areas (Departure Level)
26deg 85.75 0.89 650 x 500 AHU 11T 4
Toilet areas (Arrivals Level) 26deg 197.48 2.10 650 x 900 AHU 11T 3.90 4
Observation & Drugs Officers (Arrivals Level)
23deg 1.50 0.05 100 x 100 AHU 12T 1
Observation & Drugs Officers (Arrivals Level)
23deg 11.00 Wall mounted FCU's.
Conditioned Fresh air from AHU 12
_
Baggage Reclaim (Arrivals Level)
23deg 90.75 1.39 650 x 500 AHU 12T 1.39 1
Version 1.0 Volume 3D, Part 5
24820283 5-138 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Baggage Reclaim (Arrivals Level)
23deg
72.24 1.41 650 x 500 AHU 13T 1.65 2
Lounge, Visa, Office, stairs etc (Arrivals Level)
23deg 4.50 0.24 Branch AHU 13T 2
Lounge, Visa, Office, stairs etc (Arrivals Level)
23deg 31.26 Wall mounted FCU's.
Conditioned Fresh air from AHU 13T
_
Check-In (Departure Level)
23deg 52.43 0.39 600 x 400 AHU 14T 0.88 2
Mezzanine Offices (Mezzanine Between T 10 & T 15) - (Departure Level)
23deg 1.48 0.16 250 x 200 AHU 14T 2
Mezzanine Offices (Mezzanine Between T 10 & T 15)
23deg 25.74 Wall mounted FCU's.
Conditioned Fresh air from AHU 14T
_
Check-In (Departure Level)
23deg 44.02 0.41 650 x 350 AHU 15T 0.61 4
Security Search Areas & Passport Control (Departure Level)
23deg 58.07 0.42 650 x 400 AHU 16T 0.80 4
Security Search Areas & Passport Control and Offices (Departure Level)
23deg 59.03 0.50 650 x 400 AHU 17T 1.12 4
Retail Circulation (Departure Level)
23deg 4.94 0.13 200 x 150 AHU 17T 4
Retail Circulation (Departure Level)
23deg 196.98 Ceiling mounted FCU's.
Conditioned Fresh air from AHU 17T
_
Retail (Departure Level) 23deg 7.36 0.18 250 x 200 AHU 17T 4
Retail (Departure Level) 23deg 8.56
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 17T
_
Food & Eating Areas (Arrivals Level)
23deg 20.70 0.40 500 x 300 AHU 18T 4
Version 1.0 Volume 3D, Part 5
24820283 5-139 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Food & Eating Areas 23deg 12.82
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 18T
_
Void Food Area (Arrivals Level) 23deg 16.17 0.23 200 x 200 AHU 18T 4
Void Food Area (Arrivals Level) 23deg 21.00
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 18T
_
Arrivals Circulation corridor (Arrivals Level)
23deg 29.22 0.21 500 x 300 AHU 18T 2.13 4
Prayer Rooms (Arrivals Level) 23deg 79.66 0.49 500 x 450 AHU 18T 4
Smoking Room (Arrivals Level) 23deg 126.99 3.04 550 x 1000 AHU 19T 4
Smoking Room (Arrivals Level) 23deg 58.30
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 19T
_
Smoking Room (Arrivals Level) 23deg 24.84 0.51 550 x 300 AHU 19T 3.55 4
Smoking Room (Arrivals Level) 23deg 86.14
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 19T
_
Queuing & Passport Control (Arrivals Level)
23deg 142.70 1.32 650 x 600 AHU 20T 1.97 2
Immigration Hall (Arrivals Level) 23deg 77.73 1.90 650 x 650 AHU 21T 2.25 3
Offices (Supervisor, Screening, CID etc) - (Arrivals Level)
23deg 8.03 0.35 Branch AHU 21T 3
Offices (Supervisor, Screening, CID etc) - (Arrivals Level)
23deg 73.40 Wall mounted FCU's.
Conditioned Fresh air from AHU 21T
Transfer Areas (Arrivals Level) 23deg 65.97 1.05 650 x 450 AHU 22T 1.05 3
Sanitary Area (Arrivals Level) 23deg 102.92 1.52 650 x 550 AHU 23T 3
Version 1.0 Volume 3D, Part 5
24820283 5-140 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Sanitary Area (Arrivals Level) 23deg 39.50
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 23T
_
Health (Arrivals Level) 23deg 103.93 1.54 650 x 550 AHU 23T 3
Health (Arrivals Level) 23deg 78.91
Ceiling mounted FCU's.
Conditioned Fresh air from AHU 23T
_
CID Office (Arrivals Level) 23deg
1.50 0.02 100 x 100 AHU 23T 3
CID Office (Arrivals Level) 23deg
1.50 Wall mounted FCU's.
Conditioned Fresh air from AHU 23T
_
CIP Areas (Arrivals Level) 23deg 116.15 0.65 650 x 550 AHU 23T 4.68 3
Baggage Hall (Apron Level) 26deg 515.33 8.23 1000 x 1500 AHU 24T 8.23 4
Toilet Areas (Arrivals Level) 26deg 113.53 1.37 550 x 600 AHU 25T 1.56 3
Pre Check-in Lobby (Arrivals Level)
23deg 214.96 1.06 650 x 800 AHU 26T 2.96 2
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
PIER BUILDING �
Departure Lounge D4 (Departure Level)
23deg
272.17 Free Standing CCU's.
CCU 1 - CCU 5
Departure Lounge D4 (Departure Level)
23deg
178.93 3.70 600 x 1000 AHU 1P 8
W/C 5 (Apron Level & Arrivals Level)
26deg
194.30 2.90 600 x 1100 AHU 2P _ 8
Arrivals Corridors A7 & A8 (Arrivals Level)
23 deg
85.37 Free Standing CCU's.
FCU 1 - FCU 10
Arrivals Corridors A7 & A8 (Arrivals Level)
23 deg
69.64 1.44 600 x 550 AHU 3P 8
Version 1.0 Volume 3D, Part 5
24820283 5-141 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Plant Room 8 (Apron Level) 26 deg
17.58 _
Free Standing CCU's.
_ _ _
Departure Lounge D5 (Departure Level)
23deg
155.82 Free Standing CCU's.
CCU 6 - CCU 10
Departure Lounge D5 (Departure Level)
23deg
127.67 2.64 600 x 800 AHU 4P 7
Arrivals Corridors A1 (Arrivals Level)
23 deg
93.93 Free Standing CCU's.
FCU 11 - FCU 20
Arrivals Corridors A1 (Arrivals Level)
23 deg
69.64 1.44 600 x 550 AHU 5P 7
Plant Room 7 (Apron Level) 26 deg
24.00 _
Free Standing CCU's.
_
W/C 4 (Apron Level & Arrivals Level)
26deg
227.80 3.40 900 x 800 AHU 6P _ 6
Ramp Accommodation (Apron Level)
23 deg
221.00 Ceiling mounted FCU's.
_
Ceiling mounted FCU's in all areas.
_
Ramp Accommodation (Apron Level)
23 deg
61.90 1.28 600 x 500 AHU 7P 6
Arrivals Corridors A2, A3 & A4 (Arrivals Level)
23 deg
79.88 Free Standing FCU's.
FCU 21 - FCU 36
Arrivals Corridors A2, A3 & A4 (Arrivals Level)
23 deg
87.05 1.80 600 x 600 AHU 8P 6
Departure Lounge D6, D7 & D8 (Departure Level)
23deg
374.90 Free Standing FCU's.
CCU 11 - CCU 19
Departure Lounge D6, D7 & D8 (Departure Level)
23deg
203.11 4.20 600 x 1250 AHU 9P
Plant Room 6 (Apron Level) 26 deg
10.99 _
Free Standing FCU's.
_ _
Departure Lounge D8 & D9 (Departure Level)
23deg
297.29 Free Standing FCU's.
CCU 20 - CCU 26
Departure Lounge D8 & D9 (Departure Level)
23deg
200.69 4.15 600 x 1250 AHU 10P
Version 1.0 Volume 3D, Part 5
24820283 5-142 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
W/C 3 (Apron Level) 26deg
67.00 1.00 600 x 500 AHU 11P _
Arrivals Corridors A4 & A5 (Arrivals Level)
23 deg
65.83 Free Standing FCU's.
FCU 37 - FCU 48
Arrivals Corridors A4 & A5 (Arrivals Level)
23 deg
69.64 1.44 600 x 550 AHU 12P
Plant Room 5 (Apron Level) 26 deg
10.00 _
Free Standing FCU's.
_ _
Arrivals Lobby (Arrivals Level) 23 deg
50.00
Ceiling mounted FCU's.
Ceiling mounted FCU's.
Arrivals Lobby (Arrivals Level) 23 deg
34.82 0.72 400 x 350 AHU 13P
Departure Lounge (Apron Level)
23deg
77.00 Ceiling mounted FCU's.
Ceiling mounted FCU's.
Departure Lounge (Apron Level)
23deg
82.21 1.70 800 x 400 AHU 14P
W/C 2, 1 & 1A (Apron Level) 26deg 117.47 1.60 750 x 600 AHU 15P _
Departure Lounge D1 (Apron Level)
23deg
104.00 Ceiling mounted FCU's.
Ceiling mounted FCU's.
Departure Lounge D1 (Apron Level)
23deg
92.85 1.92 700 x 500 AHU 16P
Energy Centre (Office, Workshops, Kitchen, W/C & Corridor)
85.00 1.37 650 x 750 AHU EC01 1.37 Mechanical Plant room
Energy Centre (Office, Workshops, Kitchen, W/C & Corridor)
85.00 1.37 650 x 750 AHU EC01 1.37
Energy Centre (Mechanical Plant room)
47.00
Free Standing FCU's.
Energy Centre (Chiller Building)
320 * * Subject to final selection of equipment
Free Standing FCU's.
Energy Centre (Tx No. 3, Load Bank & Control Panel Room)
15 * * Subject to final selection of equipment
Wall mounted FCU's.
Version 1.0 Volume 3D, Part 5
24820283 5-143 WSP 2nd July 2006 Conformed to Contract Issue
DESCRIPTION Temp HEATING TOTAL Heat Gain
VENTILATION (Fresh Air)
MAIN DUCT SIZE H x W
AHU
TOTAL AHU SUPPLY AIR
PLANT ROOM
degC KW KW Cu m/s mm
Cu m/s
Energy Centre (Tx 1,Tx 2,Main LV Switch room, Main 11 KV Switch room, Corridor & Gen Control Panel)
50 * * Subject to final selection of equipment
Free Standing FCU's.
10 Comms Rooms _ _ 193 *
* Subject to final selection of equipment
Free Standing FCU's.
2 Comms Rooms (P00.39 & P00.70)
_ _ 54 * * Subject to final selection of equipment
Free Standing FCU's.
Sub-Stations 1 to 3 (Apron Level) _ _ 150 *
* Subject to final selection of equipment
Free Standing FCU's.
The AHU schedule has been revised to accommodate additional Ramp Operation Space. All equipment sizes/weights are indicative and shall be subject to final equipment selection.