Carrier 30XA080-500 specifications A30-4415, PT Hydronic Pump Package

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INSIDE

UNIT

OUTSIDE

UNIT

LEGEND

DDrain,3/4-in. NPT DDrain, 1/4-in. NPT

EExpansion Tank Connection, 3/4-in. NPT FS — Flow Switch

PPPipe Plug, 1/4-in. NPT

PT — Pressure/Temperature Tap T1 — Leaving Water Thermistor T2 — Entering Water Thermistor

VVent, 1/4-in. NPT

*Field-supplied and installed. †Factory-installed option. **Required for open loop systems.

a30-4415

D

V

T1

PP

 

 

 

 

 

Heater

 

 

 

 

 

FS PP

T2

Chilled Water Out

PT HYDRONIC PUMP PACKAGE

D

PT

 

 

D

PT

 

PT

E

PT

 

 

 

D

 

 

Heater

Chilled

Water In

Pressure Relief*

Flexible Connections*

Pressure Reducing

Fill Valve*

Air Separator with Vent*

Strainer/Suction Guide

Reverse Flow Check Valve/Service Valve

Service Valve

Pump

Combination Valve

Isolation Valve*

20 Mesh Stainer**

Fig. 26 — Typical Piping Diagram on 30XA Units with Hydronic Package — Dual Pumps

NOTE: It is recommended for units with the hydronic package that an inlet isolation (shut-off) valve be placed exterior to the unit to allow removal and service of the entire pump assembly, if necessary. The hydronic package is supplied from the factory with a combination valve for isolation of leaving water. Also, if the unit is isolated with valves, a properly sized pressure relief valve is recommended and should be installed in the pip- ing between the unit and the valves, following all applicable local codes.

Air Separation — For proper system operation, it is essential that water loops be installed with proper means to manage air in the system. Free air in the system can cause noise, reduce terminal output, stop flow, or even cause pump failure due to pump cavitation. For closed systems, equipment should be provided to eliminate all air from the system.

The amount of air that water can hold in solution depends on the pressure and temperature of the water/air mixture. Air is less soluble at higher temperatures and at lower pressures. Therefore, separation can best be done at the point of highest water temperature and lowest pressure. Typically, this point would be on the suction side of the pump as the water is return- ing from the system or terminals. This is generally the optimal place to install an air separator, if possible.

1.Install automatic air vents at all high points in the system. (If the 30XA unit is located at the high point of the sys-

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tem, a vent can be installed on the piping leaving the heat exchanger on the 1/4 in. NPT female port.)

2.Install an air separator in the water loop, at the place where the water is at higher temperatures and lower pres- sures — usually in the chilled water return piping. On a primary-secondary system, the highest temperature water is normally in the secondary loop, close to the decoupler. Preference should be given to that point on the system (see Fig. 27). In-line or centrifugal air separators are read- ily available in the field.

It may not be possible to install air separators at the place of the highest temperature and lowest pressure. In such cases, preference should be given to the points of highest temperature. It is important that the pipe be sized correctly so that free air can be moved to the point of separation. Generally, a water velocity of at least 2 feet per second (0.6 m per second) will keep free air entrained and prevent it from forming air pockets.

Automatic vents should be installed at all physically elevated points in the system so that air can be eliminated during system operation. Provisions should also be made for manual venting during the water loop fill.

UNITS WITH HYDRONIC PUMP PACKAGE — The 30XA090-160 units can be equipped with a factory-installed hydronic pump package consisting of a suction guide/strainer, pump, combination valve, internal piping and wiring con- nected at the factory.

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Contents Installation Instructions Place, Mount, and Rig the Unit A30-4401 AquaForce Chiller Model Number Designation30XA080 Air-Cooled Liquid Chiller Dimensions A30-4403 Right END View110 4404090 100A30-4405 30XA090-120 Air-Cooled Liquid Chiller with Pump Dimensions Front View 115.64 140115.88 160A30-4407 Back View30XA140,160 Air-Cooled Liquid Chiller with Pump Dimensions 2300 30XA180,200 Air-Cooled Liquid Chiller Dimensions A30-4174 A30-4409 220 46.17 171.42 240 46.23 170.83614 532 208 132 1500 4260 4798 4799 5221 8363 A30-4177 260280 300A30-4178 614 532 208 132 1900 5011 5747 5760 6184 9555350 325614 532 208 132 1900 6205 6941 6954 7378 10750 A30-4181 A30 4182Left END View Front View A30 450 500A30-4183 A30-418 A30-41 Back View Unit Mounting Weights Units with Mchx Condenser Coils 30XA400-500 30XA080 30XA220-30030XA090-120 30XA325-350 30XA140,160A30-4421 30XA090-120 30XA140,160Dual Pump Units English Unit Mounting Weights Units with Al/Cu Condenser Coils Cooler Side ED CBA K L M N O P Compressor Side FG HIJ 1273 2898 1160 972 2089 1271 662 1273 3106 1248 972 2089 1271 959 Unit Mounting Weights Units with Cu/CU Condenser Coils 30XA090-120 30XA0801394 3139 1280 1093 2330 1392 10,627 A30-4420 A30-4421 Do not use a forklift truck to move the unitsUnit 30XA Physical Data, 30XA080-500 EnglishRefrigerant Charge kg Ckt A/Ckt B/Ckt C Mchx Physical Data, 30XA080-500 SIA30-4427 Unit Rigging Label Detail 30XA080-200A30-4428 Unit Rigging Label Detail 30XA400-500 30XA Typical Piping and Wiring Units with Hydronic Package A30-4413 Cooler Option DimensionsA30-4418 A30-4417A30-4414 A30-4138PT Hydronic Pump Package A30-4415A30-4002 A30-3432 Thermal Flow SensorMinimum Maximum Nominal 30XA Minimum and Maximum Cooler Flow RatesA30-3997 30XA080-12030XA140-500 Detail aA30-4412 A30-4411Rpm Impeller Dia Pump Impeller Sizes090-160 FTV-5 30XA30XA140 30XA090,10030XA110 30XA120A30-4440 A30-4436A30-4437 A30-44393450 RPM Page Make Electrical Connections NON-FUSED Disconnect Unit Voltage Number No Hydronic Package Unit Voltage Number Unit Voltage Number No Hydronic Package 460-60 414 506 10/6 115 575-60 518 633 380-60 342 418 Unit Voltage Number Unit Voltage Number No Hydronic Package 230-60 207 253 592.4 800 869.3 700 607.0 883.9 115 30XA140-500 Electrical Data, Dual Point High Ambient Option 460-60 414 506 10/6 115 575-60 518 633 380-60 342 418 230-60 207 253 383.8/256.9 600/350 660.8/436.2 450/300 115 Power and Control Connections Unit Cond Size Fans Compressor and Fan Electrical DataCCN Communication Bus Wiring Pump Electrical DataA30-4001 A30-4000 A30-3999Refrigerant Charge Page Copyright 2009 Carrier Corporation
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30XA080-500 specifications

The Carrier 30XA080-500 is a sophisticated air-cooled chiller designed for large commercial and industrial applications, renowned for its energy efficiency and reliability. This model is part of Carrier's extensive range of chillers, providing an optimal solution for space cooling needs while supporting sustainability goals.

One of the main features of the 30XA080-500 is its advanced scroll compressor technology. This design not only enhances the chiller's efficiency but also ensures quieter operation. The compressors operate with a high efficiency at partial loads, making the 30XA080-500 ideal for buildings with varying cooling demands. The unit also incorporates multiple compressors, allowing for enhanced reliability through redundancy; if one compressor fails, others can maintain performance.

The 30XA080-500 is equipped with high-performance evaporators and condensers which facilitate superior heat exchange. The unit features a fin-and-tube heat exchanger design, optimized for maximum surface area and minimal air resistance, thus enhancing overall performance. Moreover, the chiller is built with microchannel technology, which significantly reduces the refrigerant charge while improving efficiency through better heat transfer.

In terms of controls, the Carrier 30XA080-500 utilizes advanced VFD (Variable Frequency Drive) technology. This allows the system to adjust motor speed to match building loads, further increasing efficiency and reducing energy consumption. The intuitive control options enable users to monitor performance and make adjustments easily, helping optimize system operations in real time.

Another highlight of the 30XA080-500 is its environmentally conscious refrigerant, R-410A, which is known for its low Global Warming Potential (GWP). This makes the unit compliant with current and future environmental regulations, ensuring that users can operate within legal limits while reducing their carbon footprint.

The durability of the 30XA080-500 is enhanced by a rugged construction designed to withstand various weather conditions, making it suitable for outdoor installation. Insulated panels and protective coatings guard against corrosion, extending the lifespan of components and reducing maintenance costs.

In conclusion, the Carrier 30XA080-500 is a high-efficiency chiller that offers advanced technology, reliable performance, and environmental consciousness, making it an excellent choice for modern commercial buildings seeking to balance cooling needs with sustainability and energy savings. Its combination of innovative features positions it as a leader in the chiller market.
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