catalog 624-15 trailblazer air-cooled scroll compressor ......catalog 624-15 trailblazer ... ©2017...
TRANSCRIPT
Catalog 624-15Trailblazer®
Air-Cooled Scroll Compressor ChillersWith High Efficiency Variable Speed Fan TechnologyModel AGZ-E 030 to 241 Tons (100 to 840 kW) HFC-410A Refrigerant 60/50 Hz
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 2 www.DaikinApplied.com
Table of ConTenTs
Table of ConTenTs
©2017 Daikin Applied. Illustrations and data cover the Daikin Applied product at the time of publication and we reserve the right to make changes in design and construction at any time without notice.
Manufactured in an ISO 9001 & ISO 14001 certified facility
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . 3Features and Benefits . . . . . . . . . . . . . . . . . 4Application Considerations . . . . . . . . . . . . . 7Sound Data . . . . . . . . . . . . . . . . . . . . . . . . . 17Selection Procedure . . . . . . . . . . . . . . . . . . 23Performance Data . . . . . . . . . . . . . . . . . . . . 25Pressure Drop Data . . . . . . . . . . . . . . . . . . 27Physical Data - Packaged Unit . . . . . . . . . 29
Dimensions & Weights - Packaged Units . 33Dimensions & Weights - Heat Recovery Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Isolators . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47Electrical Data . . . . . . . . . . . . . . . . . . . . . . . 48Options and Accessories . . . . . . . . . . . . . 59Engineering Guide Specifications . . . . . . 64
Daikin Tools Pathfinder version: 8.10The ratings in this catalog are consistent with the Daikin Tools selection program version shown.
For the most up-to-date information, please go to www.DaikinApplied.com.
*Heat Recovery option outside the scope of AHRI ACCL Certification Program.
InTroduCTIon
www.DaikinApplied.com 3 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
The Trailblazer® family of air-cooled scroll chillers continues the Daikin Applied legacy of high quality, high efficiency, latest technology and quiet operation. These features make the Trailblazer® family the best overall value in air-cooled packaged chillers available today. The Trailblazer® series offers a wide selection of units from 30 to 241 tons with dual refrigerant circuits available as packaged units with optional heat recovery or pump packages, or as remote evaporators.
Efficient OperationThe Trailblazer® units utilize environmentally acceptable R-410A refrigerant and meet the performance requirements of ASHRAE Standard 90.1 for efficiency. Excellent part-load performance is achieved with four or six scroll compressors. A variable speed condenser fan option is also available to provide even higher part load efficiency. High overall efficiency = lower annual energy costs.
RapidRestore® and Fast LoadingWhen power has been interrupted, the Trailblazer® has the capability to restore cooling quickly by using RapidRestore® and Fast Loading. These options make Trailblazer® ideal for mission critical buildings, data centers, healthcare facilities, and manufacturing processes. Once power is restored after a power loss duration of up to 180 seconds, the time for a Trailblazer® chiller to restart is less than 125 seconds with the chiller reaching full load within 220 seconds.
Application FlexibilityTrailblazer® units are available as packaged chillers with optional heat recovery or pump packages as well as remote evaporator configurations. Information on remote evaporator models and factory-installed pump packages can be found in a separate installation manual available on www.DaikinApplied.com.
Quiet OperationThe Trailblazer® units live up to the Daikin Applied reputation for low operating sound levels and make these chillers “neighborhood friendly.” Full load sound pressure levels as low as 60 dB without insulation.
LEED® Points Developed by the U.S. Green Building Council (USGBC) in 1998, Leadership in Energy and Environmental Design (LEED®) is an internationally recognized certification program and intends to provide building owners and operators a consistent structure for identifying and implementing practical and measurable green building design, construction, operations and maintenance solutions.
For building owners who want to pursue LEED® Green Building Certification, the Trailblazer® series of air-cooled chillers does qualify for the Energy and Atmosphere Credit 4, Enhanced Refrigerant Management worth 2 points.
Air-Cooled Chiller Products
1000 200 300 400 500 600
Trailblazer® Air-Cooled ChillerModel AMZ • 10 - 40 RT
Pathfinder® Air-Cooled Screw Compressor ChillerModel AWV VFD •100-565 RT
100% Configurable with Variable Volume Ratio (VVR) TechnologyRemote Evaporator options available
2F-4056 (10/17) ©2017 Daikin Applied
Trailblazer® Air-Cooled Scroll Compressor Chiller Model AGZ-E • 30 - 240 RT
Variable Speed Condenser Fan Technology with Remote Evaporator, Heat Recovery and High-Efficiency options available
InTroduCTIon
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 4 www.DaikinApplied.com
feaTures and benefITs
CHILLER NOMENCLATURE
A G Z XXX E D
Unit Design Features Daikin Trailblazer® air-cooled chillers are a product of our commitment to offer quiet, reliable, energy efficient equipment, incorporating high quality compressors, and innovative packaging.
ConstructionTrailblazer® chillers are factory-assembled and mounted on a heavy-gauge steel base. The base distributes the unit weight for roof loading. Their small footprint allows smaller mounting pads or support structures and is a plus for retrofit or replacement applications.
CompressorsReliable hermetic scroll compressors with cast iron scrolls and three Teflon® impregnated bearings are used on the Trailblazer® chillers to promote longevity.
Each model has the ability to modulate its capacity. Models with four compressors will have four steps of capacity modulation while models with six compressors will have six steps. Compressors stage on depending on the load of the system. This results in excellent part-load efficiency and reduced annual operating costs.
Features include motor temperature protection, scroll temperature protection, missing phase protection, reverse phase protection, low control circuit voltage protection, short cycling detection and alert, Modbus® communication to system controller, operational and fault history storage, and LED status display.
EvaporatorTrailblazer® units are designed to maximize efficiency in the smallest possible footprint. The evaporator is a compact, high efficiency, dual circuit, brazed plate-to-plate type heat exchanger consisting of parallel stainless steel plates. These heat exchangers provide excellent heat exchange efficiency in a compact footprint and are especially attractive for smaller capacity units. Evaporators are designed and constructed according to, and listed by, Underwriters Laboratories (UL).
Optional Remote Evaporator Units 30-241 tons with the optional remote evaporator will have the evaporator shipped separately for field mounting and piping to the outdoor unit.
Condenser CoilsCondenser coils are all aluminum alloy microchannel design with a series of flat tubes containing multiple, parallel flow microchannels layered between the refrigerant manifold piping. A variety of optional coil materials and coatings are available so that the unit can be constructed to meet almost any environment. Packaged unit options include:
• copper tube/aluminum fins (30-70 ton models only)• copper tube/copper fins (30-70 ton models only)• copper tube/aluminum Black-fins (30-70 ton models only)• ElectroFin® coating can be applied to any coil option
See “Condenser Coil Options and Coating Considerations” on page 15 for discussion of environmental factors related to material and coating options.
Figure 1: Microchannel Coil
Air-Cooled
Global Design
Scroll Compressor
Compressors D = 2 Compressors/Circuit T = 3 Compressors/Circuit
Design VintageNominal Tons
feaTures and benefITs
feaTures and benefITs
www.DaikinApplied.com 5 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 2: Trailblazer™ with Optional Full Louver Package
Optional High Efficiency Variable Speed Condenser FansThis option (available on 75-241 ton models) adds variable speed drives to the condenser fans on the chiller. The MicroTech® III controller will adjust the speed of the condenser fans using the VFD’s to optimize chiller efficiency and maintain proper head pressure. This feature improves part load efficiency substantially and offers the ability to operate in low ambient conditions down to -10°F.
Control SystemThe MicroTech® III advanced DDC chiller controller surpasses all other microprocessor-based chiller control systems available today. This powerful, user-friendly control system provides the flexibility and performance needed for either stand-alone unit operation or the controller can be easily tied into the building automation system of choice using the Daikin Open Choices® feature.
Open Choices® allows one to choose from open standard protocols such as BACnet®, Modbus® and LonWorks® to communicate easily with the building automation system that best meets the facility requirements. These optional communications modules are available factory installed or can be easily field installed.
The MicroTech® III controller’s design will not only permit the chiller to run more efficiently, but will also simplify troubleshooting if a system failure occurs. Every MicroTech® III controller is programmed and tested prior to shipment to help provide a trouble-free start-up.
Optional Remote Interface Panel In addition to the unit-mounted user interface provided with MicroTech® III controls, the Trailblazer® chillers can be individually equipped with a remote user interface. It provides convenient access to unit diagnostics and control adjustments without having to access a rooftop or outdoor location. One remote panel can be connected to up to eight chillers.
Intelligent Equipment®Intelligent Equipment (IE) from Daikin Applied is a secure, cloud-based controls solution that enables delivery equipment and/or system information to customers via web or mobile devices. A power measurement module and communications gateway installed on Daikin equipment enables the unit to be directly connected to the Internet via wireless (cellular, Wi-Fi) or local area network (LAN), providing management, monitoring control analysis and decision-making functionality for Daikin chiller systems and the facility.
Features• Remote monitoring and control of Daikin chillers• Remote servicing capabilities• Integration to the Energy Star® Portfolio Manager®
• Advanced data analytics including equipment performance, financial performance and building Comfort Index metrix based on ASHRAE Standard 55-2010
• Dynamic user dashboards with photo-realistic graphics and responsive-design interface optimized for users’ mobile devices, tablets or PCs
• Secure, role-based user access
Benefits• Informed decision-making• Increased equipment efficiency • 24/7 monitoring capability• Real-time equipment information• Accelerated equipment payback• Historical performance data• Can be used with, or without, an existing building
automation system (BAS)
Also see ASP 31-384 for more details.
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 6 www.DaikinApplied.com
feaTures and benefITs
Optional Pump Package The on-board, integrated chilled water pump package provides important benefits:
• Simplify the chilled water system design and installation • Provide installation savings by reducing field piping,
wiring and control costs• Save valuable floor space inside the building.• Reduce project engineering content• Greatly reduce pump operating cost with the optional
variable flow pump VFD
Standard ComponentsSingle Pump: Single spring inside seal, vertical, in-line, radially split-case pump, serviceable without breaking pipe connections. The motor and pump rotating assembly can be serviced without removing the pump casing from the line.
Dual Pumps in a Single Casting: Single-spring inside-seal vertical, in-line, radially split-case pumps, mounted in a common casing with a common inlet connection and outlet connection and including a flapper valve to prevent recirculation when only one pump is operating. An isolation valve is included that allows one pump to operate when the other is removed. The pumps are designed for duty/standby, not parallel operation. All information and performance curves for the single pump arrangement (Model 4380) can be used for the dual pump arrangement (Model 4392).
The package is also is equipped with a “Y” type inlet strainer, a combination triple-duty outlet valve having a discharge shutoff valve, check valve, and flow throttling valve, a combination suction guide with flow stabilizing outlet vanes and stainless steel strainer with a disposable fine-mesh start-up strainer, a flow switch mounted and wired, factory power and control wiring, interconnecting piping and insulation of all cold surfaces. Various tank and connection options are available for field mounting. Refer to the schematic in Figure 3 for more information.
Figure 3: Optional Pump Package Schematic
Optional Variable Flow VFDThe operating cost savings resulting from using variable chilled water flow via a pump VFD is well known. In the past, however, its usage has been somewhat limited by the cost and uncertainty of field installing the required system pressure differential sensors.
Daikin Applied can now offer flow control through the pump VFD without the need for external pressure sensors. In addition to the sensorless operation, there are three other selectable operating modes:
BAS Input: The pump speed and system flow will be controlled from a customer-supplied BAS input signal.
Remote Sensor Control: The VFD is wired to a pressure sensor mounted in the chilled water piping system. This is the standard VFD control when a sensorless VFD is not used.
Locally Selected Constant Speed Control: Provides manual control of the pump speed, overriding any current automatic speed control.
Consult the current version of the installation manual for additional detailed information. It is available from the local Daikin Applied sales office or on www.DaikinApplied.com.
Optional Partial Heat Recovery Partial heat recovery (available on 75-241 ton models) adds optional factory-installed heat exchangers and control logic to provide hot water for many uses such as dehumidification and pre-heating water for a boiler. This option reduces operating costs by using heat that already exists in the chiller instead of paying for another source of energy.
Figure 4: Partial Heat Recovery Heat Exchangers
Dual Vertical Pumps
“Y” TypeInlet
Strainer
ChilledWaterInlet
InletGuide Optional
VFDControllers Chilled
WaterOutlet
Triple-DutyOutlet Valve Flow
SwitchDrain Evap Out Press.
Gauge Port
PumpPackageControlPanel
Brazed-PlateEvaporator
Evap In Press.Gauge Port
applICaTIon ConsIderaTIons
www.DaikinApplied.com 7 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Operating and Standby Limits
Table 1: Operating Limits
Maximum standby ambient temperature 130°F (54°C)Maximum operating ambient temperature 105°F (41°C)
-with optional high ambient package (see “High Ambient Operation” on page 14) 125°F (52°C) Minimum operating ambient temperature (standard control) 32°F (0°C)
-with optional low ambient control (see “Low Ambient Operation” on page 14) -10°F (-23°C)Leaving chilled water temperature 40°F to 65°F (4°C to 18°C)Leaving chilled fluid temperatures (with anti-freeze) - Note that in cases of high ambient temperature, the lowest leaving water temperature settings may be outside of the chiller operating envelope; consult Daikin Tools® to ensure chiller is capable of the required lift.
15°F to 65°F (-9°C to 18°C)
Operating chilled water delta-T range 6°F to 16°F (3.3°C to 8.9°C)Maximum evaporator operating inlet fluid temperature 81°F (27°C)Maximum evaporator non-operating inlet fluid temperature 100°F (38°C)
Unit PlacementTrailblazer® units are for outdoor applications and can be mounted either on a roof or at ground level. For roof mounted applications, install the unit on a steel channel or I-beam frame to support the unit above the roof. For ground level applications, install the unit on a substantial base that will not settle. Use a one-piece concrete slab with footings extended below the frost line. Be sure the foundation is level within 0.5” (13 mm) over its length and width. The foundation must be strong enough to support the unit weight - see the Dimensions section starting on page 33.
Service ClearanceSides
• Models 30-70: Minimum of 4 feet (1.2 meters)• Models 75-241: It is highly recommended to provide
a minimum of 8 feet (2.4 meters) on one side to allow for coil replacement. Coils can be removed from the top, allowing a minimum of 4 feet (1.2 meters) of side clearance; however, the unit performance may be derated.
Control Panel End
• All Models: Minimum of 4 feet (1.2 meters)Opposite Control Panel End
• Models 30-70 with Aluminum Fin/Copper Tube Coils: Minimum of 4 feet (1.2 meters)
• Models 30-70 with Microchannel Coils: Minimum of 7.5 feet (2.3 meters)
• Models 75-241: Minimum of 4 feet (1.2 meters)
Figure 5: Service Clearance
Operational Spacing RequirementsSufficient clearance must be maintained between the unit and adjacent walls or other units to allow the required unit air flow to reach the coils. Failure to do so will result in a capacity reduction and an increase in power consumption. No obstructions are allowed above the unit at any height. The clearance requirements shown are a general guideline and cannot account for all scenarios. Such factors as prevailing winds, additional equipment within the space, design outdoor air temperature, and numerous other factors may require more clearance than what is shown. Additional clearances may be required under certain circumstances.
Graphs on the following pages give the minimum clearance for different types of installations and also capacity reduction and power increase if closer spacing is used. The graphs are based on individual cases and should not be combined with other scenarios.
Minimum = 4 ft (1.2 m)
Minimum = 4 ft (1.2 m)
Minimum = 4 ft(1.2 m)
Minimum = 7.5 ft (2.3 m) for models 030-070
with Microchannel Coils
Con
trol P
anel
Minimum = 4 ft (1.2 m) for models
030-070 with Al/Cu Coils& 075-241
075-241 Ton Models: 8ft (2.4 m) recommended on one side
applICaTIon ConsIderaTIons
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 8 www.DaikinApplied.com
applICaTIon ConsIderaTIons
Case 1: Building or Wall on One Side of Unit NOTE: Assumes a solid height wall taller than unit. Refer to
Case 4 for partial wall openings.
For models AGZ030-100E, maintain a 4 feet minimum from any solid height wall taller than unit.
For models AGZ110-130E, maintain a 6 feet minimum from any solid height wall taller than unit.
For models AGZ140-241E, maintain a 8 ft minimum clearance from any solid height wall taller than unit.
Figure 6: Building or Wall on One Side of Unit
Case 2: Two Units, Side-by-SideFor models 030-180, there must be a minimum of 4 feet between two units placed side-by-side; however, performance may be affected at this distance. For models 191-241, the minimum is 6 feet as closing spacing may cause air recirculation and elevated condenser pressure. Assuming the requirement of one side having at least 8 feet of service clearance is met, Case 2 figures show performance adjustments as the distance between two units increases.
Figure 7: Two Units, Side-by-Side
Figure 8: Case 2 - Full Load Capacity Reduction
Figure 9: Case 2 - Power Increase
Heightof
Wall
DistanceBetween
WallandUnit
D
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4 5 6 8
% C
apac
ity R
educ
tion
Distance Between Units (ft)
Full Load Capacity Reduction
AGZ030-070E AGZ075-100EAGZ110-130E AGZ140-180EAGZ191-211E AGZ226-241E
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
4 5 6 8
% P
ower
Incr
ease
Distance Between Units (ft)
Power Increase
AGZ030-070E AGZ075-100EAGZ110-130E AGZ140-180EAGZ191-211E AGZ226-241E
applICaTIon ConsIderaTIons
applICaTIon ConsIderaTIons
www.DaikinApplied.com 9 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Case 3: Three or More Units, Side-by-SideFor all models, there must be a minimum distance between any units placed side-by-side; however, performance may be affected at this distance. Minimum distances are: models 030 to 070 - 4 feet, models 075 to 100 - 5 feet, models 110 to 241 - 6 feet. Figure 11 and Figure 12 depict Case 3 performance adjustments as the distance between units increases.NOTE: Data in Figure 11 and Figure 12 is for the middle unit
with a unit on each side. See Case 2 adjustment factors for the two outside units.
Figure 10: Three or More Units, Side-by-Side
Figure 11: Case 3 - Full Load Capacity Reduction
Figure 12: Case 3 - Power Increase
Case 4: Open Screening Walls Screening walls may be used to help conceal a unit. When possible, design these walls such that the combination of open area and distance from the unit (see Figure 13) does not require performance adjustment. If the wall opening percentage is less than recommended for the distance to the unit, it should be considered as a solid wall. It is assumed that the wall height is equal to or less than the unit height when mounted on its base support. If the wall height is greater than the unit height, see Case 5 for adjustment factors. The distance from the sides of the unit to the walls must be sufficient for service. For uneven wall spacing, the distance from the unit to each wall can be averaged providing no distance is less than 4 feet. Values are based on walls on all four sides.
Figure 13: Case 4 Allowable Wall Open Area
0.0
1.0
2.0
3.0
4.0
5.0
6.0
4 5 6 8
% C
apac
ity R
educ
tion
Distance Between Units
Full Load Capacity Reduction
AGZ030-035E AGZ040-070E AGZ075-100EAGZ0110-130E AGZ140-180E AGZ191-211EAGZ226-241E
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
4 5 6 8
% P
ower
Incr
ease
Distance Between Units (ft)
Power Increase
AGZ030-035E AGZ040-070E AGZ075-100EAGZ0110-130E AGZ140-180E AGZ191-211EAGZ226-241E
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0 10 20 30 40 50
Dis
tanc
e fr
om W
all t
o U
nit (
ft)
% Open Wall Area
Wall Free Area vs. Distance
AGZ030-070E AGZ075-100EAGZ110-130E AGZ140-180EAGZ191-241E
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 10 www.DaikinApplied.com
applICaTIon ConsIderaTIons
Case 5: Pit Installation Pit installations can cause operating problems resulting from air recirculation and restriction and require care that sufficient air clearance is provided, safety requirements are met and service access is provided. A solid wall surrounding a unit is substantially a pit and this data should be used.
Steel grating is sometimes used to cover a pit to prevent accidental falls or trips into the pit. The grating material and installation design must be strong enough to prevent such accidents, yet provide abundant open area to avoid recirculation problems. Have any pit installation reviewed by the Daikin Applied sales representative prior to installation to ensure it has sufficient air-flow characteristics and approved by the installation design engineer to avoid risk of accident. The following de-rates are based on single chiller installations only.
Models AGZ030-070E:The Case 5 figures for models AGZ030-070E show adjustment factors for pit/wall heights of 4 feet, 5 feet, and 6 feet.
Figure 14: Case 5 - Full Load Capacity Reduction (AGZ030E-070E)
Figure 15: Case 5 - Power Increase (AGZ030-070E)
Figure 16: Case 5 - Pit Installation
Models AGZ075-130E:The Case 5 figures for models AGZ075-130E show adjustment factors for pit/wall heights of 5 feet, 6 feet, and 8 feet.
Figure 17: Case 5 - Full Load Capacity Reduction (AGZ075-130E)
Figure 18: Case 5 - Power Increase (AGZ075-130E)
0.0
1.0
2.0
3.0
4.0
5.0
6.0
0 8 10 12 13 14
% C
apac
ity R
educ
tion
Depth of Pit / Wall Height (ft)
Full Load Capacity Reduction (AGZ030-070E)
Distance = 4 f t Distance = 5 f t Distance = 6 f t
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0 8 10 12 13 14
% P
ower
Incr
ease
Depth of Pit / Wall Height (ft)
Power Increase (AGZ030-070E)
Distance = 4 f t Distance = 5 f t Distance = 6 f t
0.0
1.0
2.0
3.0
4.0
5.0
6.0
0 8 10 12 13 14
% C
apac
ity R
educ
tion
Depth of Pit / Wall Height ft)
Full Load Capacity Reduction (AGZ075-130E)
Distance = 5 f t Distance = 6 f t Distance = 8 f t
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0 8 10 12 13 14
% P
ower
Incr
ease
Depth of Pit / Wall Height (ft)
Power Increase (AGZ075-130E)
Distance = 5 f t Distance = 6 f t Distance = 8 f t
applICaTIon ConsIderaTIons
www.DaikinApplied.com 11 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Models AGZ140-241E:The Case 5 figures for models AGZ140-241E show adjustment factors for pit/wall heights of 6 feet, 8 feet, and 10 feet.
Figure 19: Case 5 - Full Load Capacity Reduction (AGZ140-180E)
Figure 20: Case 5 - Power Increase (AGZ140-211E)
Figure 21: Case 5 - Full Load Capacity Reduction (AGZ191-241E)
Figure 22: Case 5 - Power Increase (AGZ226-241E)
Chilled Water Piping Field installed water piping to the chiller must include:
• A cleanable strainer installed at the water inlet to the evaporator to remove debris and impurities before they reach the evaporator, causing damage. See the Inlet Strainer Guidelines and the current version of the product Installation, Operation and Maintenance manual on www.DaikinApplied.com for additional details.
• Adequate piping support to eliminate weight and strain on the fittings and connections.
• A water flow switch must be installed in the horizontal piping of the supply (evaporator outlet) water line to avoid evaporator freeze-up under low or no flow conditions. The flow switch may be ordered as a factory-installed option, a field-installed kit, or may be supplied and installed in the field. (See page 59 for more information.)
• Piping for units with brazed-plate evaporators must have a drain and vent connection provided in the bottom of the lower connection pipe and to the top of the upper connection pipe respectively, see Figure 23. These evaporators do not have drain or vent connections due to their construction.
It is recommended that the field installed water piping to the chiller include:
• Thermometers at the inlet and outlet connections of the evaporator.
• Water pressure gauge connection taps and gauges at the inlet and outlet connections of the evaporator for measuring water pressure drop.
• Vibration eliminators in both the supply and return water lines. Pressure gauges must be installed in the inlet and outlet water lines to the evaporator.
• Insulate chilled water piping to reduce heat loss and prevent condensation. For information on freeze protection, see “Evaporator Freeze Protection” on page 13.
0.0
1.0
2.0
3.0
4.0
5.0
6.0
0 8 10 12 13 14
% C
apac
ity R
educ
tion
Depth of Pit / Wall Height (ft)
Full Load Capacity Reduction (AGZ140-180E)
Distance = 6 f t Distance = 8 f t Distance = 10 f t
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0 8 10 12 13 14
% P
ower
Incr
ease
Depth of Pit / Wall Height (ft)
Power Increase (AGZ140-211E)
Distance = 6 ft Distance = 8 ft Distance = 10 ft
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
0 8 10 12 13 14
% C
apac
ity R
educ
tion
Depth of Pit / Wall Height (ft)
Full Load Capacity Reduction (AGZ191-241E)
Distance = 6 ft Distance = 8 ft Distance = 10 ft
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
10.0
11.0
0 8 10 12 13 14
% P
ower
Incr
ease
Depth of Pit / Wall Height (ft)
Power Increase (AGZ226-241E)
Distance = 6 ft Distance = 8 ft Distance = 10 ft
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 12 www.DaikinApplied.com
applICaTIon ConsIderaTIons
Figure 23: Typical Piping, Brazed-Plate Evaporator
Inlet Strainer GuidelinesAn inlet water strainer kit must be installed in the chilled water piping before the evaporator inlet. Several paths are available to meet this requirement:
1. A factory installed option.
2. A field-installed kit shipped-loose with the unit that consists of:
• Y-type area strainer with 304 stainless steel perforated basket, Victaulic pipe connections and strainer cap.
• Extension pipe with two Schrader fittings that can be used for a pressure gauge and thermal dispersion flow switch. The pipe provides sufficient clearance from the evaporator for strainer basket removal.
• ½-inch blowdown valve • Two grooved clamps
Both are sized per Table 2 and with the pressure drop shown in the Strainer Pressure Drop graph. Connection sizes are given in the physical data section beginning on page 29.
3. A field-supplied strainer that meets specification and installation requirements of the current Installation, Operation and Maintenance Manual available at www.DaikinApplied.com.
Figure 24: Factory Installed Strainer
Table 2: Strainer Data
Trailblazer™ Model
Strainer Size in (mm)
Maximum perforation size
in (mm)
Factory Installed Option
Field Installed Option
030-070 2.5 (64) 0.063 (1.6) Y Y
075-130 3.0 (76) 0.063 (1.6) Y Y
140-180 4.0 (102) 0.063 (1.6) Y Y
191-241 6.0 (152) 0.063 (1.6) Y Y
Figure 25: Strainer Pressure Drop
Water Flow Limitations Constant FlowThe evaporator flow rates and pressure drops shown in Figure 31 on page 27 and Table 20 on page 28 are for full load design purposes. The maximum flow rate and pressure drop are based on a 6°F temperature drop. Flow rates above the maximum values will result in unacceptable temperature and pressure drops and can cause excessive erosion, potentially leading to failure.
The minimum flow and pressure drop is based on a full load evaporator temperature drop of 16°F. Evaporator flow rates
AirVent
FlowSwitch
VibrationEliminators
Drain
Outlet
Inlet
PIsolationValves
Strainer
WELDED PIPE CONNECTIONS ARE NOT ALLOWED BETWEEN THE STRAINER AND EVAPORATOR DUE TO THE CHANCE OF SLAG ENTERING THE EVAPORATOR
2.5 in 3.0 in4.0 in
6.0 in.
2.0 in.
0.1
1.0
10.0
100.0
10.0 100.0 1000.0
Pres
sure
Dro
p ( f
t)
Flow Rate (gpm)
applICaTIon ConsIderaTIons
www.DaikinApplied.com 13 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
below the minimum values can result in laminar flow causing freeze-up problems, scaling and poor control.
Variable FlowReducing evaporator flow in proportion to load can reduce system power consumption. The rate of flow change should be a maximum of 10 percent of the flow per minute. For example, if the maximum design flow is 200 gpm and it will be reduced to a flow of 140 gpm, the change in flow is 60 gpm. Ten percent of 200 gpm equals 20 gpm change per minute, or a minimum of three minutes to go from maximum to desired flow. The water flow through the evaporator must remain between the minimum and maximum values listed in Table 20 on page 28. If flow drops below the minimum allowable, large reductions in heat transfer can occur. If the flow exceeds the maximum rate, excessive pressure drop and tube erosion can occur.
System Water Volume ConsiderationsAll chilled water systems need adequate time to recognize a load change, respond to the change and stabilize to avoid undesirable short cycling of the compressors or loss of temperature control. In air conditioning systems, the potential for short cycling usually exists when the building load falls below the minimum chiller plant capacity or on close-coupled systems with very small water volumes. Some of the things the designer should consider when looking at water volume are the minimum cooling load, the minimum chiller plant capacity during the low load period and the desired cycle time for the compressors. Assuming that there are no sudden load changes and that the chiller plant has reasonable turndown, a rule of thumb of “gallons of water volume equal to two to three times the chilled water gpm flow rate” is often used. A storage tank may have to be added to the system to reach the recommended system volume.
Evaporator Freeze ProtectionEvaporator freeze-up can be a concern in the application of air-cooled water chillers in areas experiencing below freezing temperatures. To protect against freeze-up, insulation and an electric heater are furnished with the evaporator. AGZ-E chillers have an external plate heater and thermostat that helps protect the evaporator down to -20°F (-29°C) ambient air temperature. Although the evaporator is equipped with freeze protection, it does not protect water piping external to the unit or the evaporator itself if there is a power failure or heater burnout, or if the chiller does not directly control the chilled water pumps. Use one of the following recommendations for additional protection:
1. If the unit will not be operated during the winter, drain evaporator and chilled water piping and flush with glycol.
2. Add a year-round glycol solution to the chilled water system to provide freeze protection. Freeze point should be approximately 10°F(5.6°C) below minimum design ambient temperature or 10°F below the lowest design leaving water temperature, whichever is lower. The use of glycol anti-freeze is generally considered the safest protection against freeze-up, however, it will reduce the performance of the unit, depending the concentration. Take this into consideration during initial system design
and selection. On glycol applications, a minimum fluid concentration should be based on Burst Protection limits.
3. The field addition of thermostatically controlled heat tracing and insulation to exposed piping. Factory insulation will have to be removed and replaced after installation of the tracing.
4. Continuous circulation of water through the chilled water piping and evaporator. (Dependent on power availability).
The evaporator heater cable or immersion heater is factory wired to the 115 volt circuit in the control box. This power should be supplied from a separate source to maximize unit protection, but it can be supplied from the control circuit. Operation of the heaters is automatic through the ambient sensing thermostat that energizes the evaporator heaters for protection against freezing. Unless the evaporator is drained in the winter or contains an adequate concentration of anti-freeze, the disconnect switch to the evaporator heater must be closed. Conversely, do not apply heat to the evaporator if it is drained.
Chilled Water PumpIt is important that the chilled water pumps be wired to, and controlled by, the chiller’s microprocessor. The chiller controller has the capability to selectively send the signal to a pump relay (by others) to start pump A or B or automatically alternate pump selection and also has standby operation capability. The controller will energize the pump whenever at least one circuit on the chiller is enabled to run, whether there is a call for cooling or not. This helps ensure proper unit start-up sequence. The pump will also be turned on when the water temperature stats equal to or goes below the Freeze Setpoint for longer than a specified time to help prevent evaporator freeze-up. Connection points are shown in the Field Wiring Diagram on page 49 and page 50.
CAUTIONAdding glycol or draining the system is the recommended method of freeze protection. If the chiller does not have the ability to control the pumps and the water system is not drained in temperatures below freezing, catastrophic evaporator failure may occur.
Failure to allow pump control by the chiller may cause the following problems:
1. If any device other than the chiller attempts to start the chiller without first starting the pump, the chiller will lock out on the No Flow alarm and require manual reset.
2. If the chiller evaporator water temperature drops below the “Freeze setpoint” the chiller will attempt to start the water pumps to avoid evaporator freeze. If the chiller does not have the ability to start the pumps, the chiller will alarm due to lack of water flow.
3. If the chiller does not have the ability to control the pumps and the water system is not drained in temperatures below freezing, the chiller may be subject to catastrophic evaporator failure due to freezing. The freeze rating of the evaporator is based on the immersion heater and pump operation. The immersion heater itself may not be able to properly protect the evaporator from freezing without circulation of water.
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 14 www.DaikinApplied.com
applICaTIon ConsIderaTIons
Low Ambient OperationCompressor staging is adaptively determined by system load, ambient air temperature, and other inputs to the MicroTech® III control. The standard minimum ambient temperature is 32°F (0°C). A low ambient option with fan VFD allows operation down to -10°F (-23°C). The minimum ambient temperature is based on still conditions where the wind is not greater than 5 mph. Greater wind velocities will result in reduced discharge pressure, increasing the minimum operating ambient temperature. Field installed louvers are available and recommended to help allow the chiller to operate effectively down to the ambient temperature for which it was designed.
High Ambient OperationTrailblazer® units for high ambient operation (105°F to 125°F, 40°C to 52°C) require the addition of the optional high ambient package that includes a small fan with a filter in the air intake to cool the control panel. All units with the optional VFD low ambient fan control include the high ambient option.
Partial Heat RecoveryPartial heat recovery for Trailblazer® chillers is achieved by adding an auxiliary heat exchanger in each unit refrigerant circuit between the compressors and the condenser coils. The heat exchangers transfer the heat from the compressor discharge gas to a separate water loop which can be used for various heating applications. The heating recovery cycle is only available when the chiller is running. The partial heat recovery auxiliary heat exchanger can return water up to 155°F; however, this value cannot be set. The amount of heat produced can be up to 50% of the nominal cooling capacity and is dependent on the requested cooling load, the operating temperatures, and the water flow rate through the auxiliary heat exchangers. Please note, if potable water is desired, a secondary heat exchanger in a separate water loop must be used. Contact a local Daikin Applied sales representative for information on specific applications.
Partial heat recovery components that are factory-supplied:
• Brazed plate heat exchangers - one in each circuit with the water piped together in parallel for one inlet and one outlet water connection, see Figure 32 for pressure drops.
• Insulation of heat exchangers and water piping at the unit.• Separate temperature sensors for inlet and outlet water
piping at the heat exchangers.• Connections for air vent at the outlet water piping and
drain at the inlet water piping.• Immersion heater for each auxiliary heat exchanger for
freeze protection.
Required partial heat recovery field piping (see Figure 26) and connections (see page 51) are listed below.
• An external 3-way valve or a variable speed pump in the auxiliary heat exchanger water piping for modulation of flow through the heat exchangers by the unit controller. Heat recovery water loop pump must also be controlled by the chiller controller.
• A cleanable strainer with perforations no larger than 0.063” (1.6 mm) diameter must be installed within 5 feet (1500 mm) of pipe length from the heat exchanger inlet and downstream of any welded connections, see Figure 25 for pressure drop.
• Water piping and other portions of the heat recovery water loop must be insulated to prevent heat loss and possible injury due to hot surfaces.
• A field-installed safety or relief valve on the water side is required to prevent risks in case the water temperature thermostat should fail.
• Separate 120 volt power supply for immersion heaters. A junction box for a 120 Volt power connection is provided.
• A water tank and an additional water heater is suggested in the heat recovery piping loop for initial water temperature control and better loop stability. Typical loop sizing guidance is water volume (in gallons) be greater than or equal to two to three times the heat recovery water flow rate (in gallons/minute).
applICaTIon ConsIderaTIons
www.DaikinApplied.com 15 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 26: Partial Heat Recovery Field Piping Schematic
Condenser Coil Options and Coating ConsiderationsThe standard coils on the Trailblazer® chiller are an all aluminum alloy microchannel design with a series of flat tubes containing multiple, parallel flow microchannels layered between the refrigerant manifolds. The microchannel coils are designed to withstand 1000+ hour acidified synthetic sea water fog (SWAAT) test (ASTM G85-02) at 120°F (49°C) with 0% fin loss and develop no leaks. The all-aluminum microchannel coils provide superior longevity and durability for non-corrosive applications.
Should the standard microchannel coil not meet the corrosion requirements for the application, additional coil options are available.
Aluminum fin/copper tube coils consist of 3/8 inch (10 mm) seamless copper tubes mechanically bonded into plate-type aluminum fins. The fins have full drawn collars to completely cover the tubes. The aluminum fin/copper tube option provides excellent durability in non-corrosive environments, and adds the benefit of ease of field repair. This option is only available for models AGZ030-070E.
Figure 27: Aluminum Fin/Copper Tube Coils
ELIMINATORVIBRATION
* FIELD INSTALLED HEAT RECOVERY LOOP
AGZE PACKAGE CHILLER WITH OPTIONAL HEAT RECOVERY
MICROCHANNEL ALUMINUM COIL
5. WATER PIPING CONNECTIONS AT THE UNIT ARE 2.0" VICTAULIC.4. FOR POTABLE WATER USE - A SECONDARY HEAT EXCHANGER IN A SEPARATE LOOP IS REQUIRED.
NOTES:
A VFD CONTROLLED WATER PUMP OR AN ELECTRONIC 3-WAY VALVE IS REQUIRED FOR TEMPERATURE CONTROL.1.FIELD INSTALLED 3-WAY VALVE OR WATER PUMP VFD TO BE CONTROLLED BY 0-10 DCV OR 4-20 mA OUTPUT FROM2. THE CHILLER UNIT CONTROLLER.GALLONS OF WATER VOLUME FOR THE HEAT RECOVERY PIPING LOOP SHOULD EQUAL 2 TO 3 TIMES THE3. HEAT RECOVERY LOOP GPM FLOW RATE.
VIBRATIONELIMINATOR
0AD334549813
(USER OPTION)
WATER PUMPFIELD INSTALLED
CONNECTIONS
CONTROLLED WATER PUMPTERMINAL BOX FOR FIELD WIRING TO HEAT
BACK END OF UNIT
ARE NOT REQUIRED WHEN USING A VFD
3-WAY VALVE
HEAT LOAD
HEAT
SHUT OFF
THERMOMETER
EXCHANGER FREEZE PROTECTION HEATERS
ELECTRONIC
RECOVERY
SHUT OFF
CONNECTIONTEE
TEE CONNECTION & ELECTRONIC 3-WAY VALVE
1
FIELD
1
5
INLET WATERSTRAINER
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 16 www.DaikinApplied.com
applICaTIon ConsIderaTIons
BlackFin™ coils include aluminum fins pre-coated with a durable phenolic epoxy coating. In addition to providing a durable coating on the fin material, the BlackFin™ coils provide and epoxy barrier between the aluminum fin stock and the copper tube, to prevent the galvanic corrosion that can occur between the dissimilar metals. This option will provide a 1000+ hour salt spray rating per ASTM B117-90. The BlackFin® option provides an economical solution for enhanced protection in mildly corrosive environments. This option is only available for models AGZ030-070E.
Copper-fin coils consist of 3/8 inch (10 mm) seamless copper tubes mechanically bonded into plate-type copper fins. The fins have full drawn collars to completely cover the tubes. Since the fin and the tube materials are similar, the opportunity for galvanic corrosion is eliminated. The copper fin/copper tube option provides excellent longevity in marine environments; however this option is not well suited for industrial or chemical atmospheric contamination. This option is only available for models AGZ030-070E.
Table 3: Coil/Coating Selection Matrix
Coil Option Non-Corrosive1 Unpolluted Marine2 Industrial3 Combined Marine-Industrial4
Standard Microchannel +++ - - -
Aluminum Fin/Copper Tube5 +++ - - -
Copper Fin/Copper Tube5 +++ +++ - -
BlackFin®5 +++ + + -
ElectroFin® +++ +++ +++ ++
NOTE: 1. Non-corrosive environments may be estimated by the appearance of existing equipment in the immediate area where the
chiller is to be placed.
2. Marine environments should take into consideration proximity to the shore as well as prevailing wind direction.
3. Industrial contaminants may be general or localized, based on the immediate source of contamination (i.e. diesel fumes due to proximity to a loading dock).
4. Combined marine-industrial are influenced by proximity to shore, prevailing winds, general and local sources of contamination.
5. Available for models AGZ030-070E only.
ElectroFin® coil coating is a water-based extremely flexible and durable epoxy polymer coating uniformly applied to all coil surfaces through a multi-step, submerged electrostatic coating process. ElectroFin® condenser coils provide a 6000+ hour salt spray resistance per ASTM B117-90, applied to both the coil and the coil frames. The ElectroFin® coated coils also receive a UV-resistant urethane top-coat to provide superior resistance to degradation from direct sunlight. This coil coating option provides the best overall protection against corrosive marine, industrial or combined atmospheric contamination. This coating option may be applied to any of the untreated coil options offered, to provide excellent longevity and resistance to corrosion.
Figure 28: ElectroFin® Coil Coating
sound daTa
www.DaikinApplied.com 17 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
BackgroundSound levels can be as important as unit cost and efficiency. The inherently quiet scroll compressors used in Trailblazer® chillers are coupled with precision engineering for industry-leading sound levels.
AHRI has established standards to provide uniform methods for the determination of the sound levels of equipment. For large air-cooled chillers, it is AHRI Standard 370, Sound Ratings of Large Outdoor Refrigeration and Air-Conditioning Equipment. Data contained in this section are in accordance with this standard.
“A” WeightingSound values may be represented several ways. One of the more common forms is the “A” weighted value, which adds or subtracts a specific amount to each center band frequency, then logarithmically adds the values to establish a single value. The “A” scale is used to represent how the human ear receives sound. The amount added in each frequency band directly corresponds to how sensitive the human ear is to each frequency.
Table 4: “A” Scale Relative Response to Human Ear
Frequency, f , in Hz
31 .5 63 125 250 500 1K 2K 4K 8K 16K
dB(A) −39.4 −26.2 −16.1 −8.6 −3.2 0 +1.2 +1.0 −1.1 −6.6
Sound Pressure Levels - Full LoadSound pressure is the sound level that can be measured at some distance from the source. Sound pressure varies with distance from the source and depends on the surroundings. For example, a brick wall (a reflective surface) located 10 feet from a unit will affect the sound pressure measurements differently than a brick wall at 20 feet. Sound pressure is measured in decibels (dB).
All sound pressure data in the following pages are considered typical of what can be measured in a free field with a handheld sound meter, in the absence of any nearby reflective surfaces except the floor under the unit. Sound pressure levels are measured at 30 feet (10 meters) from the side of the unit at 100% load and standard AHRI conditions (per AHRI standard 550/590) of 95°F (35°C) ambient air temperature and 44°F (7°C) leaving evaporator water temperatures for air-cooled units.
Sound Power LevelsSound power is a calculated quantity and cannot be measured directly like sound pressure. Sound power is not dependent on the surrounding environment or distance from the source, as is sound pressure. It can be thought of as basic sound level emanating from the unit without consideration of distance or obstructions. Measurements are taken over a prescribed area around the unit and the data is mathematically calculated to give the sound power, dB. Acoustical consultants sometimes use sound power octave band data to perform a detailed acoustical analysis.
Figure 29: Sound Power vs. Sound Pressure
The data in Table 6 on page 19 and Table 10 on page 21 present sound power levels per AHRI Standard 370, “Sound Rating of Large Outdoor Refrigerating and Air Conditioning Equipment”. This standard was developed to establish uniform methods of determining the sound power radiated by large outdoor equipment. Measurements are taken over a prescribed area around the unit and the data is mathematically calculated to give the sound power, dB.
Sound Reduction due to Distance from the UnitThe distance between a source of sound and the location of the sound measurement plays an important role in minimizing sound problems. Sound pressure can be calculated at any distance from the unit if sound power and “Q,” the directionality factor, are known. “Q” is a dimensionless number that compensates for the type of sound reflection from the source. For example, a unit sitting on a flat roof or ground with no other reflective surfaces or attenuation due to grass, snow, etc., between source and receiver will have Q=2. See Figure 30 for definitions of Q=1, Q=2, and Q=4.
Sound Source(Sound Power)
Sound Pressure
Measured at 30ft (10m)
sound daTa
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 18 www.DaikinApplied.com
sound daTa
Figure 30: “Q” Reflective Sources Illustration
Once sound power and “Q” are known, sound pressure at any distance from the unit can be calculated using the following equation:
Lp = Lw - (20 log r) + (10 log Q) - 0.5Where:
Lp = sound pressure
Lw = sound power
r = distance from unit in feet
Q = directionality factor
With Q=1, Unit suspended in space (theoretical condition), the equation simplifies to:
Lp = Lw - (20 log r) -0.5With Q=2, for a unit sitting on a flat roof or ground with no adjacent vertical wall as a reflective surface, the equation simplifies to:
Lp = Lw - (20 log r) + 2.5With Q=4 for a unit sitting on a flat roof or ground with one adjacent vertical wall as a reflective surface, the equation simplifies to:
Lp = Lw - (20 log r) + 5.5
Results for typical distances and the two most usual cases of “Q” are tabulated in Table 5.
Table 5: dB Conversion of Sound Power to Pressure
Distance from Sound Source
ft (m)
DB Reduction from Sound Power at the Source to Sound Pressure at Referenced Distance
Q=2 Q=4
30 (9) 27.1 24.0
50 (15) 31.6 28.5
75 (23) 35.1 32.0
100 (30) 37.6 34.5
150 (46) 41.1 38.0
200 (61) 43.6 40.5
300 (91) 47.6 44.0
Sound Data NotesWhen referencing sound data below, please note:
1. Octave band readings are flat dB, overall is A-weighted.
2. Sound pressure data taken at 30 feet (9 meters) from side of unit
3. Q=2, unit on flat surface with no adjacent wall.
sound daTa
sound daTa
www.DaikinApplied.com 19 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 6: 60 Hz Sound Power without Sound Insulation
Table 7: 60 Hz Sound Power with Sound Insulation
Model Octave Band at Center Frequency Overall A-Weighted
63 125 250 500 1000 2000 4000 8000 Without Sound Insulation 75% Load 50% Load 25% Load30 92 91 88 87 83 78 73 68 88 87 85 8435 92 91 89 87 83 78 73 68 88 87 85 8440 92 91 90 88 84 79 74 69 89 88 86 8545 93 92 91 89 85 79 74 69 90 89 87 8650 93 93 91 89 85 79 74 69 90 89 87 8655 93 93 93 89 86 81 76 71 91 90 88 8760 94 93 94 89 86 81 76 71 91 90 88 8765 95 94 94 89 87 81 76 71 92 91 89 8870 95 95 94 89 87 81 76 71 92 91 90 8975 95 95 95 89 87 81 76 71 92 91 89 8880 95 95 95 89 87 81 76 71 92 91 89 8890 94 95 92 91 89 83 81 81 93 92 90 89100 93 95 92 92 89 83 82 82 94 93 91 90110 93 96 92 92 90 84 84 82 95 94 92 91120 93 96 92 92 90 84 84 82 95 94 92 91130 94 97 93 93 91 85 85 84 96 95 93 92140 95 98 93 94 93 87 86 85 97 96 94 93150 96 98 95 94 95 90 88 85 99 98 96 95161 97 98 96 95 95 91 90 86 99 98 96 95170 96 98 96 94 91 88 88 85 97 96 94 93180 96 98 96 94 91 88 88 85 97 96 94 93191 96 98 96 94 91 88 88 85 97 96 94 93211 97 98 97 94 94 90 89 85 99 98 96 95226 98 98 98 94 94 90 90 86 99 98 96 95241 98 98 98 95 96 90 90 86 100 99 97 96
Model Octave Band at Center Frequency Overall A-Weighted63 125 250 500 1000 2000 4000 8000 With Sound Insulation 75% Load 50% Load 25% Load
30 84 84 83 84 77 75 74 70 85 84 82 8135 84 84 83 84 77 75 74 70 85 84 82 8140 84 84 83 84 77 75 74 70 85 84 82 8145 85 85 85 86 80 77 75 70 87 86 84 8350 85 85 85 86 80 77 75 70 87 86 84 8355 85 85 85 86 80 77 75 70 87 86 84 8360 85 85 85 86 80 77 75 70 87 86 84 8365 86 85 85 86 80 77 75 70 87 86 84 8370 88 85 85 86 80 77 75 70 87 86 85 8475 88 85 86 86 81 81 77 70 88 87 85 8480 88 85 87 86 83 81 77 71 88 88 86 8590 88 87 87 86 83 80 77 71 88 87 85 84100 90 86 86 86 83 80 78 71 88 87 85 84110 90 86 87 86 82 79 76 71 88 87 85 84120 91 85 88 86 82 81 79 72 89 88 86 85130 91 85 88 86 82 81 80 72 89 88 86 85140 91 86 90 87 82 81 80 72 89 88 86 85150 92 87 91 87 84 84 82 72 90 90 88 87161 93 87 91 87 85 84 82 72 91 90 88 87170 92 88 89 89 86 82 80 74 91 90 88 87180 92 88 89 89 86 82 80 74 91 90 88 87191 92 88 89 89 86 82 80 74 91 90 88 87211 93 88 90 89 89 84 81 74 93 92 90 89226 94 88 91 89 89 84 82 75 93 92 90 89241 94 88 91 90 91 84 82 75 94 93 91 90
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 20 www.DaikinApplied.com
sound daTa
Table 8: 60 Hz Sound Pressure (at 30 feet from side of unit) without Sound Insulation
Table 9: 60 Hz Sound Pressure (at 30 ft from side of unit) with Sound Insulation
Model Octave Band at Center Frequency, 30 ft. from unit Overall A-Weighted
63 125 250 500 1000 2000 4000 8000 Without Sound Insulation 75% Load 50% Load 25% Load30 65 64 61 60 56 51 46 41 61 60 58 5735 65 64 62 60 56 51 46 41 61 60 58 5740 65 64 63 61 57 52 47 42 62 61 59 5845 66 65 64 62 58 52 47 42 63 62 60 5950 66 66 64 62 58 52 47 42 63 62 60 5955 66 66 66 62 59 54 49 44 64 63 61 6060 67 66 67 62 59 54 49 44 64 63 61 6065 68 67 67 62 60 54 49 44 65 64 62 6170 68 68 67 62 60 54 49 44 65 64 63 6275 68 68 68 62 60 54 49 44 65 64 62 6180 66 63 63 63 62 56 53 53 66 65 63 6290 67 67 67 64 62 56 54 54 67 66 64 63100 66 68 65 65 62 56 57 55 67 66 64 63110 66 69 67 65 61 55 55 55 67 66 64 63120 68 67 67 65 61 59 60 57 68 67 65 64130 67 68 68 64 61 60 60 55 68 67 65 64140 68 69 69 65 61 60 61 56 69 68 66 65150 69 70 70 65 62 62 62 56 70 69 67 66161 69 70 70 65 62 63 62 56 70 69 67 66170 69 71 69 67 64 61 60 58 70 69 67 66180 69 71 69 67 64 61 61 58 70 69 67 66191 69 71 69 67 64 61 61 58 70 69 67 66211 70 71 70 67 66 62 62 58 71 70 68 67226 70 71 70 67 66 62 62 59 71 70 68 67241 70 71 70 68 68 62 62 59 72 71 69 68
Model Octave Band at Center Frequency, 30 ft. from unit Overall A-Weighted
63 125 250 500 1000 2000 4000 8000 With Sound Insulation 75% Load 50% Load 25% Load30 57 57 56 57 50 48 47 43 58 57 55 5435 57 57 56 57 50 48 47 43 58 57 55 5440 57 57 56 57 50 48 47 43 58 57 55 5445 58 58 58 59 53 50 48 43 60 59 57 5650 58 58 58 59 53 50 48 43 60 59 57 5655 58 58 58 59 53 50 48 43 60 59 57 5660 58 58 58 59 53 50 48 43 60 59 57 5665 59 58 58 59 53 50 48 43 60 59 57 5670 61 58 58 59 53 50 48 43 60 59 58 5775 61 58 59 59 54 54 50 43 61 60 58 5780 61 59 59 59 55 54 50 44 61 60 58 5790 61 60 60 59 56 53 50 44 61 60 58 57100 63 59 59 59 56 53 51 44 61 60 58 57110 63 59 60 59 55 52 49 44 61 60 58 57120 64 58 61 59 55 54 51 45 61 61 59 58130 63 58 61 59 56 54 51 45 62 61 59 58140 64 59 62 60 56 54 53 45 63 62 60 59150 65 60 63 60 57 56 54 45 63 63 61 60161 65 60 63 60 58 56 54 45 64 63 61 60170 65 61 62 62 59 55 53 47 64 63 61 60180 65 61 62 62 60 56 54 47 64 63 61 60191 65 61 62 62 60 56 54 47 64 63 61 60211 66 61 63 62 62 57 55 47 66 65 63 62226 66 61 63 62 62 57 55 48 66 65 63 62241 66 61 63 63 63 57 55 48 67 66 64 63
sound daTa
www.DaikinApplied.com 21 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 10: 50 Hz Sound Power
Table 11: 50 Hz Sound Power with Sound Insulation
Model Octave Band at Center Frequency Overall A-Weighted
63 125 250 500 1000 2000 4000 8000 Without Sound Insulation 75% Load 50% Load 25% Load30 89 88 85 84 80 75 70 65 85 84 82 8135 89 88 85 84 80 75 70 65 85 84 82 8140 89 88 86 84 80 75 70 65 85 84 82 8145 89 88 87 85 81 76 71 66 86 85 83 8250 90 89 88 86 82 76 71 66 87 86 84 8355 90 90 88 86 82 76 71 66 87 86 84 8360 90 90 90 86 83 78 73 68 88 87 85 8465 91 90 91 86 83 78 73 68 88 87 85 8470 92 91 91 86 84 78 73 68 89 88 87 8675 92 92 91 86 84 78 73 68 89 89 86 8580 92 92 91 86 84 78 73 68 89 89 86 8590 91 92 88 88 86 80 78 78 90 90 87 86100 90 92 88 89 86 80 79 79 91 91 88 87110 90 93 88 89 87 81 81 79 91 91 88 87120 90 93 88 89 87 81 81 79 91 91 88 87130 91 94 89 90 88 82 82 80 92 92 89 88140 92 95 89 91 90 84 83 81 94 94 91 90150 93 95 91 91 92 87 85 81 95 95 92 91161 94 95 92 92 92 88 86 82 95 95 92 91170 93 95 93 90 87 84 84 82 94 94 91 90180 93 95 93 91 88 85 84 82 94 94 91 90191 93 95 93 91 88 85 85 82 94 94 91 90211 94 95 93 91 91 87 85 81 95 95 92 91226 95 95 94 91 91 87 86 82 95 95 92 91241 95 95 94 92 93 87 86 82 96 96 93 92
Model Octave Band at Center Frequency
63 125 250 500 1000 2000 4000 8000 With Sound Insulation 75% Load 50% Load 25% Load30 81 81 80 81 74 72 71 67 82 81 79 7835 81 81 80 81 74 72 71 67 82 81 79 7840 81 81 80 81 74 72 71 67 82 81 79 7845 82 82 82 83 77 74 72 67 84 83 81 8050 82 82 82 83 77 74 72 67 84 83 81 8055 82 82 82 83 77 74 72 67 84 83 81 8060 82 82 82 83 77 74 72 67 84 83 81 8065 83 82 82 83 77 74 72 67 84 83 81 8070 85 82 82 83 77 74 72 67 84 83 82 8175 85 82 83 83 78 78 74 67 85 84 82 8180 85 83 83 83 80 78 74 68 85 85 83 8290 85 84 84 83 80 77 74 68 85 84 82 81100 87 83 83 83 80 77 75 68 85 84 82 81110 87 83 84 83 79 76 73 68 85 84 82 81120 88 82 85 83 79 78 76 69 86 85 83 82130 88 82 85 83 79 78 77 69 86 85 83 82140 88 83 87 84 79 78 77 69 86 85 83 82150 89 84 88 84 81 81 79 69 88 87 85 84161 90 85 88 84 82 81 79 69 88 87 85 84170 89 85 86 86 83 79 77 71 88 87 85 84180 89 85 86 86 83 79 77 71 88 87 85 84191 89 85 86 86 83 79 77 71 88 87 85 84211 90 85 87 86 86 81 78 71 89 89 87 86226 91 85 88 86 86 81 79 72 90 89 87 86241 91 85 88 87 88 81 79 72 91 90 88 87
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 22 www.DaikinApplied.com
sound daTa
Table 12: 50 Hz Sound Pressure (at 30 feet from side of unit)
Table 13: 50 Hz Sound Pressure (at 30 ft from side of unit) with Sound Insulation
Model Octave Band at Center Frequency, 30 ft. from unit Overall A-Weighted
63 125 250 500 1000 2000 4000 8000 Without Sound Insulation 75% Load 50% Load 25% Load30 62 61 58 57 53 48 43 38 58 57 55 5435 62 61 59 57 53 48 43 38 58 57 55 5440 62 61 60 58 54 49 44 39 59 58 56 5545 63 62 61 59 55 49 44 39 60 59 57 5650 63 63 61 59 55 49 44 39 60 59 57 5655 63 63 63 59 56 51 46 41 61 60 58 5760 64 63 64 59 56 51 46 41 61 60 58 5765 65 64 64 59 57 51 46 41 62 61 59 5870 65 65 64 59 57 51 46 41 62 61 60 5975 65 65 65 59 57 51 46 41 62 61 59 5880 63 60 60 60 59 53 50 49 63 62 60 5990 64 64 64 61 59 53 51 51 64 63 61 60100 63 65 62 62 59 53 54 52 64 63 61 60110 63 66 64 62 58 52 52 52 64 63 61 60120 65 64 64 62 58 56 57 54 65 64 62 61130 64 65 65 61 58 57 57 52 65 64 62 61140 65 66 66 62 58 57 58 53 66 65 63 62150 66 67 67 62 59 59 59 53 67 66 64 63161 66 67 67 62 59 60 59 53 67 66 64 63170 66 68 66 64 61 58 57 55 67 66 64 63180 66 68 66 64 61 58 58 55 67 66 64 63191 66 68 66 64 61 58 58 55 67 66 64 63211 67 68 67 64 63 59 59 55 68 67 65 64226 67 68 67 64 63 59 59 56 68 67 65 64241 67 68 67 65 64 59 59 56 69 68 66 65
Model Octave Band at Center Frequency, 30 ft. from unit63 125 250 500 1000 2000 4000 8000 With Sound Insulation 75% Load 50% Load 25% Load
30 54 54 53 54 47 45 44 40 55 54 52 5135 54 54 53 54 47 45 44 40 55 54 52 5140 54 54 53 54 47 45 44 40 55 54 52 5145 55 55 55 56 50 47 45 40 57 56 54 5350 55 55 55 56 50 47 45 40 57 56 54 5355 55 55 55 56 50 47 45 40 57 56 54 5360 55 55 55 56 50 47 45 40 57 56 54 5365 56 55 55 56 50 47 45 40 57 56 54 5370 58 55 55 56 50 47 45 40 57 56 55 5475 58 55 56 56 51 51 47 40 58 57 55 5480 58 55 56 56 53 51 47 41 58 58 56 5590 58 57 57 56 53 50 47 41 58 57 55 54100 60 56 56 56 53 50 48 41 58 57 55 54110 60 56 57 56 52 49 46 41 58 57 55 54120 61 55 58 56 52 51 48 42 58 58 56 55130 61 55 58 56 53 51 48 42 59 58 56 55140 61 56 59 57 53 51 50 42 60 59 57 56150 62 57 60 57 54 53 51 42 60 60 57 57161 62 57 60 57 55 53 51 42 61 60 58 57170 62 58 59 59 56 52 50 44 61 60 58 57180 62 58 59 59 57 53 51 44 61 60 58 57191 62 58 59 59 57 53 51 44 61 60 58 57211 63 58 60 59 59 54 52 44 63 62 60 59226 63 58 60 59 59 54 52 45 63 62 60 59241 63 58 60 60 60 54 52 45 63 63 61 60
seleCTIon proCedure
www.DaikinApplied.com 23 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Selection with Inch-Pound (IP) unitsTrailblazer® chillers are ideal for a wide range of applications and operating conditions. The performance tables beginning on page 25 cover the standing application rating conditions of the current AHRI Standard 550/590. The tables are based on a 10°F (5.5°C) temperature drop through the evaporator. Adjustment factors for applications having other than a 10°F (5.5°C) drop can be found in Table 16 on page 24.
The minimum leaving chilled water temperature setpoint without glycol is 40°F (4°C). For brine selections, see Table 14 and Table 15 on page 24 for glycol adjustment factors. Ratings are based on a 0.0001 ft2 x hr x ºF/Btu fouling factor in the evaporator at sea level operation. For other fouling factors, different Delta-Ts, or altitude correction factors see Table 16 on page 24. For applications outside the catalog ratings, please contact a local Daikin Applied sales representative.
Selection exampleGiven:
• 50 tons minimum• 95°F ambient temperature• 120 gpm, 54°F to 44°F chilled water• 0.0001 evaporator fouling factor
1 . From Table 17 on page 25, an AGZ055E at the given conditions will produce 51.8 tons with a unit kW input of 59.6 and a unit EER of 10.4.
2 . Use the following formula to calculate any unknown elements (water only):
3 . Determine the evaporator pressure drop. Using Figure 31 on page 27, enter at about 124 gpm and follow up to the AGZ055E line intersect. Read horizontally to obtain an evaporator pressure drop of 13 feet of water.
Selection example using ethylene glycolGiven:
• 44 tons minimum• 95°F ambient air temperature• 54°F - 44°F chilled water temperature• 0.0001 evaporator fouling factor• Protect from freezing down to 0°F
1 . From Table 14 on page 24, select an ethylene glycol concentration of 40% to protect against freezing at 0°F.
2 . At 40% ethylene glycol, the adjustment factors are:
• Capacity = 0.981• kW = 0.993• GPM = 1.132• Pressure Drop = 1.557
3 . Select the AGZ050E from Table 17 on page 25 and correct with 40% ethylene glycol factors.
4 . Correct capacity = 0.981 X 48.3 tons = 47.3 tons
5 . Correct kW = 0.993 X 54.6 kW = 54.2 kW
6 . Calculate chilled water flow:
• Water flow @ corrected capacity
• Glycol flow (at 40% solution)
Determine the evaporator pressure drop. Using Figure 31 on page 27, enter at 128.5 gpm (water) and follow up to the AGZ050E line intersect. Read horizontally to obtain an evaporator pressure drop of 17 feet. Correct the pressure drop for 40% solution = 1.557 x 17 feet = 26.5 feet for ethylene glycol using Table 14 on page 24.
Selection with SI unitsUse the SI tables and the same procedures as with IP units. Use the following formula to calculate any missing elements (water only):
seleCTIon proCedure
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 24 www.DaikinApplied.com
seleCTIon proCedure
Ethylene & Propylene Glycol FactorsTrailblazer® units can operate with a leaving chilled fluid temperature range of 20°F (-7°C) to 65°F (18°C). A glycol solution is required when leaving chilled fluid temperature is below 40°F (4°C). The use of glycol will reduce the performance of the unit depending on concentration. NOTE: Ethylene and propylene glycol ratings are outside
the scope of the current AHRI Standard 550/590 certification program.
Table 14: Ethylene Glycol Correction Factors
Table 15: Propylene Glycol Correction Factors
Altitude Correction FactorsPerformance tables are based at sea level. Elevations other than sea level affect the performance of the unit. The decreased air density will reduce condenser capacity consequently reducing the unit’s performance. For performance at elevations other than sea level refer to Table 16.
Evaporator Temperature Drop FactorsPerformance tables are based on a 10°F (5°C) temperature drop through the evaporator. Adjustment factors for applications with temperature ranges from 6°F to 16°F (3.3°C to 8.9°C) are in Table 16. Temperature drops outside this 6°F to 16°F (3.3°C to 8.9°C) range can affect the control system’s capability to maintain acceptable control and are not recommended.
Table 16: Capacity and Power Derates
NOTE: Derate factors for models with remote evaporators can be found in the current installation manual at www.DaikinApplied.com.
AHRI CertificationPerformance on all 60Hz standard packaged models are certified per AHRI standard 550/590. Chillers that are 50Hz or that have an optional remote evaporator or include the partial heat recovery option are outside the scope of the AHRI rating program.
% E .G .Freeze Point
Capacity Power FlowPressure
Drop° F ° C
10 26 -3.3 0.997 0.999 1.028 1.090
20 18 -7.8 0.993 0.997 1.059 1.216
30 7 -14 0.987 0.995 1.094 1.379
40 -7 -22 0.981 0.993 1.132 1.557
50 -28 -33 0.972 0.99 1.174 1.811
% P.G.Freeze Point
Capacity Power FlowPressure
Drop° F ° C
10 26 -3.3 0.995 0.998 1.011 1.025
20 19 -7.8 0.988 0.995 1.03 1.15
30 9 -14 0.979 0.992 1.056 1.375
40 -5 -22 0.968 0.988 1.09 1.701
50 -27 -33 0.955 0.983 1.131 2.128
Altitude
Water Delta T
Fouling Factor
0.0001 (0.0176) 0.00025 (0.044) 0.00075 (0.132) 0.00175 (0.308)
°F °C Cap. Power Cap. Power Cap. Power Cap. Power
Sea Level
6 3.3 0.978 0.993 0.975 0.991 0.963 0.987 0.940 0.980
8 4.4 0.989 0.996 0.986 0.994 0.973 0.990 0.950 0.983
10 5.6 1.000 1.000 0.996 0.999 0.984 0.994 0.961 0.987
12 6.7 1.009 1.003 1.005 1.001 0.993 0.997 0.969 0.990
14 7.7 1.018 1.004 1.014 1.003 1.002 0.999 0.978 0.991
16 8.9 1.025 1.007 1.021 1.006 1.009 1.001 0.985 0.994
2000 feet
6 3.3 0.977 1.001 0.973 1.000 0.961 0.996 0.938 0.989
8 4.4 0.987 1.006 0.984 1.004 0.971 1.000 0.948 0.993
10 5.6 0.998 1.009 0.995 1.007 0.982 1.003 0.959 0.996
12 6.7 1.007 1.011 1.004 1.010 0.991 1.006 0.967 0.998
14 7.7 1.014 1.014 1.011 1.013 0.998 1.009 0.974 1.001
16 8.9 1.022 1.016 1.018 1.014 1.005 1.010 0.981 1.003
4000 feet
6 3.3 0.973 1.011 0.970 1.010 0.957 1.006 0.935 0.998
8 4.4 0.984 1.014 0.980 1.013 0.968 1.009 0.945 1.001
10 5.6 0.995 1.019 0.991 1.017 0.979 1.013 0.955 1.005
12 6.7 1.004 1.021 1.000 1.020 0.987 1.016 0.964 1.008
14 7.7 1.011 1.024 1.007 1.023 0.994 1.018 0.971 1.011
16 8.9 1.018 1.027 1.014 1.026 1.002 1.021 0.978 1.014
6000 feet
6 3.3 0.969 1.021 0.966 1.020 0.954 1.016 0.931 1.008
8 4.4 0.980 1.026 0.977 1.024 0.964 1.020 0.942 1.013
10 5.6 0.989 1.029 0.986 1.027 0.973 1.023 0.950 1.015
12 6.7 0.998 1.033 0.995 1.031 0.982 1.027 0.959 1.020
14 7.7 1.007 1.036 1.004 1.034 0.991 1.030 0.967 1.022
16 8.9 1.014 1.037 1.011 1.036 0.998 1.031 0.974 1.024
performanCe daTa
www.DaikinApplied.com 25 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 17: 60 Hz Part Load Performance Data (IP) Table 18: 60 Hz Part Load Performance Data (IP)Model % Load Tons kW EER IPLV
030
100 28.10 32.98 10.30
15 .1075 21.08 19.43 13.03
50 14.05 10.36 16.29
25 7.03 4.68 18.03
035
100 34.90 40.95 10.30
15 .4075 26.18 23.87 13.15
50 17.45 12.55 16.67
25 8.73 5.57 18.78
040
100 39.20 41.17 11.42
16 .5075 29.40 24.45 14.43
50 19.60 13.21 17.80
25 9.800 6.160 19.09
045
100 42.60 46.50 10.98
16 .4075 31.95 26.84 14.27
50 21.30 14.33 17.82
25 10.65 6.620 19.29
050
100 48.30 54.58 10.61
16 .0075 36.23 31.28 13.88
50 24.15 16.70 17.34
25 12.08 7.670 18.87
055
100 51.80 59.62 10.42
15.9075 38.85 34.64 13.46
50 25.90 18.00 17.26
25 12.95 7.940 19.57
060
100 57.00 64.89 10.53
15.8075 42.75 36.67 13.98
50 28.50 20.08 17.02
25 14.25 9.340 18.30
065
100 58.70 66.50 10.59
15.8075 44.03 38.08 13.87
50 29.35 20.65 17.05
25 14.68 9.800 17.97
070
100 65.100 77.320 10.10
15.8075 48.825 43.260 13.54
50 32.550 22.670 17.23
25 16.275 10.370 18.83
075
100 74.25 81.74 10.90
15.8475 55.69 47.46 14.10
50 37.12 26.53 16.80
25 18.56 11.84 18.80
080
100 78.62 87.12 10.83
15.8675 58.96 50.39 14.04
50 39.31 27.86 16.93
25 19.65 12.67 18.61
090
100 86.82 98.21 10.61
15 .7375 65.12 56.60 13.81
50 43.41 30.85 16.88
25 21.71 14.00 18.60
100
100 101.5 115.6 10.54
15.9975 76.14 64.71 14.12
50 50.76 35.34 17.23
25 25.38 16.58 18.37
Model % Load Tons kW EER IPLV
110
100 111.6 125.8 10.64
15.8775 83.67 71.84 13.98
50 55.78 39.38 17.00
25 27.89 17.88 18.72
120
100 123.7 140.9 10.53
15.8875 92.78 79.10 14.08
50 61.85 43.73 16.97
25 30.93 20.00 18.56
130
100 130.9 153.6 10.22
15 .7775 98.14 84.70 13.90
50 65.43 46.49 16.89
25 32.71 21.11 18.59
140
100 142.8 159.0 10.77
16 .2575 107.1 92.29 13.92
50 71.38 48.11 17.80
25 35.69 22.52 19.02
150
100 149.8 167.3 10.74
15.8875 112.4 96.23 14.01
50 74.90 53.00 16.96
25 37.45 23.87 18.83
161
100 156.2 180.7 10.37
15.8375 117.1 102.3 13.74
50 78.09 54.50 17.19
25 39.04 25.38 18.46
170
100 163.1 196.4 9.960
16 .1375 122.3 105.4 13.93
50 81.54 56.25 17.39
25 40.77 24.93 19.63
180
100 181.9 222.8 9.790
16 .1275 136.4 117.3 13.95
50 90.93 62.60 17.43
25 45.46 28.17 19.37
191
100 190.7 219.2 10.44
16.1975 143.1 120.0 14.31
50 95.37 66.45 17.22
25 47.69 29.49 19.41
211
100 197.4 230.5 10.28
16 .5175 148.1 124.1 14.32
50 98.71 66.87 17.71
25 49.36 29.34 20.19
226
100 212.1 234.8 10.84
16 .6575 159.1 133.5 14.30
50 106.1 71.14 17.89
25 53.03 30.72 20.72
241
100 230.0 269.5 10.24
16 .4375 172.5 146.7 14.12
50 115.0 77.66 17.77
25 57.50 34.56 19.97
performanCe daTa
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 26 www.DaikinApplied.com
performanCe daTa
Table 19: 60Hz Part Load Performance Data (IP) with High Efficiency Fan VFD option
Model % Load Tons kW EER IPLV
075
100 74.25 82.50 10.80
17 .6175 55.69 44.95 14.87
50 37.12 23.07 19.31
25 18.56 10.40 21.43
080
100 78.62 87.93 10.73
17 .3075 58.96 47.94 14.76
50 39.31 24.88 18.96
25 19.65 11.48 20.54
090
100 86.82 98.17 10.61
17.0975 65.12 54.74 14.27
50 43.41 27.54 18.92
25 21.71 12.60 20.67
100
100 101.7 116.7 10.46
16.9575 76.28 63.40 14.44
50 50.85 32.80 18.60
25 25.43 15.20 20.07
110
100 111.6 125.8 10.64
17 .5375 83.67 68.70 14.61
50 55.78 34.53 19.39
25 27.89 15.70 21.32
120
100 123.7 142.9 10.39
17 .2575 92.78 76.20 14.61
50 61.85 39.30 18.89
25 30.93 17.73 20.93
130
100 130.9 152.1 10.32
17 .2475 98.14 81.91 14.38
50 65.43 41.18 19.06
25 32.71 18.71 20.98
140
100 142.8 160.5 10.67
17 .2475 107.1 91.94 13.98
50 71.38 44.42 19.28
25 35.69 19.89 21.53
Model % Load Tons kW EER IPLV
150
100 149.8 168.1 10.69
17 .1675 112.4 94.43 14.28
50 74.90 47.92 18.76
25 37.45 20.67 21.74
161
100 156.2 181.5 10.33
16 .6675 117.1 99.58 14.11
50 78.09 51.38 18.24
25 39.04 23.18 20.21
170
100 163.1 197.3 9.920
17 .2175 122.3 101.9 14.41
50 81.54 52.07 18.79
25 40.77 22.57 21.67
180
100 181.9 221.7 9.840
16.9075 136.4 115.8 14.13
50 90.93 59.10 18.46
25 45.46 25.61 21.30
191
100 190.7 220.4 10.38
17 .4275 143.1 121.4 14.14
50 95.37 59.40 19.27
25 47.69 25.41 22.52
211
100 197.4 230.4 10.28
17 .4375 148.1 125.3 14.18
50 98.71 61.27 19.33
25 49.36 26.60 22.27
226
100 212.1 237.1 10.74
17.3975 159.1 133.4 14.31
50 106.1 66.00 19.29
25 53.03 29.50 21.57
241
100 230.0 269.4 10.25
17.1975 172.5 145.0 14.28
50 115.0 73.04 18.90
25 57.50 32.01 21.56
pressure drop daTa
www.DaikinApplied.com 27 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 31: Pressure Drop Curves - Unit Evaporator (Reference Data Table 20, next page)
Figure 32: Pressure Drop Curves - Heat Recovery Auxilliary Heat Exchangers (Reference Data Table 21, next page)
A
A
A
B
B
B
C
C
C
D
D
D
E
E
E
F
F
F
G
G
G
H
H
H
I
I
I
J
J
J
K
K
K
L
L
L
M
M
M
N
N
N
O
O
O
P
P
P
Q
Q
Q
S
S
S
T
T
T
U
U
U
V
V
V
W
W
W
X
X
X
Y
Y
Y
1
10
100
10 100 1000
Diff
eren
tial P
ress
ure
(ft)
Flow Rate (gpm)
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
1
1
2
2
3
3
4
4
5
5
6
6
0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
18.0
20.0
0.0 50.0 100.0 150.0 200.0 250.0
Diffe
rent
ial P
ress
ure
(ft)
Flow Rate (gpm)
pressure drop daTa
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 28 www.DaikinApplied.com
pressure drop daTa
Table 20: Pressure Drop Data - Unit Evaporator
Table 21: Pressure Drop Data - Heat Recovery Auxilliary Braze Plate Heat Exchangers
Part Load Flow System Only Full Load Flow System Only Fixed and Variable Flow Systems
Minimum Flow Rate2 Minimum Flow Rate1 Nominal Flow Rate Maximum Flow Rate
Curve Ref.
ModelIP SI IP SI IP SI IP SI
GPM DP ft. lps DP kpa GPM DP ft. lps DP kpa GPM DP ft. lps DP kpa GPM DP ft. lps DP kpa
A 030E 27.0 1.7 1.7 5.1 42.2 4.0 2.7 12.0 67.4 9.8 4.3 29.4 112.4 26.0 7.1 77.7
B 035E 33.5 2.4 2.1 7.1 52.4 5.6 3.3 16.7 83.8 13.7 5.3 40.9 139.6 36.4 8.8 108.7
C 040E 37.1 2.5 2.3 7.4 57.9 5.8 3.7 17.3 92.6 14.2 5.8 42.5 154.4 37.7 9.7 112.6
D 045E 40.9 2.3 2.6 6.8 63.9 5.3 4.0 15.8 102.2 13.2 6.5 39.4 170.4 34.4 10.8 102.7
E 050E 46.4 2.7 2.9 7.9 72.5 6.2 4.6 18.5 115.9 15.2 7.3 45.3 193.2 40.0 12.2 119.6
F 055E 49.7 2.3 3.1 7.0 77.7 5.5 4.9 16.3 124.3 13.4 7.8 40.0 207.2 35.6 13.1 106.2
G 060E 54.0 2.3 3.4 6.9 84.3 5.4 5.3 16.1 134.9 13.1 8.5 39.3 224.8 34.7 14.2 103.6
H 065E 55.5 2.4 3.5 7.3 86.7 5.7 5.5 17.0 138.7 13.9 8.8 41.4 231.2 36.6 14.6 109.3
I 070E 61.5 3.0 3.9 8.8 96.1 6.9 6.1 20.6 153.8 16.9 9.7 50.4 256.4 44.5 16.2 133.0
J 075E 69.8 1.2 4.4 3.6 109.1 2.8 6.9 8.4 174.5 6.9 11.0 20.5 290.8 18.2 18.3 54.3
K 080E 73.8 1.2 4.7 3.7 115.4 2.9 7.3 8.6 184.6 7.1 11.6 21.3 307.6 18.9 19.4 56.6
L 090E 80.1 1.4 5.1 4.3 125.1 3.4 7.9 10.1 200.2 8.3 12.6 24.8 333.6 22.1 21.0 66.1
M 100E 92.4 1.3 5.8 4.0 144.3 3.2 9.1 9.5 230.9 7.8 14.6 23.3 384.8 20.8 24.3 62.2
N 110E 102.0 1.4 6.4 4.2 159.5 3.3 10.1 9.9 255.1 8.2 16.1 24.4 425.2 21.6 26.8 64.6
O 120E 113.1 1.5 7.1 4.5 176.7 3.6 11.1 10.7 282.7 8.8 17.8 26.4 471.2 23.5 29.7 70.3
P 130E 119.5 1.5 7.5 4.4 186.8 3.5 11.8 10.4 298.8 8.6 18.9 25.7 498.0 22.9 31.4 68.3
Q 140E 128.9 1.7 8.1 5.1 201.5 4.0 12.7 12.1 322.3 9.9 20.3 29.7 537.2 26.4 33.9 79.0R 150E 136.1 1.7 8.6 4.9 212.7 3.9 13.4 11.7 340.3 9.8 21.5 29.2 567.2 26.3 35.8 78.4S 161E 143.6 1.8 9.1 5.5 224.4 4.4 14.2 13.0 359.0 10.8 22.7 32.4 598.4 29.1 37.8 87.0
T 170E 154.1 1.9 9.7 5.6 240.8 4.5 15.2 13.4 385.2 11.2 24.3 33.4 642.0 30.2 40.5 90.2
U 180E 164.8 2.3 10.4 6.9 257.6 5.3 16.2 15.9 412.1 12.8 26.0 38.3 686.8 33.5 43.3 99.9
V 191E 179.6 2.5 11.3 7.5 280.6 4.8 17.7 14.3 449.0 9.9 28.3 29.6 748.5 24.7 47.2 74.0
W 211E 187.2 2.7 11.8 8.0 292.5 5.1 18.4 15.2 468.0 10.6 29.5 31.7 780.2 26.5 49.1 79.1
X 226E 196.8 1.9 12.4 5.6 307.5 3.9 19.4 11.6 492.0 8.8 31.0 26.4 816.7 22.5 51.5 67.3
Y 241E 216.8 2.2 13.7 6.5 338.8 4.6 21.3 13.7 542.0 10.5 34.1 31.5 903.5 27.3 56.9 81.5
Minimum Flow Nominal Flow Maximum FlowRef. Unit Model (GPM) Dp (ft) l/s DP kpa (GPM) Dp (ft) l/s DP kpa (GPM) Dp (ft) l/s DP kpa
1AGZ075
21 0.8 1.3 2.3 42 2.7 2.7 8.1 120 18.0 7.6 53.8AGZ080AGZ090
2AGZ100
30 1.1 1.9 3.2 60 3.2 3.8 9.6 132 18.0 8.3 53.8AGZ110AGZ120
3 AGZ13040 1.1 2.5 3.3 80 3.7 5.0 11.1 195 18.0 12.3 53.8
AGZ140
4 AGZ15046 1.2 2.9 3.7 92 4.0 5.8 12.0 205 18.0 12.9 53.8
AGZ161
5
AGZ170
57 1.6 3.6 4.7 114 5.3 7.2 15.8 230 18.0 14.5 53.8AGZ180AGZ191AGZ211
6 AGZ22670 1.8 4.4 5.3 140 6.4 8.8 19.1 250 18.0 15.8 53.8
AGZ241
physICal daTa - paCkaged unIT
www.DaikinApplied.com 29 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
physICal daTa - paCkaged unIT
Table 22: Physical Data - AGZ030E - AGZ040E
Table 23: Physical Data - AGZ045E - AGZ055E
NOTE: 1) Models 030-060: Fan Motor hp = 2.0 for 380V/60Hz, 575V/60Hz, & 400V/50Hz. All Models: Fan RPM = 950 for 400V/50Hz. Airflow =(0.83 x 60Hz Airflow) for 400V/50Hz. 2) Water connection shown is nominal pipe size. 3) Brazed plate evaporators do not have drain or vent connections integral to the heat exchanger. The connections must be installed in the field inlet and outlet piping as shown in Piping Section in the current version of the Installation and Operation Manual, available on www.DaikinApplied.com.
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ030E AGZ035E AGZ040ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Sealed Filter Drier 15 (16.8) 15 (16.8) 14 (6.4) 14 (6.4) 21 (9.5) 21 (9.5) - Replaceable Core Filter Drier 17 (7.7) 17 (7.7) 16 (7.3) 16 (7.3) 23 (10.5) 23 (10.5)COMPRESSORS, SCROLL, HERMETICNominal HP 7.5 / 7.5 7.5 / 7.5 9.0 / 9.0 10.0 / 10.0 10.0 / 10.0 10.0 / 10.0
Oil charge per Compressor , oz (g)85 (2410) 85 (2410) 85 (2410) 85 (2410) 85 (2410) 85 (2410)85 (2410) 85 (2410) 85 (2410) 85 (2410) 85 (2410) 85 (2410)
Staging, 4 Stages (If Circuit is in Lead) 0-25-50-75-100 0-25-50-75-100 0-23-50-73-100 0-27-50-77-100 0-25-50-75-100 0-25-50-75-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 24.9 (2.3) 24.9 (2.3) 24.9 (2.3) 24.9 (2.3) 49.8 (4.6) 49.8 (4.6)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762)Fan Motor, hp (kW) (for 208V,230V,460V/60Hz)1 1.5 (1.1) 1.5 (1.1) 1.5 (1.1)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140Airflow, cfm (l/s)1 34,000 (16,047) 34,000 (16,047) 40,400 (19,067)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 84 (38.1) 91 (41.3) 98 (44.5)Water Volume, gallons (liters) 1.6 (6.1) 1.8 (6.8) 1.9 (7.2)Grooved inlet/outlet connection, in. (mm)2 2.5 (65) 2.5 (65) 2.5 (65)Max. Water Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)Max. Refrigerant Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ045E AGZ050E AGZ055ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5)23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5)
COMPRESSORS, SCROLL, HERMETICNominal HP 12.0 / 12.0 12.0 / 12.0 13.0 / 13.0 13.0 / 13.0 13.0 / 13.0 15.0 / 15.0
Oil charge per Compressor , oz (g)110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119)110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119)
Staging, 4 Stages (If Circuit is in Lead) 0-25-50-75-100 0-25-50-75-100 0-25-50-75-100 0-25-50-75-100 0-23-50-73-100 0-27-50-77-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762)Fan Motor, hp (kW) (for 208V,230V,460V/60Hz)1 1.5 (1.1) 1.5 (1.1) 1.5 (1.1)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140Airflow, cfm (l/s)1 40,400 (19,067) 40,400 (19,067) 40,400 (19,067)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 112 (50.1) 126 (57.2) 133 (60.3)Water Volume, gallons (liters) 2.3 (8.7) 2.6 (9.8) 2.8 (10.6)Grooved inlet/outlet connection, in. (mm)2 2.5 (65) 2.5 (65) 2.5 (65)Max. Water Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)Max. Refrigerant Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 30 www.DaikinApplied.com
physICal daTa - paCkaged unIT
Table 24: Physical Data - AGZ060E - AGZ070E
Table 25: Physical Data - AGZ075E - AGZ090E
NOTE: 1) Models 030-060: Fan Motor hp = 2.0 for 380V/60Hz, 575V/60Hz, & 400V/50Hz. All Models: Fan RPM = 950 for 400V/50Hz. Airflow =(0.83 x 60Hz Airflow) for 400V/50Hz. 2) Water connection shown is nominal pipe size. 3) Brazed plate evaporators do not have drain or vent connections integral to the heat exchanger. The connections must be installed in the field inlet and outlet piping as shown in Piping Section in the current version of the Installation and Operation Manual, available on www.DaikinApplied.com.
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ060E AGZ065E AGZ070ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Sealed Filter Drier 21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5) 21 (9.5) - Replaceable Core Filter Drier 23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5) 23 (10.5)COMPRESSORS, SCROLL, HERMETICNominal HP 15.0 / 15.0 15.0 / 15.0 15.0 / 15.0 15.0 / 15.0 15.0 / 20.0 15.0 / 20.0
Oil charge per Compressor , oz (g)110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 110 (3119) 152 (4309) 152 (4309)
Staging, 4 Stages (If Circuit is in Lead) 0-25-50-75-100 0-25-50-75-100 0-25-50-75-100 0-25-50-75-100 0-21-50-71-100 0-28-50-78-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6) 49.8 (4.6)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762) 2 - 30 (762)Fan Motor, hp (kW) (for 208V,230V,460V/60Hz)1 1.5 (1.1) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140Airflow, cfm (l/s)1 40,400 (19,067) 48,000 (22654) 48,000 (22654)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 150 (68.1) 150 (68.1) 150 (68.1)Water Volume, gallons (liters) 3.2 (12.1) 3.2 (12.1) 3.2 (12.1)Grooved inlet/outlet connection, in. (mm)2 2.5 (65) 2.5 (65) 2.5 (65)Max. Water Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)Max. Refrigerant Pressure, psi (kPa) 653 (4502) 653 (4502) 653 (4502)
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ075E AGZ080E AGZ090ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
46 (20.9) 46 (20.9) 46 (20.9) 46 (20.9) 48 (21.8) 48 (21.8)
COMPRESSORS, SCROLL, HERMETICNominal HP 20.0 / 20.0 20.0 / 15.0 20.0 / 20.0 20.0 / 20.0 25.0 / 20.0 20.0 / 25.0
Oil charge per Compressor , oz (g)152 (4495) 152 (4495) 152 (4495) 152 (4495) 152 (4495) 152 (4495)152 (4495) 110 (3253) 152 (4495) 152 (4495) 152 (4495) 152 (4495)
Staging, 4 Stages (If Circuit is in Lead) 0-27-47-73-100 0-25-50-75-100 0-25-50-75-100 0-25-50-75-100 0-28-50-72-100 0-22-50-78-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 79.5 (7.4) 79.5 (7.4) 79.5 (7.4) 79.5 (7.4) 79.5 (7.4) 79.5 (7.4)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 3 - 30 (762) 3 - 30 (762) 3 - 30 (762) 3 - 30 (762) 3 - 30 (762) 3 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140Airflow, cfm (l/s)1 67,740 (31,970) 67,740 (31,970) 67,740 (31,970)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 244 (111) 266 (121) 266 (121)Water Volume, gallons (liters) 7.9 (30) 8.7 (33) 8.7 (33)Grooved inlet/outlet connection, in. (mm)2 3.0 (77) 3.0 (77) 3.0 (77)Max. Water Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482)Max. Refrigerant Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482)
physICal daTa - paCkaged unIT
www.DaikinApplied.com 31 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 26: Physical Data - AGZ100E - AGZ120E
Table 27: Physical Data - AGZ130E - AGZ161E
NOTE: 1) All Models: Fan RPM = 950 for 400V/50Hz. Airflow =(0.83 x 60Hz Airflow) for 400V/50Hz. 2) Water connection shown is nominal pipe size. 3) Brazed plate evaporators do not have drain or vent connections integral to the heat exchanger. The connections must be installed in the field inlet and outlet piping as shown in Piping Section in the current version of the Installation and Operation Manual, available on www.DaikinApplied.com.
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ100E AGZ110E AGZ120ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
49 (22.3) 49 (22.3) 64 (29.1) 64 (29.1) 65 (29.5) 65 (29.5)
COMPRESSORS, SCROLL, HERMETICNominal HP 25.0 / 25.0 25.0 / 30.0 30.0 / 25.0 25.0 / 30.0 30.0 / 30.0 30.0 / 30.0
Oil charge per Compressor , oz (g)152 (4495) 152 (4495) 213 (6299) 152 (4495) 213 (6299) 213 (6299)152 (4495) 213 (6299) 152 (4495) 213 (6299) 213 (6299) 213 (6299)
Staging, 4 Stages (If Circuit is in Lead) 0-24-48-71-100 0-24-48-76-100 0-27-50-73-100 0-23-50-77-100 0-25-50-75-100 0-25-50-75-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 79.5 (7.4) 79.5 (7.4) 106 (9.9) 106 (9.9) 106 (9.9) 106 (9.9)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 3 - 30 (762) 3 - 30 (762) 4 - 30 (762) 4 - 30 (762) 4 - 30 (762) 4 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140Airflow, cfm (l/s)1 67,740 (31,970) 90,320 (42,627) 90,320 (42,627)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 317 (144) 339 (154) 369 (168)Water Volume, gallons (liters) 10.6 (41) 11.4 (44) 12.5 (48)Grooved inlet/outlet connection, in. (mm)2 3.0 (77) 3.0 (77) 3.0 (77)Max. Water Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482)Max. Refrigerant Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482)
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ130E AGZ140E AGZ150E AGZ161ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
65 (29.5) 65 (29.5) 76 (34.5) 76 (34.5) 76 (34.5) 76 (34.5) 78 (34.5) 78 (34.5)
COMPRESSORS, SCROLL, HERMETICNominal HP 30.0 / 30.0 30.0 / 40.0 40.0 / 30.0 30.0 / 40.0 40.0 / 30.0 40.0 / 40.0 40.0 / 40.0 40.0 / 40.0
Oil charge per Compressor , oz (g)213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)
Staging, 4 Stages (If Circuit is in Lead)0-23-46-69-
1000-23-46-77-
1000-29-50-71-
1000-21-50-79-
1000-27-50-73-
1000-27-53-80-
1000-27-53-80-
1000-27-53-80-
100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 106 (9.9) 106 (9.9) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21
CONDENSER FANS, DIRECT DRIVE PROPELLER
# of Fans per Circuit - Fan Diameter in (mm) 4 - 30 (762) 4 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140 1140Airflow, cfm (l/s)1 90,320 (42,627) 112,900 (53,283) 112,900 (53,283) 112,900 (53,283)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 406 (185) 435 (198) 465 (211) 465 (211)Water Volume, gallons (liters) 13.8 (53) 15.0 (57) 16.1 (61) 16.1 (61)Grooved inlet/outlet connection, in. (mm)2 3.0 (77) 4.0 (102) 4.0 (102) 4.0 (102)Max. Water Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482) 650 (4482)Max. Refrigerant Pressure, psi (kPa) 650 (4482) 650 (4482) 650 (4482) 650 (4482)
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 32 www.DaikinApplied.com
physICal daTa - paCkaged unIT
Table 28: Physical Data - AGZ170E - AGZ180E
Table 29: Physical Data - AGZ191-241E
NOTE: 1) All Models: Fan RPM = 950 for 400V/50Hz. Airflow =(0.83 x 60Hz Airflow) for 400V/50Hz. 2) Water connection shown is nominal pipe size. 3) Brazed plate evaporators do not have drain or vent connections integral to the heat exchanger. The connections must be installed in the field inlet and outlet piping as shown in Piping Section in the current version of the Installation and Operation Manual, available on www.DaikinApplied.com.
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ170E AGZ180ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
80 (36.3) 80 (36.3) 80 (36.3) 80 (36.3)
COMPRESSORS, SCROLL, HERMETICNominal HP 25 / 25 / 30 30 / 30 / 30 30 / 30 / 30 30 / 30 / 30
Oil charge per Compressor , oz (g)152 (4495) 213 (6299) 213 (6299) 213 (6299)152 (4495) 213 (6299) 213 (6299) 213 (6299)213 (6299) 213 (6299) 213 (6299) 213 (6299)
Staging, 6 Stages (If Circuit is in Lead) 0-15-32-47-65-82-100 0-18-32-50-65-82-100 0-17-33-50-67-83-100 0-17-33-50-67-83-100CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140Airflow, cfm (l/s)1 112,900 (53,283) 112,900 (53,283)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 494 (225) 531 (241)Water Volume, gallons (liters) 17.1 (65) 18.6 (71)Grooved inlet/outlet connection, in. (mm)2 4.0 (102) 4.0 (102)Max. Water Pressure, psi (kPa) 650 (4482) 650 (4482)Max. Refrigerant Pressure, psi (kPa) 650 (4482) 650 (4482)
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ191E AGZ211E AGZ226E AGZ241ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
87 (39.5) 87 (39.5) 91 (41.3) 91 (41.3) 107 (48.6) 107 (48.6) 111 (50.4) 111 (50.4)
COMPRESSORS, SCROLL, HERMETICNominal HP 30 / 30 / 30 30 / 40 / 30 30 / 40 / 30 30 / 40 / 30 30 / 40 / 30 40 / 30 / 40 40 / 40 / 40 40 / 40 / 40
Oil charge per Compressor , oz (g)
213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)
213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)
Staging, 6 Stages (If Circuit is in Lead)0-16-32-47-68-84-100
0-16-32-53-68-84-100
0-15-30-50-70-85-100
0-15-30-50-70-85-100
0-14-33-52-67-81-100
0-19-33-48-67-86-100
0-17-33-50-67-83-100
0-17-33-50-67-83-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 158.9 (14.8) 158.9 (14.8) 158.9 (14.8) 158.9 (14.8) 185.4 (17.3) 185.4 (17.3) 185.4 (17.3) 185.4 (17.3)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 6 - 30 (762) 6 - 30 (762) 6 - 30 (762) 6 - 30 (762) 7 - 30 (762) 7 - 30 (762) 7 - 30 (762) 7 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140 1140Airflow, cfm (l/s)1 135480 (63940) 135480 (63940) 158060 (74597) 158060 (74597)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 670 (304) 670 (304) 806 (366) 806 (366)
Water Volume, gallons (liters) 17.95 (68) 17.95 (68) 22.44 (85) 22.44 (85)Grooved inlet/outlet connection, in. (mm)2 5.0 (127) 5.0 (127) 5.0 (127) 5.0 (127)Max. Water Pressure, psi (kPa) 435 (3000) 435 (3000) 435 (3000) 435 (3000)Max. Refrigerant Pressure, psi (kPa) 652 (4496) 652 (4496) 652 (4496) 652 (4496)
dImensIons and WeIghTs - paCkaged unITs
www.DaikinApplied.com 33 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 28: Physical Data - AGZ170E - AGZ180E
Table 29: Physical Data - AGZ191-241E
NOTE: 1) All Models: Fan RPM = 950 for 400V/50Hz. Airflow =(0.83 x 60Hz Airflow) for 400V/50Hz. 2) Water connection shown is nominal pipe size. 3) Brazed plate evaporators do not have drain or vent connections integral to the heat exchanger. The connections must be installed in the field inlet and outlet piping as shown in Piping Section in the current version of the Installation and Operation Manual, available on www.DaikinApplied.com.
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ170E AGZ180ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
80 (36.3) 80 (36.3) 80 (36.3) 80 (36.3)
COMPRESSORS, SCROLL, HERMETICNominal HP 25 / 25 / 30 30 / 30 / 30 30 / 30 / 30 30 / 30 / 30
Oil charge per Compressor , oz (g)152 (4495) 213 (6299) 213 (6299) 213 (6299)152 (4495) 213 (6299) 213 (6299) 213 (6299)213 (6299) 213 (6299) 213 (6299) 213 (6299)
Staging, 6 Stages (If Circuit is in Lead) 0-15-32-47-65-82-100 0-18-32-50-65-82-100 0-17-33-50-67-83-100 0-17-33-50-67-83-100CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4) 132.4 (12.4)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762) 5 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140Airflow, cfm (l/s)1 112,900 (53,283) 112,900 (53,283)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 494 (225) 531 (241)Water Volume, gallons (liters) 17.1 (65) 18.6 (71)Grooved inlet/outlet connection, in. (mm)2 4.0 (102) 4.0 (102)Max. Water Pressure, psi (kPa) 650 (4482) 650 (4482)Max. Refrigerant Pressure, psi (kPa) 650 (4482) 650 (4482)
Physical DataAGZ-E (Microchannel Packaged Chiller)
AGZ191E AGZ211E AGZ226E AGZ241ECIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2 CIRCUIT 1 CIRCUIT 2
BASIC DATAUnit Operating Charge lbs (kg) - Replaceable Core Filter Drier (Microchannel only)
87 (39.5) 87 (39.5) 91 (41.3) 91 (41.3) 107 (48.6) 107 (48.6) 111 (50.4) 111 (50.4)
COMPRESSORS, SCROLL, HERMETICNominal HP 30 / 30 / 30 30 / 40 / 30 30 / 40 / 30 30 / 40 / 30 30 / 40 / 30 40 / 30 / 40 40 / 40 / 40 40 / 40 / 40
Oil charge per Compressor , oz (g)
213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)
213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299) 213 (6299)
Staging, 6 Stages (If Circuit is in Lead)0-16-32-47-68-84-100
0-16-32-53-68-84-100
0-15-30-50-70-85-100
0-15-30-50-70-85-100
0-14-33-52-67-81-100
0-19-33-48-67-86-100
0-17-33-50-67-83-100
0-17-33-50-67-83-100
CONDENSER, MICROCHANNELCoil Inlet Face Area, sq. ft. (sq. m.) 158.9 (14.8) 158.9 (14.8) 158.9 (14.8) 158.9 (14.8) 185.4 (17.3) 185.4 (17.3) 185.4 (17.3) 185.4 (17.3)Rows Deep/Fins Per Inch 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21 1 / 21CONDENSER FANS, DIRECT DRIVE PROPELLER# of Fans per Circuit - Fan Diameter in (mm) 6 - 30 (762) 6 - 30 (762) 6 - 30 (762) 6 - 30 (762) 7 - 30 (762) 7 - 30 (762) 7 - 30 (762) 7 - 30 (762)Fan Motor, hp (kW) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5) 2.0 (1.5)Fan & Motor RPM (for all 60Hz)1 1140 1140 1140 1140Airflow, cfm (l/s)1 135480 (63940) 135480 (63940) 158060 (74597) 158060 (74597)EVAPORATOR, BRAZED PLATE3
Dry Weight lbs (kg) 670 (304) 670 (304) 806 (366) 806 (366)
Water Volume, gallons (liters) 17.95 (68) 17.95 (68) 22.44 (85) 22.44 (85)Grooved inlet/outlet connection, in. (mm)2 5.0 (127) 5.0 (127) 5.0 (127) 5.0 (127)Max. Water Pressure, psi (kPa) 435 (3000) 435 (3000) 435 (3000) 435 (3000)Max. Refrigerant Pressure, psi (kPa) 652 (4496) 652 (4496) 652 (4496) 652 (4496)
dImensIons and WeIghTs - paCkaged unITs
Figure 33: AGZ030E - AGZ035E
1822
71.8
209
8.2
REF.
2389
94.1
2546
100.
2
165
6.5
370
14.6
2X
64 2.5
497
19.6
1094
43.1
22 .875
KN
OCK
OU
TSFI
ELD
CO
NTR
OL
CON
NEC
TIO
NS
QTY
. 3
2235
88.0
DIM
ENSI
ON
DO
ES N
OT
INCL
UD
ELI
FTIN
G B
RACK
ETS
B 153
6.0A
X
Y
CON
TRO
LBO
X
FRO
NT
LEFT
CO
RNER
PO
ST
PURP
OSE
LY
HID
DEN
EVA
P.
WYE
-STR
AIN
ER
REQ
UIR
ED(F
ACT
ORY
OR
FIEL
D
INST
ALL
ED O
PTIO
N)
[22]
Ø.8
75PO
WER
EN
TRY
KNO
CKO
UTS
FRO
NT
OR
RIG
HT
SID
E
635
25.0
266
10.5
797
31.4
506
19.9
2396
94.3
506
19.9
51 2.0 80 3.2
152
6.0
127
5.0
Z
BLA
NK
PAN
ELS
ARE
USE
D O
N U
NIT
SID
ES.
SLO
PED
50"
CO
ILS
USE
D O
N IN
SID
E.
[22]
Ø.8
75 K
NO
CKO
UTS
POW
ER E
NTR
Y KN
OCK
OU
TSA
RE O
N T
HE
OPP
OSI
TESI
DE
OF
CON
TRO
L BO
X
EVA
P.W
ATE
RIN
LET
EVA
P.W
ATE
RO
UTL
ET
L1 L2L3 L4
337
13.3
1721
67.8
337
13.3
52 2.0
52 2.0
19 .750
QTY
. 4
M1
- M4,
ISO
LATO
R M
OU
NTI
NG
HO
LE L
OCA
TIO
NS
ON
BO
TTO
M S
URF
ACE
OF
UN
IT B
ASE
M3
M1 M2
M4
L4L2L1
L3
COM
PRES
SORS
CIRC
UIT
#2
COM
PRES
SORS
CIRC
UIT
#1
L1 -
L4,
LIFT
ING
LOCA
TIO
NS
TOP
VIEW
WIT
H
COIL
S A
ND
FA
NS
REM
OVE
D
SHIP
PING
WEI
GHT
OPE
RA
TING
W
EIG
HTLB
S (K
G)
LBS
(KG
)L1
L2L3
L4M
1M
2M
3M
4A
GZ0
30E
2947
(133
7)29
60 (1
343)
1011
(459
)79
9 (3
62)
635
(288
)50
2 (2
28)
980
(445
)77
5 (3
52)
673
(305
)53
2 (2
41)
AG
Z035
E28
73 (1
303)
2887
(131
0)10
51 (4
77)
861
(391
)52
8 (2
40)
433
(196
)10
05 (4
56)
824
(374
)58
1 (2
64)
476
(216
)
PAC
KA
GE
UNIT
S W
ITH
MIC
RO
CHA
NNEL
CO
ILS
UNIT
MO
DEL
LIFT
ING
(SHI
PPIN
G) W
EIG
HT B
Y C
OR
NER
LB
S (K
G)
MO
UNTI
NG (O
PER
ATI
NG) W
EIG
HT L
BS
(KG
)
XY
ZA
GZ0
30E
38.9
(988
)44
.5 (1
130)
40.9
(103
9)A
GZ0
35E
39.7
(100
8)45
.5 (1
156)
38.1
(968
)
UNIT
MO
DEL
CG
LO
CA
TIO
N, IN
(MM
)PA
CK
AG
E U
NIT
S W
ITH
MIC
RO
CH
AN
NEL
CO
ILS
AB
AG
Z030
E24
.2 (6
15)
2.9
(74)
2.5
(64)
AG
Z035
E23
.5 (5
97)
2.2
(56)
2.5
(64)
UNIT
MO
DEL
EVA
P. D
IMEN
SIO
NS IN
(MM
)C
ONN
ECTI
ON
SIZE
(V
ICTA
ULIC
)
NO
TE: L
IFTI
NG
WE
IGH
TS A
RE
BA
SE
D O
N U
NIT
SH
IPP
ING
WE
IGH
TS.
MO
UN
TIN
G W
EIG
HTS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TOR
WA
TER
INC
LUD
ED
. S
HIP
PIN
G A
ND
OP
ER
ATI
NG
WE
IGH
TS D
O N
OT
INC
LUD
E T
HE
WE
IGH
TS O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
0B
334547101
AG
Z-E
, 4
FA
NS
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 34 www.DaikinApplied.com
dImensIons and WeIghTs - paCkaged unITs
Figure 34: AGZ040E - AGZ070E
1822
71.8
208
8.2
REF
.
2389
94.0
2546
100.
2
165
6.5
370
14.6
2X
64 2.5
497
19.6
1094
43.1
22 .875
KN
OC
KO
UTS
FIEL
D C
ON
TRO
LC
ON
NEC
TIO
NS
QTY
. 3
2235
88.0
DIM
ENSI
ON
DO
ES N
OT
INC
LUD
ELI
FTIN
G B
RA
CK
ETS
B
153
6.0A
X
Y
CO
NTR
OL
BO
X
FRO
NT
LEFT
C
OR
NER
PO
ST
PUR
POSE
LY
HID
DEN
EVA
P.
WY
E-ST
RA
INER
R
EQU
IRED
(FA
CTO
RY
OR
FIE
LD
INST
ALL
ED O
PTIO
N)
[22]
Ø.8
75PO
WER
EN
TRY
K
NO
CK
OU
TSFR
ON
T O
R
RIG
HT
SID
E
635
25.0
266
10.5
797
31.4
506
19.9
2396
94.3
506
19.9
51 2.0
80 3.2
152
6.0
127
5.0
Z
[22]
Ø.8
75 K
NO
CK
OU
TSPO
WER
EN
TRY
KN
OC
KO
UTS
AR
E O
N T
HE
OPP
OSI
TESI
DE
OF
CO
NTR
OL
BO
X
EVA
P.W
ATE
RIN
LET
EVA
P.W
ATE
RO
UTL
ET
L1 L2L3 L4
L1 -
L4,
LIFT
ING
LOC
ATI
ON
S
337
13.3
1721
67.8
337
13.3
52 2.0
52 2.0
19 .750
QTY
. 4
M1
- M4,
ISO
LATO
R M
OU
NTI
NG
HO
LE L
OC
ATI
ON
S O
N B
OTT
OM
SU
RFA
CE
OF
UN
IT B
ASE
M3
M1 M2
M4
L4L2L1
L3
CO
MPR
ESSO
RS
CIR
CU
IT #
2C
OM
PRES
SOR
SC
IRC
UIT
#1
TOP
VIE
W W
ITH
C
OIL
S A
ND
FA
NS
REM
OV
ED
XY
ZA
GZ0
40E
39.8
(10
11)
45.9
(11
66)
38.4
(97
5)A
GZ0
45E
38.9
(98
8)44
.5 (
1130
)41
.2 (
1047
)A
GZ0
50E
39.1
(99
3)44
.9 (
1141
)41
.2 (
1047
)A
GZ0
55E
39.1
(99
3)44
.8 (
1138
)41
.2 (
1047
)A
GZ0
60E
39.2
(99
6)44
.6 (
1133
)41
.1 (
1044
)A
GZ0
65E
39.2
(99
6)44
.6 (
1133
)41
.1 (
1044
)A
GZ0
70E
36.8
(93
5)41
.8 (
1062
)42
.6 (
1082
)
PA
CK
AG
E U
NIT
S W
ITH
MIC
RO
CH
AN
NE
L C
OIL
SU
NIT
MO
DE
LC
G L
OC
ATI
ON
, IN
(MM
)
SH
IPP
ING
WE
IGH
TO
PE
RA
TIN
G
WE
IGH
TLB
S (K
G)
LBS
(KG
)L1
L2L3
L4M
1M
2M
3M
4A
GZ0
40E
2948
(13
37)
2964
(13
45)
1067
(48
4)88
1 (4
00)
548
(249
)45
3 (2
06)
1022
(46
4)84
4 (3
83)
601
(273
)49
6 (2
25)
AG
Z045
E30
94 (
1403
)31
12 (
1412
)10
51 (
477)
832
(377
)67
6 (3
07)
535
(243
)10
21 (
463)
809
(367
)71
5 (3
24)
567
(257
)A
GZ0
50E
3093
(14
03)
3114
(14
13)
1049
(47
6)83
7 (3
80)
671
(304
)53
6 (2
43)
1020
(46
3)81
4 (3
69)
712
(323
)56
8 (2
58)
AG
Z055
E31
06 (
1409
)31
28 (
1419
)10
52 (
477)
840
(381
)67
5 (3
06)
539
(245
)10
23 (
464)
817
(371
)71
6 (3
25)
572
(260
)A
GZ0
60E
3130
(14
20)
3155
(14
31)
1059
(48
0)85
1 (3
86)
676
(307
)54
3 (2
46)
1031
(46
8)82
8 (3
76)
718
(326
)57
7 (2
62)
AG
Z065
E31
30 (
1420
)31
55 (
1431
)10
59 (
480)
851
(386
)67
6 (3
07)
543
(246
)10
31 (
468)
828
(376
)71
8 (3
26)
577
(262
)A
GZ0
70E
3472
(15
75)
3497
(15
86)
1180
(53
5)84
7 (3
84)
842
(382
)60
4 (2
74)
1157
(52
5)83
0 (3
77)
880
(399
)63
1 (2
86)
PA
CK
AG
E U
NIT
S W
ITH
MIC
RO
CH
AN
NE
L C
OIL
S
UN
IT M
OD
EL
LIFT
ING
(SH
IPP
ING
) WE
IGH
T B
Y C
OR
NE
R L
BS
(KG
)M
OU
NTI
NG
(OP
ER
ATI
NG
) WE
IGH
T LB
S (K
G)
AB
AG
Z040
E22
.8 (
579)
1.5
(38)
2.5
(64)
AG
Z045
E21
.4 (
544)
0.11
(3)
2.5
(64)
AG
Z050
E20
(50
8)2.
7 (6
9)2.
5 (6
4)A
GZ0
55E
19.3
(49
0)2.
0 (5
1)2.
5 (6
4)A
GZ0
60E
17.6
(44
7)0.
3 (8
)2.
5 (6
4)A
GZ0
65E
17.6
(44
7)0.
3 (8
)2.
5 (6
4)A
GZ0
70E
17.6
(44
7)0.
3 (8
)2.
5 (6
4)
UN
IT M
OD
EL
EV
AP
. DIM
EN
SIO
NS
IN (M
M)
CO
NN
EC
TIO
N S
IZE
(V
ICTA
ULI
C)
0B
334547101
AG
Z-E
, 4
FA
NS
NO
TE
: LIF
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
SH
IPP
ING
WE
IGH
TS
. M
OU
NT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TO
R W
AT
ER
INC
LUD
ED
. S
HIP
PIN
G A
ND
OP
ER
AT
ING
WE
IGH
TS
DO
NO
T IN
CLU
DE
TH
E W
EIG
HT
S O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
dImensIons and WeIghTs - paCkaged unITs
www.DaikinApplied.com 35 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 35: AGZ075E - AGZ100E
X
Y
30
51
2.0
80
3.1
51
2.0
12
75
.0
Z
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
E
OF
TH
E C
ON
TR
OL
BO
X
D
AG
Z-E
, 6
FA
NS
33
45
47
11
10A
CO
MP
R.
CIR
CU
IT 2
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
M3
M2
M4
L2
L3
L1
CIR
CU
IT 1
L4
CO
MP
R.
TO
P V
IEW
WIT
HC
OIL
S A
ND
FA
NS
RE
MO
VE
D
38
.79
84
19 .75
0Q
TY
. 4
52
A
(w/o
ST
RA
INE
R O
PT
ION
)
2.0
44
.0
24
33
31
51
2.4
52
2.0
95
.8
11
18
B
CO
NT
RO
LB
OX
[22
] .87
5 P
OW
ER
EN
TR
YK
NO
CK
OU
TS
FR
ON
T O
R R
IGH
T S
IDE
1
22 .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
SQ
TY
. 3
92
.72
35
5
98
.62
50
6
8.4
11
.52
92
6.5
2.564
16
5
88
.02
23
5
DIM
EN
SIO
N D
OE
S N
OT
IN
CL
UD
EL
IFT
ING
BR
AC
KE
TS
6.9
17
5
21
3
64
2.5
INL
ET
WY
E-S
TR
AIN
ER
OU
TL
ET
WA
TE
R
INS
TA
LL
ED
OP
TIO
N)
WA
TE
RE
VA
P.
(FA
CT
OR
Y O
R F
IEL
DR
EQ
UIR
ED
L1
L2
L3
L4
EV
AP
. 1
37
1.5
24
.06
09
14
7.0
37
33
11
.42
90
6.0
15
3
91
63
6.1
85
83
3.8
L1
- L
4,
LIF
TIN
G
LO
CA
TIO
NS
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
WA
TE
R
INC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CLU
DE
TH
E W
EIG
HT
S O
F A
NY
O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
NO
TE
S:
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E1
.
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
AB
AG
Z0
75
E55
.6 (
141
2)
27
.1 (
68
8)
AG
Z0
80
E54
.4 (
138
2)
25
.9 (
65
8)
AG
Z0
90
E54
.4 (
138
2)
25
.9 (
65
8)
AG
Z1
00
E51
.6 (
131
1)
23
.1 (
58
7)
CO
NN
EC
TIO
N
SIZ
E,
IN.
EV
AP
. D
IME
NS
ION
S
IN (
MM
)U
NIT
MO
DE
L
3.0
(7
6)
XY
Z
AG
Z0
75
E4
5.3
(1
15
1)
38
.6 (
98
0)
56
.2 (
14
27
)
AG
Z0
80
E4
4.2
(1
12
2)
39
.2 (
99
5)
56
.5 (
14
35
)
AG
Z0
90
E4
4.2
(1
12
2)
39
.2 (
99
5)
55
.0 (
13
97
)
AG
Z1
00
E4
3.6
(1
10
8)
38
.9 (
98
8)
55
.7 (
14
15
)
UN
IT
MO
DE
L
CG
LO
CA
TIO
N,
IN (
MM
)
SH
IPP
ING
WE
IGH
TO
PE
RA
TIN
G W
EIG
HT
LB
S (
KG
)L
BS
(K
G)
L1
L2
L3
L4
M1
M2
M3
M4
AG
Z0
75
E4
38
8 (
19
90
)4
45
1 (
20
19
)1
34
1 (
60
8)
14
20
(6
44
)7
90
(3
58
)8
37
(3
80
)1
17
3 (
53
2)
12
42
(5
63
)9
89
(4
49
)1
04
7 (
47
5)
AG
Z0
80
E4
51
0 (
20
46
)4
57
9 (
20
77
)1
40
7 (
63
8)
14
18
(6
43
)8
40
(3
81
)8
46
(3
84
)1
23
2 (
55
9)
12
41
(5
63
)1
04
9 (
47
6)
10
57 (
47
9)
AG
Z0
90
E4
54
0 (
20
59
)4
60
9 (
20
91
)1
45
6 (
66
0)
14
66
(6
65
)8
06
(3
66
)8
12
(3
68
)1
27
6 (
57
9)
12
85
(5
83
)1
02
0 (
46
3)
10
28 (
46
6)
AG
Z1
00
E4
69
6 (
21
30
)4
78
0 (
21
68
)1
50
5 (
68
3)
14
80
(6
71
)8
63
(3
91
)8
48
(3
85
)1
32
2 (
60
0)
12
99
(5
89
)1
08
9 (
49
4)
10
70 (
48
5)
UN
IT M
OD
EL
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
, L
BS
(K
G)
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
, L
BS
(K
G)
SID
E L
OC
AT
ION
S B
E U
SE
D
LA
RG
ER
TH
AN
35
0 M
CM
.
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 36 www.DaikinApplied.com
dImensIons and WeIghTs - paCkaged unITs
Figure 36: AGZ110E - AGZ130E
Y
X
Z
12
.0
2.051
KN
OC
KO
UT
S.8
75
22
5.0
12
7
30
5
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
EO
F T
HE
CO
NT
RO
L B
OX
80
3.1
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
OF
AN
Y O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
WA
TE
R I
NC
LU
DE
D.
NO
TE
:IT
IS
RE
CO
MM
EN
DE
D T
HA
T T
HE
1.
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
CO
MP
R.
CIR
. 1
M1
- M
6,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
M3
M5
L1
L3
M2
L4
M4
L2
CIR
. 2
M6
CO
MP
R.
TO
P V
IEW
WIT
HC
OIL
S A
ND
FA
NS
RE
MO
VE
D.
52
24
.8
19 .75
0Q
TY
. 6
52
A
(w/o
ST
RA
INE
R O
PT
ION
)
2.0
44
.0
2.0
31
51
2.4
63
02
43
39
5.8
14
99
59
.0
11
18
B
CO
NT
RO
LB
OX
[22
] .87
5 P
OW
ER
EN
TR
YK
NO
CK
OU
TS
FR
ON
T O
R R
IGH
T S
IDE
1
22 .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
SQ
TY
. 3
6.5
16
5
6.9
17
5
11
.52
92
LIF
TIN
G B
RA
CK
ET
S
2.564
DIM
EN
SIO
N D
OE
S N
OT
IN
CL
UD
E
98
.62
50
6
92
.72
35
5
21
38
.4
22
35
88
.0
64
2.5
0A
D3
34
54
71
21
AG
Z-E
8 F
AN
S
OU
TL
ET
L1
- L
4,
LO
CA
TIO
NS
WA
TE
RIN
LE
T
OP
TIO
N)
EV
AP
.
RE
QU
IRE
D
L1
L2
FIE
LD
IN
ST
AL
LE
D
L4
(FA
CT
OR
Y O
R
LIF
TIN
G
WA
TE
R
L3
EV
AP
.
WY
E-S
TR
AIN
ER
1
19
2.1
48
79
39
.29
96
6.0
15
3
11
.42
90
37
1.5
60
92
4.0
85
83
3.8
SH
IPP
ING
WE
IGH
TO
PE
RA
TIN
G W
EIG
HT
LB
S (
KG
)L
BS
(K
G)
L1
L2
L3
L4
M1
M2
M3
M4
M5
M6
AG
Z1
10
E5
43
7 (
24
66
)5
52
8 (
25
08
)1
76
2 (
79
9)
17
69
(8
02
)9
51
(4
31
)9
55
(4
33
)1
42
4 (
64
6)
14
30
(6
49
)8
45
(3
83
)8
49
(3
85
)4
89
(2
22
)4
91
(2
23
)
AG
Z1
20
E5
69
6 (
25
84
)5
79
6 (
26
29
)1
90
7 (
86
5)
19
15
(8
69
)9
35
(4
24
)9
39
(4
26
)1
54
8 (
70
2)
15
55
(7
05
)8
78
(3
98
)8
82
(4
00
)4
65
(2
11
)4
67
(2
12
)
AG
Z1
30
E5
79
2 (
26
27
)5
90
3 (
26
78
)1
94
1 (
88
0)
18
63
(8
45
)1
01
5 (
46
0)
97
4 (
44
2)
15
75
(7
14
)1
51
1 (
68
5)
92
0 (
41
7)
88
3 (
40
1)
51
7 (
23
5)
49
6 (
22
5)
UN
IT
MO
DE
L
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
, L
BS
(K
G)
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
, L
BS
(K
G)
XY
Z
AG
Z1
10
E4
4.1
(1
12
0)
42
.1 (
10
69
)69
.0 (
17
53
)
AG
Z1
20
E4
4.1
(1
12
0)
43
.3 (
11
00
)66
.4 (
16
87
)
AG
Z1
30
E4
3.1
(1
09
5)
41
.0 (
10
41
)68
.3 (
17
35
)
UN
IT
MO
DE
L
CG
LO
CA
TIO
N,
IN (
MM
)
AB
AG
Z1
10
E9
5.5
(2
42
6)
69.1
(1
75
5)
AG
Z1
20
E9
3.9
(2
38
5)
67.5
(1
71
5)
AG
Z1
30
E9
2.0
(2
33
7)
65.5
(1
66
4)
EV
AP
. D
IME
NS
ION
S, IN
(M
M)
CO
NN
EC
TIO
N
SIZ
E, IN
.
3.0
(7
6)
UN
IT
MO
DE
L
SID
E L
OC
AT
ION
S B
E U
SE
D
LA
RG
ER
TH
AN
350 M
CM
.
dImensIons and WeIghTs - paCkaged unITs
www.DaikinApplied.com 37 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 37: AGZ140E - AGZ161E
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
EO
F T
HE
CO
NT
RO
L B
OX
51
2.0 8
03
.1
30
51
2.0
12
75
.0
Z
X
Y
0B
33
45
47
13
1D
AG
Z-E
10F
AN
S,
4 C
OM
PR
ES
SO
RS
,
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
W
EIG
HT
WIT
H E
VA
PO
RA
TO
R W
AT
ER
IN
CLU
DE
D.
SH
IPP
ING
A
ND
OP
ER
AT
ING
WE
IGH
TS
DO
NO
T I
NC
LU
DE
TH
E W
EIG
HT
S
OF
AN
Y O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
NO
TE
:IT
IS
RE
CO
MM
EN
DE
D T
HA
T T
HE
SID
E L
OC
AT
ION
S B
E U
SE
D1
. F
OR
PO
WE
R E
NT
RY
WIR
E S
IZE
S L
AR
GE
R T
HA
N 3
50
MC
M.
WA
TE
R
(FA
CT
OR
Y O
R F
IEL
D
L3
WA
TE
R
EV
AP
.
WY
E-S
TR
AIN
ER
LO
CA
TIO
NS
INS
TA
LL
ED
OP
TIO
N)
OU
TL
ET
L1
- L
4IN
LE
T
RE
QU
IRE
DL
IFT
ING
L1
L2
EV
AP
. L
4
1
21
08
.3
23
7.2
60
25
11
.42
90
19
19
75
.5
37
1.5
60
92
4.0
85
83
3.8
CO
NT
RO
LB
OX
[22
] .87
5
PO
WE
R E
NT
RY
KN
OC
KO
UT
S F
RO
NT
O
R R
IGH
T S
IDE
1
22 .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
SQ
TY
. 3
6.5
16
5
LIF
TIN
G B
RA
CK
ET
SD
IME
NS
ION
DO
ES
NO
T I
NC
LU
DE
88
.02
23
51
1.5
29
2
6.9
2.564
25
06
98
.6
92
.7
17
5
23
55
21
38
.4
64
2.5
TO
P V
IEW
WIT
HC
OIL
S A
ND
FA
NS
M5
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
L1
M3
L3
M2
L2
L4
CIR
. 1
M4
RE
MO
VE
D
M6
CO
MP
R.
CO
MP
R.
CIR
. 2
19 .75
0Q
TY
. 6
24
33
95
.8
B
67
.41
71
1 A
(w/o
ST
RA
INE
R O
PT
ION
)
61
.61
56
4
52
2.0
2.0
31
51
2.4
52
11
18
44
.0 SH
IPP
ING
WE
IGH
TO
PE
RA
TIN
G W
EIG
HT
LB
S (
KG
)L
BS
(K
G)
L1
L2
L3
L4
M1
M2
M3
M4
M5
M6
AG
Z1
40
E6
55
5 (
29
73
)6
67
4 (
30
27
)1
86
2 (
84
5)
18
68
(8
47
)1
41
0 (
64
0)
14
15
(6
42
)1
41
1 (
64
0)
14
16
(6
42
)1
07
0 (
48
5)
10
74
(4
87
)8
50
(3
86
)8
53
(3
87
)
AG
Z1
50
E6
61
7 (
30
01
)6
74
5 (
30
59
)1
88
8 (
85
6)
18
81
(8
53
)1
42
6 (
64
7)
14
21
(6
45
)1
43
3 (
65
0)
14
28
(6
48
)1
08
5 (
49
2)
10
81
(4
90
)8
61
(3
91
)8
58
(3
89
)
AG
Z1
61
E6
66
8 (
30
25
)6
80
2 (
30
85
)1
91
7 (
87
0)
18
76
(8
51
)1
45
3 (
65
9)
14
22
(6
45
)1
45
6 (
66
0)
14
25
(6
46
)1
10
4 (
50
1)
10
80
(4
90
)8
78
(3
98
)8
59
(3
90
)
UN
IT
MO
DE
L
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
, L
BS
(K
G)
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
, L
BS
(K
G)
XY
ZA
B
AG
Z1
40
E4
4.1
(11
20
)4
2.6
(1
08
3)
83
.3 (
21
17
)1
22
.1 (
31
02
)6
7.5
1 (
17
15
)
AG
Z1
50
E4
3.9
(11
16
)4
2.4
(1
07
7)
83
.3 (
21
15
)1
20
.5 (
30
62
)6
5.9
(1
67
4)
AG
Z1
61
E4
3.5
(11
05
)4
2.3
(1
07
4)
83
.4 (
21
17
)1
20
.5 (
30
62
)6
5.9
(1
67
4)
UN
IT
MO
DE
L
CG
LO
CA
TIO
N, IN
(M
M)
EV
AP
. D
IME
NS
ION
S, IN
(M
M)
CO
NN
EC
TIO
N
SIZ
E, IN
.
4.0
(1
02
)
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 38 www.DaikinApplied.com
dImensIons and WeIghTs - paCkaged unITs
Figure 38: AGZ170E - AGZ180E
X
Y
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
EO
F T
HE
CO
NT
RO
L B
OX
51
2.0 8
13
.2
30
51
2.0
12
75
.0
Z
BO
XC
ON
TR
OL
[22
] .87
5
PO
WE
R E
NT
RY
KN
OC
KO
UT
S F
RO
NT
O
R R
IGH
T S
IDE
1
22 .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
SQ
TY
. 3
64
2.5
98
.62
50
6
92
.72
35
5
8.4
21
3
6.9
17
56
.51
65
LIF
TIN
G B
RA
CK
ET
SD
IME
NS
ION
DO
ES
NO
T I
NC
LU
DE
88
.02
23
5
11
.52
92
64
2.5
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
W
EIG
HT
WIT
H E
VA
PO
RA
TO
R W
AT
ER
IN
CL
UD
ED
. S
HIP
PIN
G
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
NO
TE
:IT
IS
RE
CO
MM
EN
DE
D T
HA
T T
HE
SID
E L
OC
AT
ION
S B
E U
SE
D1
.
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
LA
RG
ER
TH
AN
35
0 M
CM
.
RE
QU
IRE
DIN
LE
TW
AT
ER
E
VA
P.
L2
L1
L4
L3
OU
TL
ET
L1
- L
4W
AT
ER
E
VA
P.
(FA
CT
OR
Y O
R F
IEL
DL
OC
AT
ION
S
LIF
TIN
GW
YE
-ST
RA
INE
R
INS
TA
LL
ED
OP
TIO
N)
1
21
08
.3
1.537
24
.06
09
75
.51
91
9
23
7.2
60
25
11
.42
90
85
83
3.8
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
L1
M3
L3
M5
M2
L2
M4
L4
M6
CO
MP
R.
TO
P V
IEW
WIT
H
CIR
. 2
RE
MO
VE
DC
OIL
S A
ND
FA
NS
CO
MP
R.
CIR
. 1
52
2.0
B
2.052
12
.43
15
95
.82
43
36
1.6
15
64
67
.41
71
1
QT
Y.
6.7
50
19
A
(w/o
ST
RA
INE
R O
PT
ION
)
11
18
44
.0
SH
IPP
ING
WE
IGH
TO
PE
RA
TIN
G W
EIG
HT
LB
S (
KG
)L
BS
(K
G)
L1
L2
L3
L4
M1
M2
M3
M4
M5
M6
AG
Z1
70
E7
17
0 (
32
52
)7
30
7 (
33
14
)2
07
2 (
94
0)
19
95
(9
05
)1
58
1 (
71
7)
15
22
(6
90
)1
57
1 (
71
3)
15
12
(6
86
)1
19
7 (
54
3)
11
52
(5
23
)9
56
(4
34
)9
20
(4
17
)
AG
Z1
80
E7
41
2 (
33
62
)7
56
0 (
34
29
)2
12
1 (
96
2)
21
27
(9
65
)1
58
0 (
71
7)
15
84
(7
18
)1
61
3 (
73
2)
16
17
(7
33
)1
21
0 (
54
9)
12
14
(5
51
)9
51
(4
31
)9
54
(4
33
)
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
, L
BS
(K
G)
UN
IT
MO
DE
L
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
, L
BS
(K
G)
XY
ZA
B
AG
Z1
70
E4
3.2
(1
09
6)
40
.4 (
10
25
)8
3.6
(2
12
3)
11
9 (
30
22
)6
4.3
(1
63
4)
AG
Z1
80
E4
4.1
(1
11
9)
39
.4 (
10
00
)8
2.8
(2
10
3)
11
7 (
29
71
)
62
.4 (
15
84
)
UN
IT
MO
DE
L
CG
LO
CA
TIO
N, IN
(M
M)
EV
AP
. D
IME
NS
ION
S, IN
(M
M)
CO
NN
EC
TIO
N
SIZ
E, IN
.
4.0
(1
02
)
AG
Z-E
10F
AN
S,
6 C
OM
PR
ES
SO
RS
, 3
34
54
71
31
D 0
B
62.4
(158
4)
dImensIons and WeIghTs - paCkaged unITs
www.DaikinApplied.com 39 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 39: AGZ191E - AGZ211E
30
51
2.0
12
75
.0
80
3.151
2.0
22 .87
5 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
PO
INT
SA
RE
ON
OP
PO
SIT
ES
IDE
OF
CO
NT
RO
L B
OX
Z
Y
25
06
98
.6
X
Y
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
BE
US
ED
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
LA
RG
ER
TH
AN
35
0 M
CM
.1
.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
MO
UN
TIN
G
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TO
R
WA
TE
R I
NC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E
TH
E W
EIG
HT
S O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
NO
TE
:
L3
M7
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
AR
E O
N B
OT
TO
M S
UR
FA
CE
OF
UN
IT
WIT
H C
OIL
S
M8
L6
CIR
CU
IT #
1
CIR
CU
IT #
2
M4
AN
D F
AN
S
M2
L2
CO
MP
RE
SS
OR
S
L5
M1
TO
P V
IEW
RE
MO
VE
D
L1
M3
M5
L4
CO
MP
RE
SS
OR
S
M6
[15
2]
Ø6
.0V
ICT
AU
LIC
CO
NN
. T
YP
.
62
.91
59
6
2.052
44
.01
11
8
22
41
88
.2
31
51
2.4
24
33
95
.81
11
44
3.8
QT
Y 8
19 .7
5
17
11
67
.4
2.052
35
77
14
0.8
w
/o S
TR
AIN
ER
OP
TIO
N
L6
L1
CG
OU
TLE
TW
AT
ER
L4
L5
INLE
T
L2
EV
AP
L3
WA
TE
R
1
75
.51
91
9
71
71
28
2.3
12
.13
08
92
33
6.3
24
36
95
.98
6.9
22
07
60
92
4.0
1.537
31
67
12
4.7
00
33
45
47
15
3D
AG
Z-E
12
FA
NS
- B
RA
ZED
PLA
TE E
VA
P
CO
NT
RO
LB
OX
CG
1 64
11
.5
2.5
2.5
29
2
64
CO
NN
EC
TIO
NS
FIE
LD
CO
NT
RO
L
22
92
.72
35
5
21
38
.4
22
35
88
.0D
IME
NS
ION
DO
ES
NO
TIN
CL
UD
E L
IFT
ING
BR
AC
KE
TS
16
56
.5
6.9
KN
OC
KO
UT
S.8
75
17
5
22 .87
5 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
PO
INT
SF
RO
NT
& R
IGH
T S
IDE
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z1
91
E8
63
53
91
78
78
53
98
51
75
97
98
17
38
78
81
45
86
61
14
41
65
41
12
75
11
11
13
50
51
57
87
16
15
60
70
81
16
45
28
11
50
52
29
74
44
29
63
43
77
02
31
86
94
31
5
AG
Z2
11
E8
66
93
93
28
81
94
00
01
76
68
01
17
53
79
51
46
16
63
14
50
65
81
12
45
10
11
16
50
61
58
57
19
15
73
71
31
16
65
29
11
58
52
59
75
44
29
68
43
97
00
31
86
95
31
5
M3
M4
M2
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
OP
ER
. W
EIG
HT
LB
SL
1M
7M
8
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
KG
LB
SM
5M
6L
5K
GM
1U
NIT
MO
DE
LL
2L
3L
4L
6
SH
IP W
EIG
HT
IN.
MM
IN.
MM
IN.
MM
AG
Z1
91
E4
3.7
11
10
40
.51
02
91
00
.62
555
AG
Z2
11
E4
3.8
11
13
40
.51
02
91
00
.42
550
CG
LO
CA
TIO
N
UN
IT
MO
DE
LX
YZ
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 40 www.DaikinApplied.com
dImensIons and WeIghTs - paCkaged unITs
Figure 40: AGZ226E - AGZ241E
12
75
.0
30
51
2.0
80
3.1
51
2.0
PO
WE
R E
NT
RY
PO
INT
SA
RE
ON
OP
PO
SIT
ES
IDE
OF
CO
NT
RO
L B
OX
22 .87
5 K
NO
CK
OU
TS
Z
YY
X
INLE
T
L2
L1
L4
L5
L3
OU
TLE
T
L6
L8
EV
AP
WA
TE
R
L7
CG
WA
TE
R
1
54
.11
37
58
6.9
22
07
30
81
2.1
24
.06
09
86
.92
20
77
5.5
19
19
37
1.5
92
33
6.3
32
7.4
83
17
42
07
16
5.6
NO
TE
:IT
IS
RE
CO
MM
EN
DE
D T
HA
T T
HE
SID
E L
OC
AT
ION
S B
E U
SE
D
AN
D F
AN
SR
EM
OV
ED
TH
E W
EIG
HT
S O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
TO
P V
IEW
WIT
H C
OIL
S
1.
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
LA
RG
ER
TH
AN
35
0 M
CM
.
NO
TE
:
WA
TE
R I
NC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TO
R
LIF
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
SH
IPP
ING
WE
IGH
TS
. M
OU
NT
ING
FR
ON
T A
ND
RIG
HT
SID
EP
OW
ER
EN
TR
Y P
OIN
TS
.87
5 K
NO
CK
OU
TS
[22
]
00
D3
34
54
71
43
AG
Z-E
14
FA
NS
- B
RA
ZED
PLA
TE E
VA
P
CG
CO
NT
RO
L
BO
X
[22
] .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
S
1
25
06
98
.6
29
21
1.5
64
2.5
INC
LU
DE
LIF
TIN
G B
RA
CK
ET
SD
IME
NS
ION
DO
ES
NO
T8
8.0
22
35
6.5
16
5
6.9
17
5
8.4
21
3
92
.72
35
5
64
2.5
CO
MP
RE
SS
OR
S
CIR
CU
IT #
2
M2
L6
M8
CO
MP
RE
SS
OR
S
L1
L8
M4
L2
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
AR
E O
N B
OT
TO
M S
UR
FA
CE
OF
UN
IT.
M1
M3
L3
M5
L5
L7
M7
CIR
CU
IT #
1
L4
M6
[15
2]
Ø6
.0V
ICT
AU
LIC
CO
NN
. T
YP
.
17
11
67
.41
2.4
31
5
12
9.2
32
81
11
18
44
.0
43
.81
11
4
QT
Y 8
95
.82
43
32
74
31
08
.0
.75
19
52
2.0
52
2.0
46
17
18
1.8
w
/o S
TR
AIN
ER
OP
TIO
N
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z226E
9413
4270
9600
4354
1659
753
1640
744
1296
588
1282
582
1070
485
1058
480
708
321
700
318
1564
709
1546
701
1281
581
1266
574
1151
522
1138
516
832
377
822
373
AG
Z241E
9501
4310
9688
4394
1683
763
1671
758
1309
594
1299
589
1075
488
1068
484
701
318
696
316
1586
719
1574
714
1292
586
1283
582
1158
525
1149
521
826
375
820
372
L8
L1
L5
KG
M1
UN
IT
MO
DE
LL
2L
3L
4L
6
SH
IP W
EIG
HT
OP
ER
. W
EIG
HT
LB
S
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
L7
M7
M8
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
KG
LB
SM
5M
6M
3M
4M
2
IN.
MM
IN.
MM
IN.
MM
AG
Z226E
43.8
1113
41.9
1064
113.8
289
1
AG
Z241E
43.8
1113
41.9
1064
113.2
287
5
CG
LO
CA
TIO
N
UN
IT
MO
DE
LX
YZ
dImensIons and WeIghTs - heaT reCovery unITs
www.DaikinApplied.com 41 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
dImensIons and WeIghTs - heaT reCovery unITs
Figure 41: AGZ075E - AGZ100E - Heat Recovery Option
X
Y
30
51
2.0
12
75
.08
03
.1
51
2.0
Z
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
E
OF
TH
E C
ON
TR
OL
BO
X
OU
TLE
T
CIR
1H
RW
AT
ER
INLE
T
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
OU
TT
YP
.
CIR
2
DIS
CH
.
WA
TE
R
DIS
CH
.IN
TY
P.H
R1
47
.11
19
6 R
EF
.
20
.45
19
RE
F.
11
18
44
.0 R
EF
.
CIR
CU
IT 2
RE
MO
VE
D
HE
AT
CIR
CU
IT 2
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
M3
M2
M4
L1
CO
MP
R.
CO
ILS
AN
D F
AN
ST
OP
VIE
W W
ITH
L3
L2
CIR
CU
IT 1
RE
CO
VE
RY
L4
CO
MP
R.
CIR
CU
IT 1
HE
AT
RE
CO
VE
RY
24
33
95
.8
52
19 .75
0
52
QT
Y.
4A
(w
/o S
TR
AIN
ER
OP
TIO
N)
2.0
CO
NN
EC
TIO
NS
31
51
2.4
98
43
8.7
2.0
11
18
44
.0C
/L F
OR
AL
L W
AT
ER
B
CO
NT
RO
L
FR
ON
T O
F U
NIT
BO
X
[22
] .87
5 P
OW
ER
EN
TR
YK
NO
CK
OU
TS
FR
ON
T O
R R
IGH
T S
IDE
2
2.5
64
2.5
.87
5
QT
Y.
3C
ON
NE
CT
ION
SF
IEL
D C
ON
TR
OL
KN
OC
KO
UT
S2
2
64
16
56
.5
17
56
.9
LIF
TIN
G B
RA
CK
ET
S
8.4
92
.72
35
5
21
3
98
.62
50
6
88
.02
23
5
DIM
EN
SIO
N D
OE
S N
OT
IN
CL
UD
E
29
21
1.5
0A
D
AG
Z-E
, 6 F
AN
S w
/ OP
TIO
NA
L H
EA
T R
EC
OV
ER
Y
33
45
47
11
2
L1
L2
L4
L3
OU
TL
ET
WA
TE
R
EV
AP
. W
AT
ER
INL
ET
1
WY
E-S
TR
AIN
ER
RE
QU
IRE
D(F
AC
TO
RY
OR
FIE
LD
IN
ST
AL
LE
D O
PT
ION
)
1 HE
AT
RE
CO
VE
RY
WA
TE
R I
NL
ET
EV
AP
.
HE
AT
RE
CO
VE
RY
WA
TE
R O
UT
LE
T
2
51
92
0.4
1.537
11
96
47
.1
49
1.9
24
.06
09
14
7.0
37
33
11
.42
90
6.0
15
3
91
63
6.1
85
83
3.8
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
& H
EA
T R
EC
OV
ER
Y W
AT
ER
IN
CL
UD
ED
. S
HIP
PIN
G A
ND
OP
ER
AT
ING
WE
IGH
TS
WIT
H H
EA
T R
EC
OV
ER
Y D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
OF
AN
Y O
TH
ER
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
TH
AN
35
0 M
CM
.B
E U
SE
D F
OR
PO
WE
R E
NT
RY
WIR
E S
IZE
S L
AR
GE
R2
.
NO
TE
:H
EA
T R
EC
OV
ER
Y W
AT
ER
CO
NN
EC
TIO
NS
1.
FO
R C
IRC
UIT
1 &
2 A
RE
CO
NN
EC
TE
D W
ITH
A T
EE
AN
D H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N S
IZE
S A
RE
2.0
NO
MIN
AL
VIC
TA
UL
IC.
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
L1
- L
4,
LIF
TIN
G
LO
CA
TIO
NS
IN.
MM
IN.
MM
IN.
MM
AG
Z0
75
E4
5.5
11
56
39
.09
91
60
.415
34
AG
Z0
80
E4
4.5
11
30
39
.51
00
35
9.5
15
11
AG
Z0
90
E4
4.5
11
30
39
.51
00
35
9.5
15
11
AG
Z1
00
E4
4.0
11
18
39
.39
98
59
.815
19
CG
LO
CA
TIO
NU
NIT
MO
DE
LX
YZ
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z0
75
E4
61
32
09
24
69
02
12
71
29
45
87
13
88
63
09
32
42
31
00
04
54
11
29
51
21
21
15
49
11
34
51
41
21
65
52
AG
Z0
80
E4
73
42
14
74
81
72
18
51
38
56
28
14
15
64
29
57
43
49
78
44
41
21
05
49
12
37
56
11
17
25
32
11
98
54
3
AG
Z0
90
E4
76
42
16
14
84
72
19
91
39
36
32
14
24
64
69
63
43
79
84
44
61
21
85
52
12
45
56
51
17
95
35
12
05
54
7
AG
Z1
00
E4
93
62
23
95
03
92
28
61
45
26
59
14
49
65
71
01
94
62
10
17
46
11
27
35
77
12
70
57
61
25
05
67
12
47
56
6
M2
OP
ER
. W
EIG
HT
LB
SK
GL
BS
KG
M1
M3
M4
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
L1
UN
IT M
OD
EL
L2
L3
L4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
SH
IP W
EIG
HT
IN.
MM
IN.
MM
IN.
MM
AG
Z075E
55.6
1412
27.1
688
AG
Z080E
54.4
1382
25.9
658
AG
Z090E
54.4
1382
25.9
658
AG
Z100E
51.6
1311
23.1
587
76
UN
IT
MO
DE
LA
B
EV
AP
DIM
'S
NO
M.
VIC
TA
UL
IC
CO
NN
. S
IZE
3.0
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 42 www.DaikinApplied.com
dImensIons and WeIghTs - heaT reCovery unITs
Figure 42: AGZ110E - AGZ130E - Heat Recovery Option
Y
X
51
2.0
80
3.1
30
51
2.0
12
75
.0
22 .8
75
KN
OC
KO
UT
SP
OW
ER
EN
TR
Y K
NO
CK
OU
TS
AR
E O
NT
HE
OP
PO
SIT
E S
IDE
OF
TH
E C
ON
TR
OL
BO
XZ
IN T
YP
.
DIS
CH
.
DIS
CH
.
TY
P.
OU
TCIR
2H
RO
UT
LE
TW
AT
ER
INLE
TW
AT
ER
CIR
1H
R
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
1
11
96
47
.1 R
EF
.
RE
F.
44
.01
11
8
51
92
0.4
RE
F.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
OF
AN
Y O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
WA
TE
R I
NC
LU
DE
D.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
NO
TE
:1
.H
EA
T R
EC
OV
ER
Y W
AT
ER
CO
NN
EC
TIO
NS
FO
R
CIR
CU
IT 1
& 2
AR
E C
ON
NE
CT
ED
WIT
H A
TE
E A
ND
H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N
SIZ
ES
AR
E 2
.0 N
OM
INA
L V
ICT
AU
LIC
.
2.
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
B
E U
SE
D F
OR
PO
WE
R E
NT
RY
WIR
E S
IZE
S L
AR
GE
R
TH
AN
35
0 M
CM
.
0A
D3
34
54
71
22
AG
Z-E
8 F
AN
S w
/ H
EA
T R
EC
OV
ER
Y
FR
ON
T O
F U
NIT
BO
XC
ON
TR
OL
[22
] .87
5 P
OW
ER
EN
TR
YK
NO
CK
OU
TS
FR
ON
T O
R R
IGH
T S
IDE
2
64
2.5
QT
Y.
3C
ON
NE
CT
ION
SF
IEL
D C
ON
TR
OL
KN
OC
KO
UT
S.8
75
22
8.4
21
3
6.9
17
56
.51
65
11
.52
92
64
2.5
23
55
92
.7
98
.62
50
6
22
35
88
.0D
IME
NS
ION
DO
ES
NO
T I
NC
LU
DE
LIF
TIN
G B
RA
CK
ET
S
L2
L1
L4
L3
EV
AP
.
INL
ET
WA
TE
RO
UT
LE
T
LO
CA
TIO
NS
LIF
TIN
GL
1 -
L4
,W
AT
ER
EV
AP
.
(FA
CT
OR
Y O
RR
EQ
UIR
ED
OP
TIO
N)
FIE
LD
IN
ST
AL
LE
D
WA
TE
R I
NL
ET
HE
AT
RE
CO
VE
RY
WA
TE
R O
UT
LE
TH
EA
T R
EC
OV
ER
Y
WY
E-S
TR
AIN
ER
1 1
2
51
92
0.4
1.537
47
.11
19
6
50
2.0
29
01
1.4
24
.06
09
19
2.1
48
79
39
.29
96
6.0
15
3
85
83
3.8
HE
AT
M1
- M
6,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
M3
M5
L1
L3
M2
L2
M4
L4
CIR
CU
IT 1
CIR
CU
IT 2
M6
RE
CO
VE
RY
CIR
. 2
CO
MP
R.
CIR
. 1
TO
P V
IEW
WIT
H
CO
MP
R.
RE
MO
VE
D.
CO
ILS
AN
D F
AN
S
HE
AT
RE
CO
VE
RY
52
2.0
A
(w/o
ST
RA
INE
R O
PT
ION
)
12
.43
15
95
.82
43
35
9.0
14
99
24
.86
30
2.052
QT
Y.
6.7
50
19
CO
NN
EC
TIO
NS
11
18
44
.0C
/L F
OR
AL
L W
AT
ER
B LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z1
10
E5
69
72
58
45
80
72
63
41
73
97
89
177
18
03
10
83
49
111
04
501
14
00
63
51
42
764
78
94
40
69
11
41
35
82
26
45
93
26
9
AG
Z1
20
E5
95
22
70
06
07
12
75
41
88
48
55
191
78
70
10
66
48
410
85
492
15
24
69
11
55
170
49
26
42
09
43
42
85
58
25
35
68
25
8
AG
Z1
30
E6
06
12
74
96
19
62
81
01
91
18
67
186
28
45
11
59
52
611
29
512
15
46
70
11
50
668
39
73
44
19
48
43
06
20
28
16
04
27
4
LB
SM
5M
6
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
M3
M4
L1
M2
KG
M1
UN
IT
MO
DE
LL
2L
3L
4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
SH
IP W
EIG
HT
OP
ER
. W
EIG
HT
LB
SK
G
IN.
MM
IN.
MM
IN.
MM
AG
Z110E
44.4
112
842.1
1069
73.5
1867
AG
Z120E
44.4
112
843.3
1100
70.6
1793
AG
Z130E
43.4
110
241.1
1044
72.7
1847
CG
LO
CA
TIO
NU
NIT
MO
DE
LX
YZ
IN.
MM
IN.
MM
IN.
MM
AG
Z110E
95.5
242
669.1
1755
AG
Z120E
93.9
238
567.5
1715
AG
Z130E
92.0
233
765.5
1664
3.0
76
UN
IT
MO
DE
LA
B
EV
AP
DIM
'S
NO
M.
VIC
TA
UL
IC
CO
NN
. S
IZE
dImensIons and WeIghTs - heaT reCovery unITs
www.DaikinApplied.com 43 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 43: AGZ140E - AGZ161E - Heat Recovery Option
X
Y8
03
.1
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
EO
F T
HE
CO
NT
RO
L B
OX
51
2.0
30
51
2.0
12
75
.0
Z
CO
ILS
AN
D F
AN
S
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
L1
M3
L3
M5
M2
L2
M4
L4
M6
RE
MO
VE
D
TO
P V
IEW
WIT
H
CIR
CU
IT 2
HE
AT
RE
CO
VE
RY
CIR
CU
IT 1
CIR
. 1
CIR
. 2
CO
MP
R.
CO
MP
R.
HE
AT
RE
CO
VE
RY
15
64
61
.6
2.052
12
.43
15
95
.82
43
3
19 .75
0Q
TY
. 6
67
.41
71
1
52
2.0
B
A
(w
/o S
TR
AIN
ER
OP
TIO
N)
11
18
44
.0C
/L F
OR
AL
L W
AT
ER
CO
NN
EC
TIO
NS
33
45
47
13
2
AG
Z-E
10
FAN
S,
4 C
OM
PR
ES
SO
RS
w/
OP
TIO
NA
L H
EA
T R
EC
OV
ER
Y
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
OF
AN
Y O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
WA
TE
R I
NC
LU
DE
D.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
NO
TE
:H
EA
T R
EC
OV
ER
Y W
AT
ER
CO
NN
EC
TIO
NS
FO
R C
IRC
UIT
1 &
2 A
RE
CO
NN
EC
TE
D W
ITH
A T
EE
1.
AN
D H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N S
IZE
S A
RE
2.0
NO
MIN
AL
VIC
TA
UL
IC.
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
BE
US
ED
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
2.
LA
RG
ER
TH
AN
35
0 M
CM
.
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
TY
P.
OU
TD
ISC
H.
IN T
YP
.D
ISC
H.CIR
2H
R
CIR
1H
R
OU
TL
ET
WA
TE
R
INL
ET
WA
TE
R
1
51
92
0.4
RE
F.
RE
F.
47
.11
19
6
11
18
44
.0 R
EF
.
FR
ON
T O
F U
NIT
BO
XC
ON
TR
OL
[22
] .87
5
PO
WE
R E
NT
RY
KN
OC
KO
UT
SF
RO
NT
OR
RIG
HT
SID
E
2
64
2.5
QT
Y.
3C
ON
NE
CT
ION
SF
IEL
D C
ON
TR
OL
KN
OC
KO
UT
S.8
75
22
6.5
16
5
6.9
17
5
64
2.5
22
35
88
.0D
IME
NS
ION
DO
ES
NO
T I
NC
LU
DE
LIF
TIN
G B
RA
CK
ET
S
98
.62
50
6
92
.72
35
5
8.4
21
3
29
21
1.5
EV
AP
.
INL
ET
WA
TE
R
L2
L1
L4
L3
OU
TL
ET
LO
CA
TIO
NS
LIF
TIN
G
L1
- L
4
WA
TE
R
RE
QU
IRE
DW
YE
-ST
RA
INE
R
INS
TA
LL
ED
OP
TIO
N)
(FA
CT
OR
Y O
R F
IEL
D
WA
TE
R I
NL
ET
HE
AT
RE
CO
VE
RY
WA
TE
R O
UT
LE
TH
EA
T R
EC
OV
ER
Y
EV
AP
.
1
1
2
51
92
0.4
1.537
47
.11
19
6
50
2.0
19
19
75
.52
4.0
60
9
21
08
.3
23
7.2
60
25
11
.42
90
85
83
3.8
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z1
40
E6
80
53
08
76
94
831
52
17
81
80
81
81
08
21
15
94
72
31
62
07
35
13
28
602
13
49
61
21
12
55
10
11
43
51
89
94
45
11
010
45
8
AG
Z1
50
E6
88
03
12
17
03
631
91
18
04
81
81
82
08
26
16
20
73
51
63
57
42
13
46
611
13
59
61
61
14
35
18
11
54
52
31
01
34
59
10
22
46
4
AG
Z1
61
E6
96
83
16
17
13
032
34
18
26
82
81
85
58
41
16
31
74
01
65
67
51
13
65
619
13
86
62
91
15
45
23
11
72
53
21
01
94
62
10
35
46
9
LB
SM
5M
6
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
M3
M4
L1
M2
KG
M1
UN
IT
MO
DE
LL
2L
3L
4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
SH
IP W
EIG
HT
OP
ER
. W
EIG
HT
LB
SK
G
IN.
MM
IN.
MM
IN.
MM
IN.
MM
IN.
MM
IN.
MM
AG
Z1
40
E44
.41
12
84
2.3
10
74
89
.02
26
11
22.1
310
167
.51
715
AG
Z1
50
E44
.21
12
34
2.6
10
82
89
.22
26
61
20.5
306
165
.91
674
AG
Z1
61
E44
.31
12
54
2.5
10
80
89
.02
26
11
20.5
306
165
.91
674
UN
IT
MO
DE
LX
YZ
EV
AP
DIM
'S
AB
NO
M.
VIC
TA
UL
IC
CO
NN
. S
IZE
4.0
102
CG
LO
CA
TIO
N
0A
D
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 44 www.DaikinApplied.com
dImensIons and WeIghTs - heaT reCovery unITs
Figure 44: AGZ170E - AGZ180E - Heat Recovery Option
80
3.1
22 .8
75 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
KN
OC
KO
UT
SA
RE
ON
TH
E O
PP
OS
ITE
SID
EO
F T
HE
CO
NT
RO
L B
OX
51
2.0
30
51
2.0
12
75
.0
Z
X
Y
WA
TE
R
INL
ET
L1
L2
OU
TL
ET
L3
L4
LIF
TIN
G
LO
CA
TIO
NS
WA
TE
R
L1
- L
4
WY
E-S
TR
AIN
ER
RE
QU
IRE
D(F
AC
TO
RY
OR
FIE
LD
INS
TA
LL
ED
OP
TIO
N)
HE
AT
RE
CO
VE
RY
WA
TE
R I
NL
ET
EV
AP
.
1
EV
AP
.
HE
AT
RE
CO
VE
RY
WA
TE
R O
UT
LE
T
1
2
20
.45
192.050
11
96
47
.1
37
1.5
11
.42
90
8.3
21
0
60
92
4.0
19
19
75
.5
60
25
23
7.2
85
83
3.8
CO
NT
RO
L
FR
ON
T O
F U
NIT
BO
X
[22
] .87
5
PO
WE
R E
NT
RY
KN
OC
KO
UT
SF
RO
NT
OR
RIG
HT
SID
E
2Q
TY
. 3
CO
NN
EC
TIO
NS
FIE
LD
CO
NT
RO
L K
NO
CK
OU
TS
22 .87
5
2.564
16
5
17
56
.9
6.5
64
2.5
8.4
21
3
LIF
TIN
G B
RA
CK
ET
SD
IME
NS
ION
DO
ES
NO
T I
NC
LU
DE
88
.02
23
5
25
06
98
.6
92
.72
35
5
29
21
1.5
HE
AT
M1
- M
4,
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
ON
BO
TT
OM
SU
RF
AC
E O
F U
NIT
BA
SE
.
M1
L1
M3
L3
M5
M2
L2
M4
L4
CIR
CU
IT 2
M6
CIR
. 1
CIR
CU
IT 1
RE
CO
VE
RY
CO
MP
R.
TO
P V
IEW
WIT
HC
OIL
S A
ND
FA
NS
RE
MO
VE
D
CO
MP
R.
CIR
. 2
HE
AT
RE
CO
VE
RY
.75
01
9
QT
Y.
6
A
(w
/o S
TR
AIN
ER
OP
TIO
N)
B
2.052
52
2.0
31
51
2.4
24
33
95
.81
56
46
1.6
17
11
67
.4
11
18
44
.0C
/L F
OR
AL
L W
AT
ER
CO
NN
EC
TIO
NS
WA
TE
R
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
OU
TT
YP
.
DIS
CH
.
DIS
CH
.IN
TY
P.
WA
TE
RO
UT
LE
TH
RC
IR 2
INL
ET
HR
CIR
1
1
RE
F.
44
.01
11
8
RE
F.
47
.11
19
6
51
92
0.4
RE
F.
NO
TE
: L
IFT
ING
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT S
HIP
PIN
G W
EIG
HT
S.
MO
UN
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
OP
ER
AT
ING
WE
IGH
T W
ITH
EV
AP
OR
AT
OR
WA
TE
R I
NC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E T
HE
WE
IGH
TS
OF
AN
Y O
PT
ION
S O
R A
CC
ES
SO
RIE
S.
NO
TE
:H
EA
T R
EC
OV
ER
Y W
AT
ER
CO
NN
EC
TIO
NS
FO
R C
IRC
UIT
1 &
2 A
RE
CO
NN
EC
TE
D W
ITH
A T
EE
1.
AN
D H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N S
IZE
S A
RE
2.0
NO
MIN
AL
VIC
TA
UL
IC.
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
BE
US
ED
FO
R P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
2.
LA
RG
ER
TH
AN
35
0 M
CM
.
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z1
70
E7
52
53
41
37
69
63
49
11
99
19
03
19
42
88
11
81
88
25
17
73
80
41
48
36
73
14
46
65
61
27
45
78
12
42
56
31
13
95
17
11
11
50
4
AG
Z1
80
E7
78
93
53
37
97
13
61
62
01
69
14
20
42
92
61
85
48
41
18
78
85
21
50
16
81
15
20
68
91
29
65
88
13
12
59
51
16
45
28
11
79
53
5
KG
M1
M5
M6
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
M3
M4
L1
M2
UN
IT
MO
DE
LL
2L
3L
4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
SH
IP W
EIG
HT
OP
ER
. W
EIG
HT
LB
SK
GL
BS
IN.
MM
IN.
MM
IN.
MM
IN.
MM
IN.
MM
IN.
MM
AG
Z17
0E
43.5
11
05
40
.61
03
18
9.7
22
78
11
93
02
36
4.3
16
33
AG
Z18
0E
44.3
11
25
39
.91
01
39
0.0
22
86
11
72
97
26
2.4
15
85
BN
OM
. V
ICT
AU
LIC
CO
NN
. S
IZE
4.0
102
CG
LO
CA
TIO
N
UN
IT
MO
DE
LX
YZ
EV
AP
DIM
'S
A
33
45
47
13
2
AG
Z-E
10
FAN
S,
6 C
OM
PR
ES
SO
RS
w/
OP
TIO
NA
L H
EA
T R
EC
OV
ER
Y
0A
D
dImensIons and WeIghTs - heaT reCovery unITs
www.DaikinApplied.com 45 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 45: AGZ191E - AGZ211E - Heat Recovery Option
SID
E O
F C
ON
TR
OL
BO
XA
RE
ON
OP
PO
SIT
EP
OW
ER
EN
TR
Y P
OIN
TS
KN
OC
KO
UT
S.8
75
22
12
75
.0
80
3.1
51
2.0
30
51
2.0
Z
25
06
98
.6
X
Y
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TO
R
WA
TE
R I
NC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E
TH
E W
EIG
HT
S O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.2
.IT
IS
RE
CO
MM
EN
DE
D T
HA
T T
HE
SID
E L
OC
AT
ION
S B
E U
SE
D F
OR
LIF
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
SH
IPP
ING
WE
IGH
TS
. M
OU
NT
ING
N
OT
E:
PO
WE
R E
NT
RY
WIR
E S
IZE
S L
AR
GE
R T
HA
N 3
50
MC
M.
NO
TE
:H
EA
T R
EC
OV
ER
Y W
AT
ER
CO
NN
EC
TIO
NS
FO
R C
IRC
UIT
1 &
2 A
RE
1.
CO
NN
EC
TE
D W
ITH
A T
EE
AN
D H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N S
IZE
S A
RE
2.0
NO
MIN
AL
VIC
TA
UL
IC.
00
D3
34
54
71
54
AG
Z-E
12 F
AN
S -
BR
AZE
D P
LATE
EV
AP
WIT
H H
EA
T R
EC
OV
ER
Y
HE
AT
HE
AT
RE
CO
VE
RY
L1
L2
L3
WA
TE
R
INLE
T
OU
TLE
T
1
L5
CG
WA
TE
RIN
LE
T
RE
CO
VE
RY
WA
TE
R O
UT
LE
T
L4
L6
EV
AP
1
WA
TE
R
2
47
.11
19
6
20
.45
19
24
36
95
.92
20
78
6.9
60
92
4.0
37
1.5
19
19
75
.5
71
71
28
2.3
50
2.0
36
.39
23
12
.13
08
31
67
12
4.7
CIR
CU
IT 1
HE
AT
RE
CO
VE
RY
TO
P V
IEW
WIT
H C
OIL
S
M1
M2
L2
L1
L4
L3
CO
MP
RE
SS
OR
S
L5
M3
M5
M7
M6
M8
L6
CIR
CU
IT #
2
CIR
CU
IT #
1
CO
MP
RE
SS
OR
S
M4
AN
D F
AN
SR
EM
OV
ED
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
AR
E O
N B
OT
TO
M S
UR
FA
CE
OF
UN
IT
CIR
CU
IT 2
HE
AT
RE
CO
VE
RY
[15
2]
Ø6
.0V
ICT
AU
LIC
CO
NN
. T
YP
.
2.052
2.052
31
51
2.4
24
33
95
.81
11
44
3.8
15
96
62
.91
71
16
7.4 1
9 .75
QT
Y 8
11
18
44
.0C
/L F
OR
WA
TE
RC
ON
NE
CT
ION
S
35
77
14
0.8
w
/o S
TR
AIN
ER
OP
TIO
N
88
.22
24
1
11
18
44
.0
CG
CO
NT
RO
L
FR
ON
T O
F U
NIT
BO
X
2
2.564
FIE
LD
CO
NT
RO
L
22 CO
NN
EC
TIO
NS
KN
OC
KO
UT
S.8
75
23
55
92
.7
21
38
.4
22
35
88
.0D
IME
NS
ION
DO
ES
NO
TIN
CL
UD
E L
IFT
ING
BR
AC
KE
TS
16
56
.51
75
6.9
29
21
1.5
64
2.5
22 .87
5 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
PO
INT
SF
RO
NT
& R
IGH
T S
IDE
WA
TE
R
OU
TT
YP
.
DIS
CH
DIS
CH
IN T
YP
.
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
WA
TE
RO
UT
LE
T
HR
CIR
2
INL
ET
HR
CIR
1
1
RE
F.
44
.01
11
8
RE
F.
47
.11
19
6
51
92
0.4
RE
F.
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z1
91
E8
97
04
06
99
15
44
15
21
67
67
60
16
64
75
51
50
66
83
14
95
67
81
31
95
98
13
10
59
41
50
06
80
14
90
67
61
19
25
41
11
84
53
71
05
24
77
10
44
47
48
49
38
58
43
38
2
AG
Z2
11
E9
00
54
08
59
18
94
16
81
68
47
64
16
79
76
21
50
96
84
15
05
68
31
31
65
97
13
13
59
61
50
76
84
15
03
68
21
19
55
42
11
92
54
11
05
24
77
10
49
47
68
47
38
48
44
38
3
UN
IT
MO
DE
LL
2L
3L
4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
L6
SH
IP W
EIG
HT
M7
M8
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
KG
LB
SM
5M
6L
5K
GM
1M
3M
4M
2
OP
ER
. W
EIG
HT
LB
SL
1
IN.
MM
IN.
MM
IN.
MM
AG
Z191E
43.8
1113
40.8
1036
106.6
2708
AG
Z211E
43.9
1115
40.8
1036
106.4
2703
CG
LO
CA
TIO
N
UN
IT
MO
DE
LX
YZ
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 46 www.DaikinApplied.com
dImensIons and WeIghTs - heaT reCovery unITs
Figure 46: AGZ226E - AGZ241E - Heat Recovery Option
12
75
.0
51
2.0
30
51
2.0
80
3.1
22 .87
5 K
NO
CK
OU
TS
PO
WE
R E
NT
RY
PO
INT
SA
RE
ON
OP
PO
SIT
ES
IDE
OF
CO
NT
RO
L B
OX
ZX
Y
AN
D F
AN
S
TH
E W
EIG
HT
S O
F A
NY
OP
TIO
NS
OR
AC
CE
SS
OR
IES
.
RE
MO
VE
D
WA
TE
R I
NC
LU
DE
D.
SH
IPP
ING
AN
D O
PE
RA
TIN
G W
EIG
HT
S D
O N
OT
IN
CL
UD
E
WE
IGH
TS
AR
E B
AS
ED
ON
UN
IT O
PE
RA
TIN
G W
EIG
HT
WIT
H E
VA
PO
RA
TO
R
NO
TE
:
WIT
H C
OIL
ST
OP
VIE
W
LIF
TIN
G W
EIG
HT
S A
RE
BA
SE
D O
N U
NIT
SH
IPP
ING
WE
IGH
TS
. M
OU
NT
ING
N
OT
E:
HE
AT
RE
CO
VE
RY
WA
TE
R C
ON
NE
CT
ION
S F
OR
CIR
CU
IT 1
& 2
AR
E
1.
CO
NN
EC
TE
D W
ITH
A T
EE
AN
D H
AV
E O
NE
IN
LE
T &
ON
E O
UT
LE
T.
CO
NN
EC
TIO
N S
IZE
S A
RE
2.0
NO
MIN
AL
VIC
TA
UL
IC.
IT I
S R
EC
OM
ME
ND
ED
TH
AT
TH
E S
IDE
LO
CA
TIO
NS
BE
US
ED
FO
R2
.P
OW
ER
EN
TR
Y W
IRE
SIZ
ES
LA
RG
ER
TH
AN
35
0 M
CM
.
00
33
45
47
14
4
AG
Z-E
14 F
AN
S -
BR
AZE
D P
LATE
EV
AP
w/
HE
AT
RE
CO
VE
RY
D
WA
TE
R
OU
TLE
T
L1
WA
TE
R
L4
L2
INLE
T
L3
L5
HE
AT
EV
AP
1
L8
WA
TE
R
CG
1
L6
L7
RE
CO
VE
RY
INL
ET
HE
AT
RE
CO
VE
RY
WA
TE
R O
UT
LE
T
2
47
.11
19
6
2.050
42
07
16
5.6
51
92
0.4
60
92
4.0
86
.92
20
71
37
55
4.1
22
07
86
.97
5.5
19
19
83
17
32
7.4
1.537
30
81
2.1
92
33
6.3
CO
NT
RO
L
CG
[22
]
PO
WE
R E
NT
RY
PO
INT
SF
RO
NT
AN
D R
IGH
T S
IDE
BO
X
.87
5 K
NO
CK
OU
TS
FR
ON
T O
F U
NIT
[22
] .87
5 K
NO
CK
OU
TS
FIE
LD
CO
NT
RO
LC
ON
NE
CT
ION
S
2
92
.72
35
5
8.4
98
.62
50
6
11
.52
92
2.564
22
35
88
.0
INC
LU
DE
LIF
TIN
G B
RA
CK
ET
SD
IME
NS
ION
DO
ES
NO
T
16
56
.5
6.9
17
5
21
36
42
.5
WA
TE
R
OU
TT
YP
.
BA
CK
OF
UN
IT (
HE
AT
RE
CO
VE
RY
DE
TA
IL)
OU
TL
ET
DIS
CH
IN T
YP
.
HR
CIR
1
WA
TE
R
INL
ET
HR
CIR
2
DIS
CH
1
47
.11
19
6 R
EF
20
.45
19
RE
F
11
18
44
.0 R
EF
M8
CIR
CU
IT 1
HE
AT
RE
CO
VE
RY
CO
MP
RE
SS
OR
S
CO
MP
RE
SS
OR
S
CIR
CU
IT 2
HE
AT
RE
CO
VE
RY
ISO
LA
TO
R M
OU
NT
ING
HO
LE
LO
CA
TIO
NS
AR
E O
N B
OT
TO
M S
UR
FA
CE
OF
UN
IT.
M1
L1
M3
L3
M5
L5
CIR
CU
IT #
2
L7
L4
M6
M7
M2
L6
M4
CIR
CU
IT #
1
L2
L8
[15
2]
Ø6
.0V
ICT
AU
LIC
CO
NN
. T
YP
.
17
11
67
.4
CO
NN
EC
TIO
NS
.75
44
.0C
/L F
OR
11
18
WA
TE
R
11
18
QT
Y 8
44
.0
32
81
12
9.2
27
43
10
8.0
11
14
43
.82
43
39
5.8
31
51
2.4
52
2.0 52
2.0
19
46
17
18
1.8
w
/o S
TR
AIN
ER
OP
TIO
N
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
LB
SK
GL
BS
KG
AG
Z2
26
E9
78
44
43
81
00
12
45
41
15
73
71
31
56
37
09
13
09
59
41
30
15
90
11
45
51
91
13
85
16
88
14
00
87
53
97
148
96
75
14
79
67
11
30
45
91
12
95
587
12
19
55
31
21
15
49
10
11
45
91
00
44
55
AG
Z2
41
E9
87
34
47
81
01
01
45
82
15
97
72
41
59
37
23
13
21
59
91
31
85
98
11
50
52
21
14
75
20
87
43
96
87
23
96
151
16
85
15
07
68
41
31
55
96
13
12
595
12
26
55
61
22
35
55
10
05
45
61
00
34
55
M7
M8
MO
UN
TIN
G (
OP
ER
AT
ING
) W
EIG
HT
KG
LB
SM
5M
6M
3M
4M
2U
NIT
MO
DE
LL
2L
3L
4
LIF
TIN
G (
SH
IPP
ING
) W
EIG
HT
BY
CO
RN
ER
L6
SH
IP W
EIG
HT
OP
ER
. W
EIG
HT
LB
SL
7L
8L
1L
5K
GM
1
IN.
MM
IN.
MM
IN.
MM
AG
Z22
6E
43
.91
11
54
2.1
10
69
12
1.0
30
73
AG
Z24
1E
44
.01
11
84
2.2
10
72
12
0.3
30
56
CG
LO
CA
TIO
N
UN
IT
MO
DE
LX
YZ
IsolaTors
www.DaikinApplied.com 47 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
IsolaTors
Figure 47: Spring Isolator
Figure 48: Rubber-in-Shear (RIS) Isolator
Transfer the unit as indicated in the current AGZ-E Installation and Operation Manual, which can be found on www.DaikinApplied.com. In all cases, set the unit in place and level. If antiskid pads are used, do not use hold down bolts. If hold down bolts are used, do not use anti-skid pads.
When spring isolators are required, install springs running under the main unit supports. Unit should be installed on blocks or shims at the listed free height. Isolator springs should not be loaded until the installation is complete, then adjust the springs to the vendor listed compression gap for the load point. When securing the isolator, do not over-tighten the mounting bolts. Over-tightening may result in cracking of the cast isolator housing and will have a negative impact on the isolation effect.
Installation of spring isolators requires flexible piping connections and at least three feet of flexible electrical conduit to avoid straining the piping and transmitting vibration and noise.
Mounting locations for each model can be found in the Dimensions and Weights section, starting on page 33
Neoprene waffle pads, supplied by customers, should be mounted at the defined mounting point locations along the rail length.
9.25 [235.0]
10.5 [266.7]
.56 [14.3]
7.75 [196.9]
3
[76.2].62 [15.8]
6.25
[127.0]
FREE HT.
5\X [127.0]
OPER. HT.
.5 [12.7] DIA.
POSITIONING
PIN
.25 [6.4]ELASTOMERIC PAD
ADJ. BOLT
ELASTOMERIC
SNUBBER
.625
[15.9].25 TO .5 GAP
[6.4 to 12.7]
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 48 www.DaikinApplied.com
eleCTrICal daTa
eleCTrICal daTa
Electrical Data Notes1. Power wiring connections to the chiller may be done with
either copper or aluminum wiring. Wire should be sized per NEC and/or local codes. Wire sizing and wire count must fit in the power connection lug sizing shown in the Electrical Data tables starting on page 53.
2. Unit wire size ampacity (MCA) is equal to 125% of the largest compressor-motor RLA plus 100% of RLA of all other loads in the circuit.
3. Recommended Fuse Sizes are selected at approximately 175% of the largest compressor RLA, plus 100% of all other loads in the circuit.
4. Maximum Fuse or breaker size is equal to 225% of the largest compressor RLA, plus 100% of all other loads.
5. The control transformer is furnished and no separate 115V power is required. For both single and multi-point power connections, the control transformer is in circuit #1 with control power wired from there to circuit #2. In multi-point power, disconnecting power to circuit #1 disconnects control power to the unit.
6. Wire sizing amps is 15 amps if a separate 115V power supply is used for the control circuit.
7. Single-point power supply requires a single disconnect to supply electrical power to the unit. This power supply must either be fused or use a circuit breaker.
8. All field wire lug range values given in the Electrical Data tables starting on page 53 apply to 75°C rated wire per NEC.
9. Must be electrically grounded according to national and local electrical codes.
Circuit Breakers Factory installed compressor circuit breakers are standard on units with single point power supply only. This option provides compressor short circuit protection and makes servicing easier
Voltage Limitations:1. Within 10 percent of nameplate rating.
2. Voltage unbalance not to exceed 2% with a resultant current unbalance of 6 to 10 times the voltage unbalance per NEMA MG-1, 2009 Standard Rev. 1-2010.
Table 30: Standard and HSCCR Panel Ratings
Panel Type 208V / 230V 380V / 400V / 460V 575V
Standard 5kA 5kA 5kA
HSCCR 65kA 65kA 25kA
Electrical Control CenterOperating and equipment protection controls and motor starting components are separately housed in a centrally located, weather resistant control panel with hinged and tool-locked doors. In addition to the MicroTech® III controller described in the next sections, the following components are housed in the panel:
• Power terminal blocks, multi-point connection standard• Control, input, and output terminal block• Control transformer• Optional disconnect switch (through-the-door handle)• Compressor motor inherent thermal and overload
protection is standard • Optional phase voltage monitor with under/over voltage
and phase reversal protection• Fan contactors with short circuit protective devices.• Optional ground fault protection• FanTrol® fan staging head pressure control system• Power connections are per Table 31
Power Connections
Table 31: Power Connection Availability
Power Connection Power Block
Disc. Swt .
Comp . Circuit
Breakers
Panel High Short Circuit
Current Rating
Optional Single Point Std. Opt. Std. Opt.
Standard Multi-Point Std. Opt. Not Avail. Not Avail.
Definitions: 1. Power Block: An electrical device to directly accept field
wiring without any disconnecting means.
2. Disconnect Switch: A molded case switch that accepts field wiring and disconnects main power to the entire unit or each main power supply if the multi-point power supply option is selected. This option does not provide overcurrent protection.
3. Compressor Circuit Breakers: A manually reset circuit breaker for each compressor, providing compressor only short circuit protection and located ahead of the contactor.
4. Control Panel High Short Circuit Current Rating: (Previously known as “withstand rating”). The entire control panel is designed for short circuit current rating as shown in Table 30. In the event of a short circuit, the damage is contained within the control panel enclosure.
eleCTrICal daTa
www.DaikinApplied.com 49 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 49: Typical Field Wiring Diagram (Single-Point Connection)
NOCOM
BELL
4-20MA FORDEMAND LIMIT(BY OTHERS)
4-20MA FOREVAP. - LWT RESET
(BY OTHERS)
DOUBLE SET POINT/MODESWITCH
(BY OTHERS)
TIMECLOCK
OFF
MANUAL
ON
AUTO
585
IF REMOTE STOPCONTROL IS USEDREMOVE LEAD 585
FROM TERM TB2-52 TO TB2-72
TIME CLOCKOFF
MANUAL
ON
AUTO
71TB2
70TB2
69TB2
68TB2
TB1 22
TB11A
TOCOMPRESSOR(S)
AND FAN MOTORS
ALARM BELLRELAY
120VAC
FU5
T1
FU6CONTROL CIRCUIT
FUSESEE NOTE 2
FU4
REMOTESTOP SWITCH(BY OTHERS)
TB2
TB2
43
83
UNIT ALARM
120 VACTB1
TB1
TB2
TB2
TB2
TB2
54
52
34
74
72
32A
ALARMBELL OPTION
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER(BY OTHERS)
1 2
TB2
TB2
45
67
EXTERNALALARM/EVENT
DISCONNECT(BY OTHERS)
N
120 VAC
OPTIONALFIELD SUPPLIED
CONTROL POWERFU
15A for 1.5 KVA30A for 3.0KVA(BY OTHERS)
Notes:
1.) ALL FIELD WIRING TO BE INSTALLED AS NEC CLASS 1 WIRING SYSTEM WITH CONDUCTOR RATED 600 VOLTS.2.) IF FIELD SUPPLIED, CONTROL POWER USER MUST REMOVE FU6, AND WIRE NUMBERS 299, 301A INSIDE CONTROL PANEL3.) ** = USE 'DRY CONTACTS' ONLY4.) DO NOT SUPPLY FIELD POWER TO 24VAC OR 120VAC CONTROL CIRCUITS.
301A
301 299
ABR
555A
IF EXTERNALALARM/EVENT
IS USEDREMOVE LEAD 555A
FROM TERMTB2-45 TO TB2-67
N
24 VAC
FIELD WIRING DIAGRAM WITH MICROTECH CONTROLLER
ALARM BELL RELAY120VAC @ 1.0AMP MAX
EARTHGROUND
ABR
**
**
**
24VAC @ 0.4AMP MAX.
**
**
**
CHW FLOW SWITCH-MANDATORY-(BY OTHERS)
NOR. OPEN PUMPAUX. CONTACTS
(OPTIONAL)
61TB2
TB244
**
**
N
120 VACTB1
TB1
CHWR1PUMP NO.1 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
35
33
CHWR2PUMP NO.2 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
N
120 VACTB1
TB1
P2+
31
_
+
_
+
GND(317)
T3
T2
T1
L3
L2
L1
PANEL
/(655)
/(652)
/(645)
/(637)
/(629)
/(225)
/(235)(630)
/(542)
/(649)
/(626)
/(714)
NOTE: Use dry contacts only. DO NOT supply Field Power to this circuit. For Factory Supplied Thermal Dispersion Flow Switch wiring, see wiring instruction in Kit.
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 50 www.DaikinApplied.com
eleCTrICal daTa
Figure 50: Typical Field Wiring Diagram (Multi-Point Connection)
NOCOM
BELL
4-20MA FORDEMAND LIMIT(BY OTHERS)
4-20MA FOREVAP. - LWT RESET
(BY OTHERS)
DOUBLE SET POINT/MODESWITCH
(BY OTHERS)
TIMECLOCK
OFF
MANUAL
ON
AUTO
585
IF REMOTE STOPCONTROL IS USEDREMOVE LEAD 585
FROM TERM TB2-52 TO TB2-72
TIME CLOCKOFF
MANUAL
ON
AUTO
71TB2
70TB2
69TB2
68TB2
TB1 22
TB1
TO CIRCUIT 1COMPRESSOR(S)
AND FAN MOTORS
ALARM BELLRELAY
120VAC
FU5
T1
FU6CONTROL CIRCUIT
FUSESEE NOTE 2
FU4
REMOTESTOP SWITCH(BY OTHERS)
TB2
TB2
43
83
ALARM BELLOPTION
TB2
TB2
TB2
TB2
54
52
74
72
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER 1(BY OTHERS)
1 2
TB2
TB2
45
67
EXTERNALALARM/EVENT
DISCONNECT(BY OTHERS)
N
120 VAC
OPTIONALFIELD SUPPLIED
CONTROL POWERFU
TO CIRCUIT 2COMPRESSOR(S)
AND FAN MOTORS
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER 2(BY OTHERS) 15A for 1.5 KVA
30A for 3.0KVA(BY OTHERS)
1A
301A
301 299
ABR
555A
IF EXTERNALALARM/EVENT
IS USEDREMOVE LEAD 555A
FROM TERMTB2-45 TO TB2-67
N
24 VAC
120 VACTB1
TB1
34
32A
ALARMBELL OPTION ALARM BELL RELAY
120VAC @ 1.0AMP MAX
FIELD WIRING DIAGRAM WITH MICROTECH CONTROLLER
EARTHGROUND
ABR
**
**
**
**
**
1.) ALL FIELD WIRING TO BE INSTALLED AS NEC CLASS 1 WIRING SYSTEM WITH CONDUCTOR RATED 600 VOLTS.2.) IF FIELD SUPPLIED, CONTROL POWER USER MUST REMOVE FU6, AND WIRE NUMBERS 299, 301A INSIDE CONTROL PANEL3.) ** = USE 'DRY CONTACTS' ONLY4.) DO NOT SUPPLY FIELD POWER TO 24VAC OR 120VAC CONTROL CIRCUITS.
Notes:
24VAC @ 0.4AMP MAX.
**
CHW FLOW SWITCH-MANDATORY-(BY OTHERS)
NOR. OPEN PUMPAUX. CONTACTS
(OPTIONAL)
TB2
TB244
61 /(649)
**
**
N
120 VACTB1
TB1
CHWR1PUMP NO.1 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
35
33
CHWR2PUMP NO.2 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
N
120 VACTB1
TB1
P2+
31
_
+
_
+
T3
T2
T1
L3
L2
L1
T3
T2
T1
L3
L2
L1
GND(317)
PANEL
/(652)
/(655)
/(637)
/(629)
/(231)
/(645)
/(240)(630)
/(540)
/(626)
/(714)
NOTE: Use dry contacts only. DO NOT supply Field Power to this circuit. For Factory Supplied Thermal Dispersion Flow Switch wiring, see wiring instruction in Kit.
Note: Separate grounding is required if fed from different transformers. Otherwise a single ground is acceptable.
eleCTrICal daTa
www.DaikinApplied.com 51 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Figure 51: Typical Field Wiring Diagram for Partial Heat Recovery (Single-Point Connection)
NOCOM
BELL
4-20MA FOR DEMAND LIMIT (BY OTHERS)
4-20MA FOR EVAP. - LWT RESET (BY
OTHERS)
DOUBLE SET POINT/MODE SWITCH
(BY OTHERS)
TIMECLOCK
OFF
MANUAL
ON
AUTO
585
IF REMOTE STOP CONTROL IS USED REMOVE LEAD 585
FROM TERM TB2-52 TO TB2-72
ABR
TIME CLOCKOFF
MANUAL
ON
AUTO
71TB2
70TB269
TB2
68TB2
TB1 22
TB11A
TOCOMPRESSOR(S)
AND FAN MOTORS
ALARM BELLRELAY
120VAC
FU5
T1
FU6CONTROL CIRCUIT
FUSESEE NOTE 2
FU4
REMOTE STOP SWITCH (BY
OTHERS)
TB2
TB2
43
83
UNIT ALARM
120 VACTB1
TB1
TB2
TB2
TB2
TB2
54
52
34
74
72
32A
ALARM BELL OPTION
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER(BY OTHERS)
1 2
TB2
TB2
45
67
EXTERNALALARM/EVENT
DISCONNECT (BY OTHERS)
N
120 VAC
OPTIONALFIELD SUPPLIED
CONTROL POWERFU
15A for 1.5 KVA 30A for 3.0KVA (BY OTHERS)
301A
301 299
ABR
555A
IF EXTERNAL ALARM/EVENT
IS USEDREMOVE LEAD 555A
FROM TERMTB2-45 TO TB2-67
N
24 VAC
FIELD WIRING DIAGRAM WITH MICROTECH CONTROLLER
ALARM BELL RELAY 120VAC @ 1.0AMP MAX
EARTHGROUND
**
**
**
24VAC @ 0.4AMP MAX.
**
**
**
CLACLB
TO/FROM BAS (CUSTOMER
CONNECTION)
CONNECT TO GROUND AT ONE END ONLY.
CE +CE -
CE +CE -
TO/FROM BAS UNIT
CONTROLLERREMOTEDISPLAY
1.) ALL FIELD WIRING TO BE INSTALLED AS NEC CLASS 1 WIRING SYSTEM WITH CONDUCTOR RATED 600 VOLTS.2.) IF FIELD SUPPLIED, CONTROL POWER USER MUST REMOVE FU6, AND WIRE NUMBERS 299, 301A INSIDE CONTROL PANEL3.) ** = USE 'DRY CONTACTS' ONLY. DO NOT SUPPLY FIELD POWER TO THIS CIRCUIT4.) DO NOT SUPPLY FIELD POWER TO 24VAC OR 120VAC CONTROL CIRCUITS.
Notes:
**Heat Recovery Request Switch
120V
HEAT RECOVERY PUMP RELAY
120VAC @ 1.0 AMP MAX
**Flo HR
Heat Recovery Pump Relay
Heat Recovery Flow Switch
N
TB7
3
TB7
5
TB7
1
TB2
100B
0-10 VDC Pump VFD or 3-Way Valve
4-20mA Pump VFD or 3-Way Valve
TB7
TB7
3
5
TB7
M
TB7
M
_
+
_
+
GND(317)
T3
T2
T1
L3
L2
L1
PANEL
LON
GND(317)
(755) /
(752) /
/(745)
(737) /
(729) /
/(225)
(235) /(730)
/(546)
N
120 VACTB1
TB1
CHWR1PUMP NO.1 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
35
33
CHWR2PUMP NO.2 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
N
120 VACTB1
TB1
P2+
31
(726) /
(814) /
USE DRY CONTACTS ONLY
SEE NOTE 3
USE DRY CONTACTS ONLY
SEE NOTE 3
USE DRY CONTACTS ONLY
SEE NOTE 3
USE DRY CONTACTS ONLY
SEE NOTE 3
USE DRY CONTACTS ONLY
SEE NOTE 3
USE DRY CONTACTS ONLY
SEE NOTE 3
TB7
22
TB1
8
HEAT RECOVERY JUNCTION BOX
120-
TBHR120+TBHR
_
+FIELD POWER SUPPLY TO HEAT RECOVERY FREEZE PROTECTION
HEATERS (BY OTHERS)
120V
N
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 52 www.DaikinApplied.com
eleCTrICal daTa
Figure 52: Typical Field Wiring Diagram for Partial Heat Recovery (Multi-Point Connection)
NOCOM
BELL
4-20MA FORDEMAND LIMIT(BY OTHERS)
4-20MA FOREVAP. - LWT RESET
(BY OTHERS)
DOUBLE SET POINT/MODESWITCH
(BY OTHERS)
TIMECLOCK
OFF
MANUAL
ON
AUTO
585
IF REMOTE STOPCONTROL IS USEDREMOVE LEAD 585
FROM TERM TB2-52 TO TB2-72
TIME CLOCKOFF
MANUAL
ON
AUTO
71TB2
70TB2
69TB2
68TB2
TB1 22
TB1
TO CIRCUIT 1COMPRESSOR(S)
AND FAN MOTORS
ALARM BELLRELAY
120VAC
FU5
T1
FU6CONTROL CIRCUIT
FUSESEE NOTE 2
FU4
REMOTESTOP SWITCH(BY OTHERS)
TB2
TB2
43
83
ALARM BELLOPTION
TB2
TB2
TB2
TB2
54
52
74
72
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER 1(BY OTHERS)
1 2
TB2
TB2
45
67
EXTERNALALARM/EVENT
DISCONNECT(BY OTHERS)
N
120 VAC
OPTIONALFIELD SUPPLIED
CONTROL POWERFU
TO CIRCUIT 2COMPRESSOR(S)
AND FAN MOTORS
3 PHASEPOWER SOURCE
DISCONNECT SWITCHOR
POWER BLOCK
CIRCUIT BREAKER 2(BY OTHERS) 15A for 1.5 KVA
30A for 3.0KVA(BY OTHERS)
1A
301A
301 299
ABR
555A
IF EXTERNALALARM/EVENT
IS USEDREMOVE LEAD 555A
FROM TERMTB2-45 TO TB2-67
N
24 VAC
120 VACTB1
TB1
34
32A
ALARMBELL OPTION
ALARM BELL RELAY120VAC @ 1.0AMP MAX
FIELD WIRING DIAGRAM WITH MICROTECH CONTROLLER
EARTHGROUND
ABR
**
**
**
**
**
24VAC @ 0.4AMP MAX.
**
1.) ALL FIELD WIRING TO BE INSTALLED AS NEC CLASS 1 WIRING SYSTEM WITH CONDUCTOR RATED 600 VOLTS.2.) IF FIELD SUPPLIED, CONTROL POWER USER MUST REMOVE FU6, AND WIRE NUMBERS 299, 301A INSIDE CONTROL PANEL3.) ** = USE 'DRY CONTACTS' ONLY. DO NOT SUPPLY FIELD POWER TO THIS CIRCUIT4.) DO NOT SUPPLY FIELD POWER TO 24VAC OR 120VAC CONTROL CIRCUITS.
Notes:
**Heat RecoveryRequest Switch
HEAT RECOVERYPUMP RELAY
120VAC @ 1.0 AMP MAX
**Flo HR
Heat RecoveryPump Relay
Heat RecoveryFlow Switch
0-10 VDC Pump VFDor 3-Way Valve
4-20mA Pump VFDor 3-Way Valve
TB7
TB7
3
5
TB7
M
TB7
M
N
120 VACTB1
TB1
CHWR1PUMP NO.1 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
35
33
CHWR2PUMP NO.2 RELAY
(BY OTHERS)120VAC @ 1.0AMP MAX
N
120 VACTB1
TB1
P2+
31
TB73
TB75
TB78
TB122
TB71
TB2100B
120V
N
USE DRYCONTACTS ONLY
SEE NOTE 3
USE DRYCONTACTS ONLY
SEE NOTE 3
USE DRYCONTACTS ONLY
SEE NOTE 3
USE DRYCONTACTS ONLY
SEE NOTE 3
USE DRYCONTACTS ONLY
SEE NOTE 3
USE DRYCONTACTS ONLY
SEE NOTE 3
FIELD POWER SUPPLYTO HEAT RECOVERYFREEZE PROTECTION
HEATERS (BY OTHERS) 120-
TBHR
120+
TBHR
120V
N
_
+
_
+
T3
T2
T1
L3
L2
L1
T3
T2
T1
L3
L2
L1
GND(317)
PANEL
HEAT RECOVERY JUNCTION BOX
_
+
/(752)
/(755)
/(737)
/(729)
/(229)
/(745)
/(239)(730)
/(544)
/(726)
/(814)
NOTE: For Factory Supplied Thermal Dispersion Flow Switch wiring, see wiring instruction in Kit.
eleCTrICal daTa
www.DaikinApplied.com 53 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 32: Electrical Data - Single Point (60/50Hz) Table 33: Electrical Data - Single Point (60/50Hz)
Model Size
Voltage / Freq.
Single Point Field Data
Ratings Lug Range
MCA RFS MFS Power Block Disconnect Switch
030E
208V/60 149 175 175 (1) 2-600MCM (1) 6-350MCM
230V/60 149 175 175 (1) 2-600MCM (1) 6-350MCM
380V/60 87 100 100 (1) 2-600MCM (1) 12-1/0
460V/60 74 80 80 (1) 14-2/0 (1) 12-1/0
575V/60 64 70 70 (1) 14-2/0 (1) 12-1/0
400V/50 77 90 90 (1) 14-2/0 (1) 12-1/0
035E
208V/60 163 175 175 (1) 2-600MCM (1) 6-350MCM
230V/60 163 175 175 (1) 2-600MCM (1) 6-350MCM
380V/60 96 110 110 (1) 2-600MCM (1) 4-300MCM
460V/60 77 90 90 (1) 14-2/0 (1) 12-1/0
575V/60 64 70 70 (1) 14-2/0 (1) 12-1/0
400V/50 80 90 90 (1) 14-2/0 (1) 12-1/0
040E
208V/60 168 200 200 (1) 2-600MCM (1) 6-350MCM
230V/60 168 200 200 (1) 2-600MCM (1) 6-350MCM
380V/60 107 125 125 (1) 2-600MCM (1) 4-300MCM
460V/60 80 90 90 (1) 14-2/0 (1) 12-1/0
575V/60 67 80 80 (1) 14-2/0 (1) 12-1/0
400V/50 83 100 100 (1) 14-2/0 (1) 12-1/0
045E
208V/60 228 250 250 (1) 2-600MCM (1) 6-350MCM
230V/60 228 250 250 (1) 2-600MCM (1) 6-350MCM
380V/60 117 125 125 (1) 2-600MCM (1) 4-300MCM
460V/60 90 100 100 (1) 2-600MCM (1) 12-1/0
575V/60 75 90 90 (1) 14-2/0 (1) 12-1/0
400V/50 94 110 110 (1) 2-600MCM (1) 4-300MCM
050E
208V/60 241 250 250 (1) 2-600MCM (2) 3/0-500MCM
230V/60 241 250 250 (1) 2-600MCM (2) 3/0-500MCM
380V/60 131 150 150 (1) 2-600MCM (1) 4-300MCM
460V/60 109 125 125 (1) 2-600MCM (1) 4-300MCM
575V/60 97 110 110 (1) 2-600MCM (1) 4-300MCM
400V/50 107 125 125 (1) 2-600MCM (1) 4-300MCM
055E
208V/60 251 300 300 (1) 2-600MCM (2) 3/0-500MCM
230V/60 251 300 300 (1) 2-600MCM (2) 3/0-500MCM
380V/60 147 175 175 (1) 2-600MCM (1) 6-350MCM
460V/60 118 125 125 (1) 2-600MCM (1) 4-300MCM
575V/60 105 125 125 (1) 2-600MCM (1) 4-300MCM
400V/50 119 125 125 (1) 2-600MCM (1) 4-300MCM
060E
208V/60 260 300 300 (1) 2-600MCM (2) 3/0-500MCM
230V/60 260 300 300 (1) 2-600MCM (2) 3/0-500MCM
380V/60 161 175 175 (1) 2-600MCM (1) 6-350MCM
460V/60 126 150 150 (1) 2-600MCM (1) 4-300MCM
575V/60 113 125 125 (1) 2-600MCM (1) 4-300MCM
400V/50 129 150 150 (1) 2-600MCM (1) 4-300MCM
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
Model Size
Voltage / Freq.
Single Point Field Data
Ratings Lug Range
MCA RFS MFS Power Block Disconnect Switch
065E
208V/60 268 300 300 (1) 2-600MCM (2) 3/0-500MCM
230V/60 268 300 300 (1) 2-600MCM (2) 3/0-500MCM
380V/60 161 175 175 (1) 2-600MCM (1) 6-350MCM
460V/60 129 150 150 (1) 2-600MCM (1) 4-300MCM
575V/60 113 125 125 (1) 2-600MCM (1) 4-300MCM
400V/50 129 150 150 (1) 2-600MCM (1) 4-300MCM
070E
208V/60 306 350 350 (1) 2-600MCM (2) 3/0-500MCM
230V/60 306 350 350 (1) 2-600MCM (2) 3/0-500MCM
380V/60 164 200 200 (1) 2-600MCM (1) 6-350MCM
460V/60 138 150 150 (1) 2-600MCM (1) 4-300MCM
575V/60 117 125 125 (1) 2-600MCM (1) 4-300MCM
400V/50 138 150 150 (1) 2-600MCM (1) 4-300MCM
075E
208V/60 338 400 400 (1) 2-600MCM (2) 3/0-500MCM
230V/60 338 400 400 (1) 2-600MCM (2) 3/0-500MCM
380V/60 173 200 200 (1) 14-2/0 (1) 6-350MCM
460V/60 149 175 175 (1) 14-2/0 (1) 6-350MCM
575V/60 125 150 150 (1) 14-2/0 (1) 4-300MCM
400V/50 149 175 175 (1) 14-2/0 (1) 6-350MCM
080E
208V/60 355 400 400 (1) 2-600MCM (2) 3/0-500MCM
230V/60 355 400 400 (1) 2-600MCM (2) 3/0-500MCM
380V/60 187 225 225 (1) 2-600MCM (1) 6-350MCM
460V/60 153 175 175 (1) 14-2/0 (1) 6-350MCM
575V/60 126 150 150 (1) 14-2/0 (1) 4-300MCM
400V/50 153 175 175 (1) 14-2/0 (1) 6-350MCM
090E
208V/60 384 450 450 (1) 2-600MCM (2) 3/0-500MCM
230V/60 384 450 450 (1) 2-600MCM (2) 3/0-500MCM
380V/60 218 250 250 (1) 2-600MCM (1) 6-350MCM
460V/60 168 200 200 (1) 14-2/0 (1) 6-350MCM
575V/60 147 175 175 (1) 14-2/0 (1) 6-350MCM
400V/50 168 200 200 (1) 14-2/0 (1) 6-350MCM
100E
208V/60 442 500 500 (2) 6-500MCM (2) 3/0-500MCM
230V/60 442 500 500 (2) 6-500MCM (2) 3/0-500MCM
380V/60 268 300 300 (1) 2-600MCM (2) 3/0-500MCM
460V/60 203 250 250 (1) 2-600MCM (1) 6-350MCM
575V/60 184 225 225 (1) 2-600MCM (1) 6-350MCM
400V/50 203 250 250 (1) 2-600MCM (1) 6-350MCM
110E
208V/60 490 600 600 (2) 6-500MCM (2) 3/0-500MCM
230V/60 490 600 600 (2) 6-500MCM (2) 3/0-500MCM
380V/60 294 350 350 (1) 2-600MCM (2) 3/0-500MCM
460V/60 227 250 250 (1) 2-600MCM (1) 6-350MCM
575V/60 204 250 250 (1) 2-600MCM (1) 6-350MCM
400V/50 227 250 250 (1) 2-600MCM (1) 6-350MCM
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 54 www.DaikinApplied.com
eleCTrICal daTa
Table 34: Electrical Data - Single Point (60/50Hz) Table 35: Electrical Data - Single Point (60/50Hz)
Model Size
Voltage / Freq.
Single Point Field Data
Ratings Lug Range
MCA RFS MFS Power Block Disconnect Switch
120E
208V/60 534 600 600 (2) 6-500MCM (2) 3/0-500MCM
230V/60 534 600 600 (2) 6-500MCM (2) 3/0-500MCM
380V/60 330 400 400 (1) 2-600MCM (2) 3/0-500MCM
460V/60 261 300 300 (1) 2-600MCM (2) 3/0-500MCM
575V/60 234 250 250 (1) 2-600MCM (2) 3/0-500MCM
400V/50 261 300 300 (1) 2-600MCM (2) 3/0-500MCM
130E
208V/60 569 700 700 (2) 6-500MCM (3) 2/0-400MCM
230V/60 569 700 700 (2) 6-500MCM (3) 2/0-400MCM
380V/60 358 400 450 (1) 2-600MCM (2) 3/0-500MCM
460V/60 284 350 350 (1) 2-600MCM (2) 3/0-500MCM
575V/60 239 250 250 (1) 2-600MCM (2) 3/0-500MCM
400V/50 284 350 350 (1) 2-600MCM (2) 3/0-500MCM
140E
208V/60 612 700 700 (2) 6-500MCM (3) 2/0-400MCM
230V/60 612 700 700 (2) 6-500MCM (3) 2/0-400MCM
380V/60 388 450 450 (1) 2-600MCM (2) 3/0-500MCM
460V/60 309 350 350 (1) 2-600MCM (2) 3/0-500MCM
575V/60 248 300 300 (1) 2-600MCM (2) 3/0-500MCM
400V/50 309 350 350 (1) 2-600MCM (2) 3/0-500MCM
150E
208V/60 640 700 700 (2) 6-500MCM (3) 2/0-400MCM
230V/60 640 700 700 (2) 6-500MCM (3) 2/0-400MCM
380V/60 410 500 500 (1) 2-600MCM (2) 3/0-500MCM
460V/60 328 400 400 (1) 2-600MCM (2) 3/0-500MCM
575V/60 252 300 300 (1) 2-600MCM (2) 3/0-500MCM
400V/50 328 400 400 (1) 2-600MCM (2) 3/0-500MCM
161E
208V/60 668 800 800 (2) 6-500MCM (3) 2/0-400MCM
230V/60 668 800 800 (2) 6-500MCM (3) 2/0-400MCM
380V/60 432 500 500 (1) 2-600MCM (2) 3/0-500MCM
460V/60 346 400 400 (1) 2-600MCM (2) 3/0-500MCM
575V/60 255 300 300 (1) 2-600MCM (2) 3/0-500MCM
400V/50 346 400 400 (1) 2-600MCM (2) 3/0-500MCM
170E
208V/60 734 800 800 (2) 6-500MCM (4) 4/0-500MCM
230V/60 734 800 800 (2) 6-500MCM (4) 4/0-500MCM
380V/60 442 500 500 (2) 6-500MCM (2) 3/0-500MCM
460V/60 355 400 400 (1) 2-600MCM (2) 3/0-500MCM
575V/60 309 350 350 (1) 2-600MCM (2) 3/0-500MCM
400V/50 355 400 400 (1) 2-600MCM (2) 3/0-500MCM
180E
208V/60 875 1000 1000 -- (4) 4/0-500MCM
230V/60 875 1000 1000 -- (4) 4/0-500MCM
380V/60 479 500 500 (2) 6-500MCM (2) 3/0-500MCM
460V/60 394 450 450 (1) 2-600MCM (2) 3/0-500MCM
575V/60 339 350 350 (1) 2-600MCM (2) 3/0-500MCM
400V/50 394 450 450 (1) 2-600MCM (2) 3/0-500MCM
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
Model Size
Voltage / Freq.
Single Point Field Data
Ratings Lug Range
MCA RFS MFS Power Block Disconnect Switch
191E
208V/60 848 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
230V/60 848 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
380V/60 508 600 600 (2) 6-500MCM (2) 3/0-500MCM
460V/60 424 500 500 (2) 6-500MCM (2) 3/0-500MCM
575V/60 348 400 400 (2) 6-500MCM (2) 3/0-500MCM
400V/50 424 500 500 (1) 2-600MCM (2) 3/0-500MCM
211E
208V/60 890 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
230V/60 890 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
380V/60 525 600 600 (2) 6-500MCM (2) 3/0-500MCM
460V/60 443 500 500 (2) 6-500MCM (2) 3/0-500MCM
575V/60 351 400 400 (2) 6-500MCM (2) 3/0-500MCM
400V/50 443 500 500 (1) 2-600MCM (2) 3/0-500MCM
226E
208V/60 943 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
230V/60 943 1000 1000 (4) 2-600MCM (4) 4/0-500MCM
380V/60 551 600 600 (2) 6-500MCM (3) 2/0-400MCM
460V/60 469 500 500 (2) 6-500MCM (2) 3/0-500MCM
575V/60 359 400 400 (2) 6-500MCM (2) 3/0-500MCM
400V/50 469 500 500 (1) 2-600MCM (2) 3/0-500MCM
241E
208V/60 1071 1200 1200 (4) 2-600MCM (4) 4/0-500MCM
230V/60 1071 1200 1200 (4) 2-600MCM (4) 4/0-500MCM
380V/60 602 700 700 (2) 6-500MCM (3) 2/0-400MCM
460V/60 525 600 600 (2) 6-500MCM (2) 3/0-500MCM
575V/60 367 400 400 (2) 6-500MCM (2) 3/0-500MCM
400V/50 525 600 600 (1) 2-600MCM (2) 3/0-500MCM
eleCTrICal daTa
www.DaikinApplied.com 55 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 36: Electrical Data - Multiple Point (60/50 Hz)
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
Model Size
Voltage / Frequency
Multiple Point Field Data - Circuit #1 Multiple Point Field Data - Circuit #2
Ratings Lug Range Ratings Lug Range
MCA RFS MFS Power Block Disconnect
SwitchMCA RFS MFS Power Block
Disconnect Switch
030E
208V/60 78 100 100 (1) 14-2/0 (1) 12-1/0 78 100 100 (1) 14-2/0 (1) 4-300MCM
230V/60 78 100 100 (1) 14-2/0 (1) 12-1/0 78 100 100 (1) 14-2/0 (1) 4-300MCM
380V/60 46 60 60 (1) 14-2/0 (1) 12-1/0 46 60 60 (1) 14-2/0 (1) 12-1/0
460V/60 39 50 50 (1) 14-2/0 (1) 12-1/0 39 50 50 (1) 14-2/0 (1) 12-1/0
575V/60 34 40 45 (1) 14-2/0 (1) 12-1/0 34 40 45 (1) 14-2/0 (1) 12-1/0
400V/50 40 50 50 (1) 14-2/0 (1) 12-1/0 40 50 50 (1) 14-2/0 (1) 12-1/0
035E
208V/60 82 100 110 (1) 14-2/0 (1) 4-300MCM 88 110 110 (1) 14-2/0 (1) 4-300MCM
230V/60 82 100 110 (1) 14-2/0 (1) 4-300MCM 88 110 110 (1) 14-2/0 (1) 4-300MCM
380V/60 44 60 60 (1) 14-2/0 (1) 12-1/0 56 70 70 (1) 14-2/0 (1) 12-1/0
460V/60 39 50 50 (1) 14-2/0 (1) 12-1/0 42 50 50 (1) 14-2/0 (1) 12-1/0
575V/60 32 40 40 (1) 14-2/0 (1) 12-1/0 35 45 45 (1) 14-2/0 (1) 12-1/0
400V/50 40 50 50 (1) 14-2/0 (1) 12-1/0 44 60 60 (1) 14-2/0 (1) 12-1/0
040E
208V/60 88 110 110 (1) 14-2/0 (1) 4-300MCM 88 110 110 (1) 14-2/0 (1) 4-300MCM
230V/60 88 110 110 (1) 14-2/0 (1) 4-300MCM 88 110 110 (1) 14-2/0 (1) 4-300MCM
380V/60 56 70 70 (1) 14-2/0 (1) 12-1/0 56 70 70 (1) 14-2/0 (1) 12-1/0
460V/60 42 50 50 (1) 14-2/0 (1) 12-1/0 42 50 50 (1) 14-2/0 (1) 12-1/0
575V/60 35 45 45 (1) 14-2/0 (1) 12-1/0 35 45 45 (1) 14-2/0 (1) 12-1/0
400V/50 44 60 60 (1) 14-2/0 (1) 12-1/0 44 60 60 (1) 14-2/0 (1) 12-1/0
045E
208V/60 120 150 150 (1) 14-2/0 (1) 4-300MCM 120 150 150 (1) 14-2/0 (1) 6-350MCM
230V/60 120 150 150 (1) 14-2/0 (1) 4-300MCM 120 150 150 (1) 14-2/0 (1) 6-350MCM
380V/60 62 80 80 (1) 14-2/0 (1) 12-1/0 62 80 80 (1) 14-2/0 (1) 12-1/0
460V/60 48 60 60 (1) 14-2/0 (1) 12-1/0 48 60 60 (1) 14-2/0 (1) 12-1/0
575V/60 39 50 50 (1) 14-2/0 (1) 12-1/0 39 50 50 (1) 14-2/0 (1) 12-1/0
400V/50 49 60 60 (1) 14-2/0 (1) 12-1/0 49 60 60 (1) 14-2/0 (1) 12-1/0
050E
208V/60 127 150 175 (1) 14-2/0 (1) 6-350MCM 127 150 175 (1) 14-2/0 (1) 6-350MCM
230V/60 127 150 175 (1) 14-2/0 (1) 6-350MCM 127 150 175 (1) 14-2/0 (1) 6-350MCM
380V/60 69 90 90 (1) 14-2/0 (1) 12-1/0 69 90 90 (1) 14-2/0 (1) 12-1/0
460V/60 58 70 80 (1) 14-2/0 (1) 12-1/0 58 70 80 (1) 14-2/0 (1) 12-1/0
575V/60 51 60 70 (1) 14-2/0 (1) 12-1/0 51 60 70 (1) 14-2/0 (1) 12-1/0
400V/50 56 70 70 (1) 14-2/0 (1) 12-1/0 56 70 70 (1) 14-2/0 (1) 12-1/0
055E
208V/60 127 150 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
230V/60 127 150 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
380V/60 69 90 90 (1) 14-2/0 (1) 12-1/0 85 110 110 (1) 14-2/0 (1) 4-300MCM
460V/60 58 70 80 (1) 14-2/0 (1) 12-1/0 66 80 90 (1) 14-2/0 (1) 12-1/0
575V/60 51 60 70 (1) 14-2/0 (1) 12-1/0 59 70 80 (1) 14-2/0 (1) 12-1/0
400V/50 56 70 70 (1) 14-2/0 (1) 12-1/0 68 80 90 (1) 14-2/0 (1) 12-1/0
060E
208V/60 137 175 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
230V/60 137 175 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
380V/60 85 110 110 (1) 14-2/0 (1) 4-300MCM 85 110 110 (1) 14-2/0 (1) 4-300MCM
460V/60 66 80 90 (1) 14-2/0 (1) 12-1/0 66 80 90 (1) 14-2/0 (1) 12-1/0
575V/60 59 70 80 (1) 14-2/0 (1) 12-1/0 59 70 80 (1) 14-2/0 (1) 12-1/0
400V/50 68 80 90 (1) 14-2/0 (1) 12-1/0 68 80 90 (1) 14-2/0 (1) 12-1/0
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 56 www.DaikinApplied.com
eleCTrICal daTa
Table 37: Electrical Data - Multiple Point (60/50 Hz)
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
Model Size
Voltage / Frequency
Multiple Point Field Data - Circuit #1 Multiple Point Field Data - Circuit #2
Ratings Lug Range Ratings Lug Range
MCA RFS MFS Power Block Disconnect
SwitchMCA RFS MFS Power Block
Disconnect Switch
065E
208V/60 141 175 175 (1) 14-2/0 (1) 6-350MCM 141 175 175 (1) 14-2/0 (1) 6-350MCM
230V/60 141 175 175 (1) 14-2/0 (1) 6-350MCM 141 175 175 (1) 14-2/0 (1) 6-350MCM
380V/60 85 110 110 (1) 14-2/0 (1) 4-300MCM 85 110 110 (1) 14-2/0 (1) 4-300MCM
460V/60 68 80 90 (1) 14-2/0 (1) 12-1/0 68 80 90 (1) 14-2/0 (1) 12-1/0
575V/60 59 70 80 (1) 14-2/0 (1) 12-1/0 59 70 80 (1) 14-2/0 (1) 12-1/0
400V/50 68 80 90 (1) 14-2/0 (1) 12-1/0 68 80 90 (1) 14-2/0 (1) 12-1/0
070E
208V/60 162 200 225 (1) 2-600MCM (1) 6-350MCM 162 200 225 (1) 2-600MCM (1) 6-350MCM
230V/60 162 200 225 (1) 2-600MCM (1) 6-350MCM 162 200 225 (1) 2-600MCM (1) 6-350MCM
380V/60 86 110 110 (1) 14-2/0 (1) 4-300MCM 86 110 110 (1) 14-2/0 (1) 4-300MCM
460V/60 73 90 100 (1) 14-2/0 (1) 12-1/0 73 90 100 (1) 14-2/0 (1) 4-300MCM
575V/60 62 80 80 (1) 14-2/0 (1) 12-1/0 62 80 80 (1) 14-2/0 (1) 12-1/0
400V/50 73 90 100 (1) 14-2/0 (1) 12-1/0 73 90 100 (1) 14-2/0 (1) 4-300MCM
075E
208V/60 186 225 250 (1) 2-600MCM (1) 6-350MCM 170 225 225 (1) 14-2/0 (1) 6-350MCM
230V/60 186 225 250 (1) 2-600MCM (1) 6-350MCM 170 225 225 (1) 14-2/0 (1) 6-350MCM
380V/60 92 110 125 (1) 14-2/0 (1) 4-300MCM 91 110 125 (1) 14-2/0 (1) 4-300MCM
460V/60 80 100 110 (1) 14-2/0 (1) 4-300MCM 76 100 100 (1) 14-2/0 (1) 4-300MCM
575V/60 66 80 90 (1) 14-2/0 (1) 12-1/0 65 80 90 (1) 14-2/0 (1) 12-1/0
400V/50 80 100 110 (1) 14-2/0 (1) 4-300MCM 76 100 100 (1) 14-2/0 (1) 4-300MCM
080E
208V/60 186 225 250 (1) 2-600MCM (1) 6-350MCM 186 225 250 (1) 2-600MCM (2) 3/0-500MCM
230V/60 186 225 250 (1) 2-600MCM (1) 6-350MCM 186 225 250 (1) 2-600MCM (2) 3/0-500MCM
380V/60 98 125 125 (1) 14-2/0 (1) 4-300MCM 98 125 125 (1) 14-2/0 (1) 6-350MCM
460V/60 80 100 110 (1) 14-2/0 (1) 4-300MCM 80 100 110 (1) 14-2/0 (1) 4-300MCM
575V/60 66 80 90 (1) 14-2/0 (1) 12-1/0 66 80 90 (1) 14-2/0 (1) 4-300MCM
400V/50 80 100 110 (1) 14-2/0 (1) 4-300MCM 80 100 110 (1) 14-2/0 (1) 4-300MCM
090E
208V/60 203 250 250 (1) 2-600MCM (1) 6-350MCM 203 250 250 (1) 2-600MCM (2) 3/0-500MCM
230V/60 203 250 250 (1) 2-600MCM (1) 6-350MCM 203 250 250 (1) 2-600MCM (2) 3/0-500MCM
380V/60 115 150 150 (1) 14-2/0 (1) 4-300MCM 115 150 150 (1) 14-2/0 (1) 6-350MCM
460V/60 89 110 125 (1) 14-2/0 (1) 4-300MCM 89 110 125 (1) 14-2/0 (1) 4-300MCM
575V/60 78 100 110 (1) 14-2/0 (1) 4-300MCM 78 100 110 (1) 14-2/0 (1) 4-300MCM
400V/50 89 110 125 (1) 14-2/0 (1) 4-300MCM 89 110 125 (1) 14-2/0 (1) 4-300MCM
100E
208V/60 215 300 300 (1) 2-600MCM (2) 3/0-500MCM 248 300 350 (1) 2-600MCM (2) 3/0-500MCM
230V/60 215 300 300 (1) 2-600MCM (2) 3/0-500MCM 248 300 350 (1) 2-600MCM (2) 3/0-500MCM
380V/60 129 175 175 (1) 14-2/0 (1) 6-350MCM 152 200 200 (1) 14-2/0 (2) 3/0-500MCM
460V/60 96 125 125 (1) 14-2/0 (1) 4-300MCM 117 150 150 (1) 14-2/0 (1) 6-350MCM
575V/60 87 110 110 (1) 14-2/0 (1) 4-300MCM 105 150 150 (1) 14-2/0 (1) 6-350MCM
400V/50 96 125 125 (1) 14-2/0 (1) 4-300MCM 117 150 150 (1) 14-2/0 (1) 6-350MCM
110E
208V/60 259 350 350 (1) 2-600MCM (2) 3/0-500MCM 259 350 350 (1) 2-600MCM (2) 3/0-500MCM
230V/60 259 350 350 (1) 2-600MCM (2) 3/0-500MCM 259 350 350 (1) 2-600MCM (2) 3/0-500MCM
380V/60 156 200 225 (1) 14-2/0 (1) 6-350MCM 156 200 225 (1) 14-2/0 (2) 3/0-500MCM
460V/60 120 150 175 (1) 14-2/0 (1) 6-350MCM 120 150 175 (1) 14-2/0 (1) 6-350MCM
575V/60 108 150 150 (1) 14-2/0 (1) 4-300MCM 108 150 150 (1) 14-2/0 (1) 6-350MCM
400V/50 120 150 175 (1) 14-2/0 (1) 6-350MCM 120 150 175 (1) 14-2/0 (1) 6-350MCM
eleCTrICal daTa
www.DaikinApplied.com 57 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Table 38: Electrical Data - Multiple Point (60/50Hz)
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
Model Size
Voltage / Frequency
Multiple Point Field Data - Circuit #1 Multiple Point Field Data - Circuit #2
Ratings Lug Range Ratings Lug Range
MCA RFS MFS Power Block Disconnect
SwitchMCA RFS MFS Power Block
Disconnect Switch
120E
208V/60 281 350 350 (1) 2-600MCM (2) 3/0-500MCM 281 350 350 (1) 2-600MCM (2) 3/0-500MCM
230V/60 281 350 350 (1) 2-600MCM (2) 3/0-500MCM 281 350 350 (1) 2-600MCM (2) 3/0-500MCM
380V/60 174 225 225 (1) 14-2/0 (1) 6-350MCM 174 225 225 (1) 14-2/0 (2) 3/0-500MCM
460V/60 137 175 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
575V/60 123 150 150 (1) 14-2/0 (1) 4-300MCM 123 150 150 (1) 14-2/0 (1) 6-350MCM
400V/50 137 175 175 (1) 14-2/0 (1) 6-350MCM 137 175 175 (1) 14-2/0 (1) 6-350MCM
130E
208V/60 281 350 350 (1) 2-600MCM (2) 3/0-500MCM 316 400 450 (1) 2-600MCM (2) 3/0-500MCM
230V/60 281 350 350 (1) 2-600MCM (2) 3/0-500MCM 316 400 450 (1) 2-600MCM (2) 3/0-500MCM
380V/60 174 225 225 (1) 14-2/0 (1) 6-350MCM 201 250 250 (1) 2-600MCM (2) 3/0-500MCM
460V/60 137 175 175 (1) 14-2/0 (1) 6-350MCM 160 200 225 (1) 14-2/0 (2) 3/0-500MCM
575V/60 123 150 150 (1) 14-2/0 (1) 4-300MCM 128 175 175 (1) 14-2/0 (1) 6-350MCM
400V/50 137 175 175 (1) 14-2/0 (1) 6-350MCM 160 200 225 (1) 14-2/0 (2) 3/0-500MCM
140E
208V/60 324 400 450 (1) 2-600MCM (2) 3/0-500MCM 324 400 450 (1) 2-600MCM (2) 3/0-500MCM
230V/60 324 400 450 (1) 2-600MCM (2) 3/0-500MCM 324 400 450 (1) 2-600MCM (2) 3/0-500MCM
380V/60 206 250 250 (1) 2-600MCM (1) 6-350MCM 206 250 250 (1) 2-600MCM (2) 3/0-500MCM
460V/60 164 200 225 (1) 14-2/0 (1) 6-350MCM 164 200 225 (1) 14-2/0 (2) 3/0-500MCM
575V/60 131 175 175 (1) 14-2/0 (1) 6-350MCM 131 175 175 (1) 14-2/0 (1) 6-350MCM
400V/50 164 200 225 (1) 14-2/0 (1) 6-350MCM 164 200 225 (1) 14-2/0 (2) 3/0-500MCM
150E
208V/60 324 400 450 (1) 2-600MCM (2) 3/0-500MCM 351 450 450 (1) 2-600MCM (2) 3/0-500MCM
230V/60 324 400 450 (1) 2-600MCM (2) 3/0-500MCM 351 450 450 (1) 2-600MCM (2) 3/0-500MCM
380V/60 206 250 250 (1) 2-600MCM (1) 6-350MCM 228 300 300 (1) 2-600MCM (2) 3/0-500MCM
460V/60 164 200 225 (1) 14-2/0 (1) 6-350MCM 182 225 250 (1) 2-600MCM (2) 3/0-500MCM
575V/60 131 175 175 (1) 14-2/0 (1) 6-350MCM 134 175 175 (1) 14-2/0 (1) 6-350MCM
400V/50 164 200 225 (1) 14-2/0 (1) 6-350MCM 182 225 250 (1) 2-600MCM (2) 3/0-500MCM
161E
208V/60 358 450 450 (1) 2-600MCM (2) 3/0-500MCM 358 450 450 (1) 2-600MCM (2) 3/0-500MCM
230V/60 358 450 450 (1) 2-600MCM (2) 3/0-500MCM 358 450 450 (1) 2-600MCM (2) 3/0-500MCM
380V/60 212 250 250 (1) 2-600MCM (1) 6-350MCM 212 250 250 (1) 2-600MCM (2) 3/0-500MCM
460V/60 165 200 200 (1) 14-2/0 (1) 6-350MCM 165 200 200 (1) 14-2/0 (2) 3/0-500MCM
575V/60 146 175 175 (1) 14-2/0 (1) 6-350MCM 146 175 175 (1) 14-2/0 (1) 6-350MCM
400V/50 165 200 200 (1) 14-2/0 (1) 6-350MCM 165 200 200 (1) 14-2/0 (2) 3/0-500MCM
170E
208V/60 358 450 450 (1) 2-600MCM (2) 3/0-500MCM 405 500 500 (1) 2-600MCM (2) 3/0-500MCM
230V/60 358 450 450 (1) 2-600MCM (2) 3/0-500MCM 405 500 500 (1) 2-600MCM (2) 3/0-500MCM
380V/60 212 250 250 (1) 2-600MCM (1) 6-350MCM 248 300 300 (1) 2-600MCM (2) 3/0-500MCM
460V/60 165 200 200 (1) 14-2/0 (1) 6-350MCM 204 250 250 (1) 2-600MCM (2) 3/0-500MCM
575V/60 146 175 175 (1) 14-2/0 (1) 6-350MCM 176 200 225 (1) 2-600MCM (1) 6-350MCM
400V/50 165 200 200 (1) 14-2/0 (1) 6-350MCM 204 250 250 (1) 2-600MCM (2) 3/0-500MCM
180E
208V/60 453 500 500 (2) 6-500MCM (2) 3/0-500MCM 453 500 500 (2) 6-500MCM (2) 3/0-500MCM
230V/60 453 500 500 (2) 6-500MCM (2) 3/0-500MCM 453 500 500 (2) 6-500MCM (2) 3/0-500MCM
380V/60 248 300 300 (1) 2-600MCM (2) 3/0-500MCM 248 300 300 (1) 2-600MCM (2) 3/0-500MCM
460V/60 204 250 250 (1) 2-600MCM (1) 6-350MCM 204 250 250 (1) 2-600MCM (2) 3/0-500MCM
575V/60 176 200 225 (1) 2-600MCM (1) 6-350MCM 176 200 225 (1) 2-600MCM (2) 3/0-500MCM
400V/50 204 250 250 (1) 2-600MCM (1) 6-350MCM 204 250 250 (1) 2-600MCM (2) 3/0-500MCM
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 58 www.DaikinApplied.com
eleCTrICal daTa
Table 39: Electrical Data - Multiple Point (60/50Hz)
Model Size
Voltage / Frequency
Multiple Point Field Data - Circuit #1 Multiple Point Field Data - Circuit #2
Ratings Lug Range Ratings Lug Range
MCA RFS MFS Power Block Disconnect
SwitchMCA RFS MFS Power Block
Disconnect Switch
191E
208V/60 413 500 500 (1) 2-600MCM (2) 3/0-500MCM 464 600 600 (2) 6-500MCM (3) 2/0-400MCM
230V/60 413 500 500 (1) 2-600MCM (2) 3/0-500MCM 464 600 600 (2) 6-500MCM (3) 2/0-400MCM
380V/60 252 300 300 (1) 2-600MCM (2) 3/0-500MCM 274 350 350 (1) 2-600MCM (2) 3/0-500MCM
460V/60 208 250 250 (1) 2-600MCM (1) 6-350MCM 231 300 300 (1) 2-600MCM (2) 3/0-500MCM
575V/60 179 225 225 (1) 2-600MCM (1) 6-350MCM 182 225 225 (1) 2-600MCM (2) 3/0-500MCM
400V/50 208 250 250 (1) 2-600MCM (1) 6-350MCM 231 300 300 (1) 2-600MCM (2) 3/0-500MCM
211E
208V/60 464 600 600 (2) 6-500MCM (2) 3/0-500MCM 464 600 600 (2) 6-500MCM (3) 2/0-400MCM
230V/60 464 600 600 (2) 6-500MCM (2) 3/0-500MCM 464 600 600 (2) 6-500MCM (3) 2/0-400MCM
380V/60 274 350 350 (1) 2-600MCM (2) 3/0-500MCM 274 350 350 (1) 2-600MCM (2) 3/0-500MCM
460V/60 231 300 300 (1) 2-600MCM (2) 3/0-500MCM 231 300 300 (1) 2-600MCM (2) 3/0-500MCM
575V/60 182 225 225 (1) 2-600MCM (2) 3/0-500MCM 182 225 225 (1) 2-600MCM (2) 3/0-500MCM
400V/50 231 300 300 (1) 2-600MCM (1) 6-350MCM 231 300 300 (1) 2-600MCM (2) 3/0-500MCM
226E
208V/60 483 600 600 (2) 6-500MCM (2) 3/0-500MCM 494 600 600 (2) 6-500MCM (3) 2/0-400MCM
230V/60 483 600 600 (2) 6-500MCM (2) 3/0-500MCM 494 600 600 (2) 6-500MCM (3) 2/0-400MCM
380V/60 278 350 350 (1) 2-600MCM (2) 3/0-500MCM 295 350 350 (1) 2-600MCM (2) 3/0-500MCM
460V/60 235 300 300 (1) 2-600MCM (2) 3/0-500MCM 253 300 300 (1) 2-600MCM (2) 3/0-500MCM
575V/60 185 225 225 (1) 2-600MCM (2) 3/0-500MCM 187 225 225 (1) 2-600MCM (2) 3/0-500MCM
400V/50 235 300 300 (1) 2-600MCM (1) 6-350MCM 253 300 300 (1) 2-600MCM (2) 3/0-500MCM
241E
208V/60 555 700 700 (2) 6-500MCM (3) 2/0-400MCM 555 700 700 (2) 6-500MCM (3) 2/0-400MCM
230V/60 555 700 700 (2) 6-500MCM (3) 2/0-400MCM 555 700 700 (2) 6-500MCM (3) 2/0-400MCM
380V/60 312 400 400 (1) 2-600MCM (2) 3/0-500MCM 312 400 400 (1) 2-600MCM (2) 3/0-500MCM
460V/60 272 300 300 (1) 2-600MCM (2) 3/0-500MCM 272 300 300 (1) 2-600MCM (2) 3/0-500MCM
575V/60 190 225 225 (1) 2-600MCM (2) 3/0-500MCM 190 225 225 (1) 2-600MCM (2) 3/0-500MCM
400V/50 272 300 300 (1) 2-600MCM (1) 6-350MCM 272 300 300 (1) 2-600MCM (2) 3/0-500MCM
NOTE: MCA = Minimum Current Ampacity, RFS = Recommended Fuse Size, MFS = Maximum Fuse Size. For RFS, use the given values for intended standard ambient operation. If the operating ambient is intended to be above 105°F, MFS must be used.
opTIons and aCCessorIes
www.DaikinApplied.com 59 CAT 624-14 • TRAILBLAZER MODEL AGZ CHILLERS
opTIons and aCCessorIesControls Options & Accessories RapidRestore® and Fast LoadingAllows the unit to restart and to reach full load more quickly than standard in case of a power interruption. After a power loss duration of up to 180 seconds, once power is restored, the time for a Trailblazer® chiller to restart is less than 125 seconds with the chiller reaching full load within 220 seconds from power restoration.
Fast Loading Stand-By ChillerGives the system greater response time by starting a stand-by chiller and reaching full load capacity in 115 seconds (assumes conditions require full load capacity).
Hot Gas Bypass (Factory Installed) Hot gas bypass permits unit operation down to 10% of full load capacity. This option includes a factory-mounted hot gas bypass valve, solenoid valve, and manual shutoff valve (models 075-241 only) for each circuit.
High Efficiency Variable Speed Condenser Fans
High efficiency adds variable speed drives to the condenser fans on the chiller. The MicroTech® III controller adjusts the speed of the condenser fans using the VFDs to optimize chiller efficiency and maintain proper head pressure. This feature improves part load efficiency substantially and offers the ability to operate in low ambient conditions down to -10F. (Available on 75-241 ton models)
Low Ambient Control (Factory Installed)Optional fan VFD control allows unit operation down to -10°F (-23°C). Not available on 380 volt (60 Hz) units.
High Ambient Control PanelIncludes an exhaust fan with rain hood, two inlet screens with filters, necessary controls and wiring. Required for operation from 105°F to 125°F (40°C to 52°C) ambient temperature. This panel is included on units with Low Ambient Control, regardless of ambient temperature, to dissipate additional VFD heat.
Water Flow Switch (Field Installed) A thermal dispersion water flow switch is available for field installation in the chilled water piping to avoid evaporator freeze-up under low or no flow conditions. Terminals are provided in the unit control center for field hook-up of the water flow switch. If this option is not ordered with the unit, then a field supplied water flow switch must be installed.
Water Flow Switch (Factory Installed)A factory-mounted and wired thermal dispersion flow switch to avoid evaporator freeze-up under low or no flow conditions.
Alarm Bell (Field Installed)Field installed and wired to the control panel to provide remote indication of unit alarm condition.
Remote Operator Interface Panel (Field Installed)A remote interface panel, field wired to the unit, providing all the data viewable on the unit’s controller, including alarm clearing and setpoint change capability. See “Optional Remote Interface Panel” on page 5 for details.
BAS Interface - Open Choices™ (Field Installed)The preferred module is shipped loose for field installation on the Microtech® III controller to provide the interface to the following standard protocols:
• BACnet®/IP• Modbus®
• BACnet® Ethernet• LonMark®
Intelligent Equipment®
Intelligent Equipment (IE) from Daikin Applied is a secure, cloud-based controls solution that enables delivery equipment and/or system information to customers via web or mobile devices. A power measurement module and communications gateway installed on Daikin equipment enables the unit to be directly connected to the Internet via wireless (cellular, Wi-Fi) or local area network (LAN), providing management, monitoring control analysis and decision-making functionality for Daikin chiller systems and the facility.
Electrical Options and AccessoriesSingle-Point Electrical Connection Provides a single power connection to the unit power block with compressor circuit breakers or to a disconnect switch with compressor circuit breakers. Either option also available without circuit breakers.
Multi-Point with Disconnect Switch Provides a disconnect switch mounted inside the power section of the control box with a through-the-door handle for each circuit and no compressor circuit breakers Requires field-installed circuit protection.
Phase Loss/Voltage ProtectionPhase loss with under/over voltage protection and multiple LED indication of fault type is available as a factory installed option to guard against compressor motor burnout.
Convenience Outlet 10.0 amp, 115 volt Ground Fault Circuit Interruption (GFCI) outlet in control panel for servicing unit.
Ground Fault Protection Protects equipment from damage from line-to-ground fault currents less than those required for conductor protection.
CAT 624-14 • TRAILBLAZER MODEL AGZ CHILLERS 60 www.DaikinApplied.com
opTIons and aCCessorIes
High Short Circuit Current Rating (HSCCR) Provides control panel with high short circuit current rating with a single-point disconnect breaker switch.
Table 40: Standard and HSCCR Panel Ratings
Panel Type 208V / 230V 380V / 400V / 460V 575VStandard 5kA 5kA 5kAHSCCR 65kA 65kA 25kA
Electronic Expansion ValveAn electronic expansion valve is optional on models 030-070, which have thermal expansion valves as standard.
Unit Options and Accessories Remote Evaporators Trailblazer® models have an evaporator shipped separately for field installation and piping to the outdoor unit. Available for models AGZ030-70E that have condensing units built with tube and fin coils and AGZ075-241E with microchannel coils. Information on models with remote evaporators can be found in the current product Installation and Operation Manual, available at www.DaikinApplied.com.
Pump PackagesThe on-board, integrated chilled water pump package is available with single or dual pump configurations. See page 5 for general information, and refer to the current product Installation and Operation Manual, available on www.DaikinApplied.com, for detailed information.
Partial Heat RecoveryPartial heat recovery (available on 75-241 ton models) adds optional factory-installed heat exchangers and control logic to provide hot water for many uses such as dehumidification and pre-heating water for a boiler. See page 14 for general information, and refer to the current product Installation and Operation Manual, available on www.DaikinApplied.com, for detailed information.
IBC/OSHPD Seismic CertificationDaikin models AGZ030-070E have been tested and certified by an independent agency — experts in seismic analysis and design — to meet IBC seismic and OSHPD pre-approval with SDS (design spectral response acceleration at short period) equal to at least 2.0g when the seismic factory option or field accessory is selected, and the chiller is installed with either the optional seismic rated springs, or the optional neoprene pads. Find more information about seismic requirements and HVAC systems at www.DaikinApplied.com. Seismic option not available with select options. Contact your local sales representative for more details.
Vibration Isolators (Field Installed)Spring or neoprene-in-shear vibration isolators are available for field installation to reduce vibration transmission through the unit base. Seismic rated spring isolators are available for units
requiring seimic certification.
Wind Load RatedAGZ-E models have been tested and proven to withstand up to 186 mph winds when ordered with this option. Contact the local Daikin Applied sales representative with your specific installation requirements.
Protective Base Guards Optional factory-installed, vinyl-coated, welded-wire base guards provide around lower section protection on ground level installations.
Figure 53: Unit with Base Guards
Louvers (Base and/or Coil)Available for the upper portion or both the upper and lower portions of unit (upper not required on Models 030 and 035). Selecting both will completely enclose the unit with louvers. The louvers protect the coils from hail damage.
Figure 54: Unit with Louvered Panels
opTIons and aCCessorIes
www.DaikinApplied.com 61 CAT 624-14 • TRAILBLAZER MODEL AGZ CHILLERS
Copper Tube/Aluminum Fin Condenser CoilsAluminum fin condenser coils are an option on 30-70 models.
Copper Tube/Copper Fin Condenser CoilsCopper fin condenser coils are an option on 30-70 models only.
Copper Tube/BlackFin™ CoilsAluminum fin stock pre-coated with a phenolic coating with 1000-hour salt spray resistance (ASTM B117-90) available on 30-70 models only.
Coated FinsCopper or aluminum fins coated with ElectroFin® baked epoxy protective coating with 6000-hour salt spray resistance (ASTM B117-90).
Evaporator InsulationDouble insulation thickness (total of 1½ inch) for high humidity areas or low fluid temperatures.
Sound Reduction Acoustical blankets are factory-installed on each compressor. They are also available for retrofit field installation.
Shut-off Valves Suction valves (one per circuit), liquid line shutoff valves, and discharge shutoff valves can be factory mounted.Chicago Code Relief Valves Unit will be provided with factory-mounted relief valves to meet Chicago code requirements.
Evaporator Inlet StrainerEvaporator water strainer kit consisting of Y-type strainer, blowdown valve, pipe extension with two Schrader fittings and two grooved couplings; field installed. Details on page 12.
Replaceable Core Filter-DrierFactory installed filter drier with a replaceable core allows for fast replacement of filter element and easier serviceability.
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 62 www.DaikinApplied.com
TRAILBLAZER™ AIR-COOLED SCROLL COMPRESSOR CHILLERSPART 1 - GENERAL1.01 SUMMARY
A. Section includes design, performance criteria, refrigerants, controls, and installation requirements for air-cooled scroll compressor chillers.
1.02 REFERENCESA. Comply with applicable Standards/Codes of AHRI
550/590, ANSI/ASHRAE 15, ETL, cETL, NEC, and OSHA as adopted by the State.
B. Units shall meet the efficiency standards of the current version of ASHRAE Standard 90.1, and FEMP standard 2012.
1.03 SUBMITTALSA. Submit shop drawings and product data in accordance
with the specifications.
B. Submittals shall include the following:
1. Dimensioned plan and elevation view drawings, required clearances, and location of all field connections.
2. Single-line schematic drawing of the power field hookup requirements, indicating all items that are furnished.
3. Schematic diagram of control system indicating points for field interface/connection.
4. Diagram shall fully delineate field and factory wiring.
5. Installation manuals.
1.04 QUALITY ASSURANCEA. Qualifications: Equipment manufacturer must specialize
in the manufacture of the products specified and have five years experience with the type of equipment and refrigerant offered.
B. Regulatory Requirements: Comply with the codes and standards specified.
C. Chiller manufacturer’s plant must be ISO registered.
1.05 DELIVERY AND HANDLINGA. [Packaged Chillers Only: Chiller shall be delivered to
the job site completely assembled and charged with refrigerant and oil by the manufacturer.] [030-070 models only: The outdoor unit shall be delivered to the job site with condensing section completely assembled and a holding charge of inert gas.
B. Comply with the manufacturer’s instructions for rigging and handling equipment.
1.06 WARRANTYA. The refrigeration equipment manufacturer’s guarantee
shall be for a period of one year from date of equipment start-up but not more than 18 months from shipment. The guarantee shall provide for repair or replacement due to failure by material and workmanship that prove defective within the above period, excluding refrigerant.
1.07 MAINTENANCEA. Maintenance of the chillers shall be the responsibility
of the owner and performed in accordance with the manufacturer’s instructions.
PART 2--PRODUCTS
2.01 ACCEPTABLE MANUFACTURERSA. Daikin Applied
B. (Approved Equal)
2.02 UNIT DESCRIPTIONA. Provide and install as shown on the plans factory
assembled, factory-charged air-cooled packaged chillers in the quantity specified. Each chiller shall consist of hermetic dual or triple scroll compressor sets (total four or six compressors), brazed plate evaporator, air-cooled condenser section, microprocessor-based control system and all components necessary for controlled unit operation.
B. Chiller shall be functionally tested at the factory to ensure trouble free field operation.
2.03 DESIGN REQUIREMENTSA. General:[Packaged Chillers: Provide a complete scroll
compressor packaged chiller as specified herein and as shown on the drawings. The unit shall be in accordance with the standards referenced in section 1.02 and any local codes in effect.] [030-241 remote models: Provide a complete scroll compressor chiller system consisting of an outdoor compressor-condenser section and a remote indoor evaporator as specified herein and as shown on the drawings. The unit shall be in accordance with the standards referenced in section 1.02 and any local codes in effect.]
B. Performance: Refer to the schedule of performance on the drawings. The chiller shall be capable of stable operation to a minimum percentage of full load (without hot gas bypass) of 25%. [17% for 6 compressor units]. Performance shall be in accordance with AHRI Standard 550/590.
C. Flow Range: The chiller shall have the ability to support variable flow range down to 40% of nominal design (based on AHRI conditions).
D. Operating Range: The chiller shall have the ability to control leaving chilled fluid temperature from 15°F to 65°F.
www.DaikinApplied.com 63 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
E. Acoustics: Sound pressure levels for the unit shall not exceed the following specified levels. The manufacturer
shall provide the necessary sound treatment to meet these levels if required. Sound data shall be provided with the quotation. Test shall be in accordance with AHRI Standard 370.
2.04 CHILLER COMPONENTSA. Compressors
1. The compressors shall be sealed hermetic, scroll type with crankcase oil heater and suction strainer. The compressor motor shall be refrigerant gas cooled, high torque, hermetic induction type, two-pole, with inherent thermal protection on all three phases and shall be mounted on RIS vibration isolator pads. The compressors shall be equipped with an internal module providing compressor protection and communication capability.
B. Evaporators
1. The evaporator shall be a compact, high efficiency, dual circuit, brazed plate-to-plate type heat exchanger consisting of parallel stainless steel plates.
2. The evaporator shall be protected with an external, electric resistance heater plate and insulated with 3/4” (19 mm) thick closed-cell polyurethane insulation. This combination shall provide freeze protection down to -20°F (-29°C) ambient air temperature.
3. The water-side working pressure shall be a minimum of 653 psig (4502 kPa). Vent and drain connections shall be provided in the inlet and outlet chilled water piping by the installing contractor. Evaporators shall be designed and constructed according to, and listed by, Underwriters Laboratories (UL).
[OPTIONAL] The evaporator shall have 1.5-inch (19 mm) closed cell polyurethane insulation.
C. Condenser
1. Condenser fans shall be propeller type arranged for vertical air discharge and individually driven by direct-drive fan motors. The fans shall be equipped with a heavy-gauge vinyl-coated fan guard. Fan motors shall be TEAO type with permanently lubricated ball bearings, inherent overload protection, three-phase, direct-drive, 1140 rpm. Each fan section shall be partitioned to avoid cross circulation.
2. Coil Options
a. [Standard Microchannel] Coil shall be microchannel design and shall have a series of flat tubes containing multiple, parallel flow microchannels layered between the refrigerant
manifolds. Tubes shall be 9153 aluminum alloy. Tubes made of 3102 alloy or other alloys of lower corrosion resistance shall not be accepted. Coils shall consist of a two-pass arrangement. Each condenser coil shall be factory leak tested with high-pressure air under water.
• [Standard Micro-Channel Coil] Coils shall withstand 1000+ hour acidified synthetic sea water fog (SWAAT) test (ASTM G85-02) at 120°F (49°C) with 0% fin loss and develop no leaks.
• [ElectroFin® Micro-Channel Option] Condenser coils shall include ElectroFin® baked epoxy coating providing 6000+ hour salt spray resistance (ASTM B117-90) applied to both the coil and the coil frames.
b. [030-070 models only] The condenser coils shall consist of 3/8 inch (10 mm) seamless copper tubes mechanically bonded into plate-type fins. The fins shall have full drawn collars to completely cover the tubes. A subcooling coil shall be an integral part of the main condenser coil.
• [Black-Fin Cu/Al Option] Condenser coils shall include aluminum fins pre-coated with a phenolic epoxy coating with 1000 hour salt spray rating (ASTM B117-90)
• [ElectroFin® Cu/Al Option] Condenser coils shall include ElectroFin® baked epoxy coating providing 6000+ hour salt spray resistance (ASTM B117-90) applied to both the coil and the coil frames
c. [030-070 models only] - The condenser coils shall consist of 3/8 inch (10 mm) seamless copper tubes mechanically bonded into plate-type fins. The fins shall have full drawn collars to completely cover the tubes. A subcooling coil shall be an integral part of the main condenser coil. Condenser coils shall include copper fins.
• [ElectroFin® Cu/Cu Option] Condenser coils shall include ElectroFin® baked epoxy coating providing 6000+ hour salt spray resistance (ASTM B117-90) applied to both the coil and
Sound Pressure (at 30 feet)63 Hz
125 Hz
250 Hz
500 Hz
1000 Hz
2000 Hz
4000 Hz
8000 Hz
Overall dBA
75% Load dBA
50% Load dBA
25% Load dBA
Sound Power63 Hz
125 Hz
250 Hz
500 Hz
1000 Hz
2000 Hz
4000 Hz
8000 Hz
Overall dBA
75% Load dBA
50% Load dBA
25% Load dBA
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 64 www.DaikinApplied.com
engIneerIng guIde speCIfICaTIons
the coil frames.D. Refrigerant Circuit
1. Each of the two refrigerant circuits shall include a refrigerant filter-drier, sight glass with moisture indicator, liquid line solenoid valve (no exceptions), expansion valve, and insulated suction line.
2. [Optional] Each of the two refrigerant circuits shall include a replaceable-core refrigerant filter-drier, sight glass with moisture indicator, liquid line solenoid valve (no exceptions), expansion valve, and insulated suction line.
E. Construction
1. Unit casing and all structural members and rails shall be fabricated of pre-painted or galvanized steel. Painted parts shall be able to meet ASTM B117, 1000-hour salt spray test.
2. Options
a. Painted steel wraps enclosing the coil end sections and piping
b. Protective, 12 GA, PVC-coated, wire coil guards for the vertical upper coil section of the unit
c. Protective, 12 GA, PVC-coated, wire base guards for the lower section of the unit
d. Protective and decorative louvers for upper section of the unit, covering the coils and unit end
e. Protective and decorative louvers for lower section of the unit
F. Control System
1. A centrally located weatherproof control panel shall contain the field power connection points, control interlock terminals, and control system. Box shall be designed in accordance with NEMA 3R rating. Power and starting components shall include factory circuit breaker for fan motors and control circuit, individual contactors for each fan motor, solid-state compressor three-phase motor overload protection, inherent fan motor overload protection and two power blocks (one per circuit) for connection to remote, contractor supplied disconnect switches. Hinged access doors shall be lockable. Barrier panels or separate enclosures are required to protect against accidental contact with line voltage when accessing the control system.
2. Options
a. [Shall include standard multi-point power blocks. ]
b. [Shall include single-point power connection to power block with compressor circuit breakers (Customer-supplied disconnect required).]
c. [Shall include single-point connection to a non-fused disconnect switch with through-the-door handle and compressor circuit breakers. ]
d. [Shall include multi-point disconnect switches (one
per circuit).]e. [Shall include high short circuit current rating
of 65,000 amps (25,000 amps at 575 Volt) with single-point disconnect switch.][Shall include multi-point disconnect switches (one per circuit).]
G. An advanced DDC microprocessor unit controller with a 5-line by 22-character liquid crystal display provides the operating and protection functions. The controller shall take preemptive limiting action in case of high discharge pressure or low evaporator pressure. The controller shall contain the following features as a minimum:
1. Equipment Protection
a. The unit shall be protected in two ways: (1) by alarms that shut the unit down and require manual reset to restore unit operation and (2) by limit alarms that reduce unit operation in response to some out-of-limit condition. Shut down alarms shall activate an alarm signal.
b. Shutdown Alarms
• No evaporator water flow • Sensor failures• Low evaporator pressure• Evaporator freeze protection• High condenser pressure• Outside ambient temperature (auto-restart) • Motor protection system• Phase voltage protection (Optional)
c. Limit Alarms
• Condenser pressure stage down, unloads unit at high discharge pressures
• Low ambient lockout, shuts off unit at low ambient temperatures
• Low evaporator pressure hold, holds stage #1 until pressure rises
• Low evaporator pressure unload, shuts off one compressor
d. Unit Enable Selection• Enables unit operation from either local
keypad, digital input, or BASe. Unit Mode Selection
• Selects standard cooling, ice, glycol, or test operation mode
f. Analog Inputs
• Reset of leaving water temperature, 4-20 mA• Current Limit
g. Digital Inputs
• Unit off switch• Remote start/stop• Flow switch• Ice mode switch, converts operation and
setpoints for ice production
engIneerIng guIde speCIfICaTIons
engIneerIng guIde speCIfICaTIons
www.DaikinApplied.com 65 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
• Motor protectionh. Digital Outputs
• Shutdown alarm; field wired, activates on an alarm condition, off when alarm is cleared
• Evaporator pump; field wired, starts pump when unit is set to start
i. Condenser Fan Control
• The unit controller shall provide control of condenser fans based on compressor discharge pressure.
j. Building Automation System (BAS) Interface
• Factory mounted DDC controller(s) shall support operation on a BACnet®, Modbus® or LonMark® network via one of the data link / physical layers listed below as specified by the successful Building Automation System (BAS) supplier.
– BACnet® MS/TP master (Clause 9) – BACnet® IP, (Annex J) – BACnet® ISO 8802-3, (Ethernet) – LonMark® FTT-10A. The unit controller shall be LonMark® certified.
• The information communicated between the BAS and the factory mounted unit controllers shall include the reading and writing of data to allow unit monitoring, control and alarm notification as specified in the unit sequence of operation and the unit points list.
• For chillers communicating over a LonMark® network, the corresponding LonMark® External Interface File (XIF) shall be provided with the chiller submittal data.
• All communication from the chiller unit controller as specified in the points list shall be via standard BACnet® objects. Proprietary BACnet® objects shall not be allowed. BACnet® communications shall conform to the BACnet® protocol (ANSI/ASHRAE135-2001). A BACnet® Protocol Implementation Conformance Statement (PICS) shall be provided along with the unit submittal.
2.05 OPTIONS AND ACCESSORIESA. The following optional items shall be furnished:
1. RapidRestore® and Fast Loading: The chiller shall be equipped with the capability to restart and to reach full load more quickly than standard in case of a power interruption. The chiller shall be capable of rapidly restarting after power loss duration of up to 180 seconds. The time to restart the chiller shall be a maximum of 125 seconds, and full load shall be achieved in 220 seconds from power restoration.
2. Fast Loading Stand-By Chiller: The chiller shall be equipped with the capability to start and to reach full
load more quickly than standard in the event that the primary chiller system is disabled. The chiller shall be capable of rapidly achieving full capacity. The time to full load shall be achieved in 115 seconds.
3. [075-241 models only] Partial Heat Recovery: An auxilliary braze-plate heat exchanger shall be added in each unit refrigerant circuit between the compressors and the condenser coils. The heat exchangers shall transfer the compressor discharge gas heat to a separate water loop to be used for various heating applications. Water temperature sensors and piping connections shall be factory installed. The amount of heat produced is dependent on the requested cooling load, the operating temperatures, and the water flow rate through the auxilliary heat exchangers. Chiller controller shall supply 0-10V DC or 4-20ma signal for control of a field provided 3-way valve or pump VFD.
4. [030-070 models only] Seismic Certification: Optional IBC seismic and OSHPD pre-approval shall meet a minimum seismic design spectral response acceleration SDS of 2.0g and be so labeled. The chiller must be mounted on optional seismic rated spring isolators or neoprene waffle vibration pads.
5. Wind Load Rated: Tested and rated to withstand wind speeds up to 186 mph. Provide engineer-stamped certificate that equipment has been evaluated and built to meet the required wind velocity.
6. Hot Gas Bypass: allows unit operation to 10 percent of full load. Includes factory-mounted hot gas bypass valve, solenoid valve, and manual shutoff valve for each circuit. Shall be ready for field piping according to manufacturer instructions.
7. Low Ambient Control: Fan VFD allows unit operation down to -10°F (-23°C).
8. High ambient control box for operation in ambient temperatures from 105°F (40°C) to 125°F (52°C).
9. Ground Fault Protection: Factory installed circuit breaker to protect equipment from damage from line-to-ground fault currents less than those required for conductor protection.
10. Phase loss with under/over voltage protection and with LED indication of the fault type to guard against compressor motor burnout.
11. Factory-mounted thermal dispersion flow switch
12. Field-mounted, paddle type, chilled water flow switch field wired to the control panel
13. Evaporator inlet strainer, minimum of 0.063” perforations for brazed plate evaporators with extension pipe and grooved couplings (factory mounted or field installed).
14. Spring vibration isolators (field installed)
15. Rubber-in-shear vibration isolators (field installed)
16. Seismic rated spring isolators (field installed)
CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS 66 www.DaikinApplied.com
engIneerIng guIde speCIfICaTIons
17. Compressor sound reduction package
18. Remote operator interface panel (field-wired)
19. 115V GFI convenience outlet
20. BAS interface module, factory mounted
2.06 OPTIONAL FACTORY-INSTALLED PUMP PACKAGE
A. The pump package shall be factory mounted and wired on the chiller. The chiller controller shall provide a pump start/stop signal when operation is required. On dual pump systems, the chiller shall also provide automatic alternating of pump starts and duty/standby functionality. The package shall be equipped with:
1. Single Pump Model 4380: single spring inside-seal, vertical, in-line, radially split-case pump, serviceable without breaking pipe connections. The motor and pump rotating assembly shall be serviceable without removing the pump casing from the line - OR -
2. Dual Pumps in a Single Casting Model 4392: single-spring inside-seal vertical, in-line, radially split-case pumps, mounted in a common casing with a common inlet connection and outlet connection and including a flapper valve to prevent recirculation when only one pump is operating. An isolation valve shall be included to allow one pump to operate when the other is removed. The pumps shall be designed for duty/standby, not parallel operation.
B. Pump package shall also be equipped with:
1. “Y” type inlet strainer
2. Combination triple-duty outlet valve having a drip-tight discharge shutoff valve, non-slam check valve, and flow throttling valve
3. Combination suction guide with flow stabilizing outlet vanes and stainless steel strainer with a disposable fine-mesh strainer for start-up
4. Factory power and control wiring from the AGZ chiller to the pump package control panel
5. Flow switch mounted and wired6. Interconnecting schedule 40 piping with grooved
couplings
7. Insulation of all cold surfaces
C. Pump Package Options
1. Water pressure gauges on the pump suction and discharge
2. Expansion tank with size increments from 4.4 to 90 gallons, field installed (small sizes can be factory mounted)
3. Air separator with air vent, field installed
4. Storage tanks, vertical, insulated, 150, 300, 600, 1000 gallon sizes with optional immersion heater, field installed.
5. Pump VFD for variable chilled water flow capability.[075-241 models only] Optional Variable Frequency Drive: Flow control through the pump VFD without external pressure sensors. There shall be four selectable operating modes:
a. Sensorless Operation
b. BAS Input: The pump speed and system flow will be controlled from a customer-supplied BAS input signal.
c. Remote Sensor Control: The VFD is wired to a pressure sensor mounted in the chilled water piping system. This is the standard VFD control when a sensorless VFD is not used.
d. Locally Selected Constant Speed Control: Provides manual control of the pump speed, overriding any current automatic speed control.
Control software shall provide automatic speed control in variable volume systems without the need for pump mounted (internal/external) or remotely mounted differential pressure system feedback sensor. Control mode setting and minimum / maximum head and flow set-points shall be set at the factory and be user adjustable via the built-in programming interface.
PART 3 - EXECUTION
3.01 INSTALLATION A. Install in strict accordance with manufacturer’s
requirements, shop drawings, and contract documents.
B. Adjust and level chiller in alignment on supports.
C. Coordinate electrical installation with electrical contractor.
D. Coordinate controls with control contractor.
E. Install a required cleanable, field-supplied strainer in the chilled water return line at the evaporator inlet per the guidelines in the installation manual.
3.02 START-UPA. Provide testing and starting of machine, and instruct the
Owner in its proper operation and maintenance.
engIneerIng guIde speCIfICaTIons
www.DaikinApplied.com 67 CAT 624-15 • TRAILBLAZER MODEL AGZ CHILLERS
Daikin Applied Training and DevelopmentNow that you have made an investment in modern, efficient Daikin Applied equipment, its care should be a high priority. For training information on all Daikin Applied HVAC products, please visit us at www.DaikinApplied.com and click on Training, or call 540-248-9646 and ask for the Training Department.
Warranty
All Daikin Applied equipment is sold pursuant to its standard terms and conditions of sale, including Limited Product Warranty. Consult your local Daikin Applied representative for warranty details. To find your local Daikin Applied representative, go to www.DaikinApplied.com.
Aftermarket Services
To find your local parts office, visit www.DaikinApplied.com or call 800-37PARTS (800-377-2787). To find your local service office, visit www.DaikinApplied.com or call 800-432-1342.
This document contains the most current product information as of this printing. For the most up-to-date product information, please go to www.DaikinApplied.com.
Products manufactured in an ISO Certified Facility.
CAT 624-15 (10/17) ©2017 Daikin Applied | (800) 432–1342 | www.DaikinApplied.com
Daikin Applied Training and DevelopmentNow that you have made an investment in modern, efficient Daikin Applied equipment, its care should be a high priority. For training information on all Daikin Applied HVAC products, please visit us at www.DaikinApplied.com and click on Training, or call 540-248-9646 and ask for the Training Department.
Warranty
All Daikin Applied equipment is sold pursuant to its standard terms and conditions of sale, including Limited Product Warranty. Consult your local Daikin Applied representative for warranty details. To find your local Daikin Applied representative, go to www.DaikinApplied.com.
Aftermarket Services
To find your local parts office, visit www.DaikinApplied.com or call 800-37PARTS (800-377-2787). To find your local service office, visit www.DaikinApplied.com or call 800-432-1342.
This document contains the most current product information as of this printing. For the most up-to-date product information, please go to www.DaikinApplied.com.
Products manufactured in an ISO Certified Facility.