The combination valve performs the following functions:

drip-tight shut-off valve

spring closure design with a non-slam check valve

flow-throttling valve

When facing the cooler side of unit, the inlet (return) water connection is on the bottom. The outlet (supply) water connec- tion is on the top. The inlet is connected to the suction guide/ strainer of the pump via a Victaulic-type connection. The cool- er supply has water-side Victaulic-type connections (follow connection directions as provided by the coupling manufactur- er). Provide proper support for the piping. If accessory security grilles have been added, holes must be cut in the grilles for field piping and insulation.

There is a factory supplied, insulated 45-degree elbow pipe and a victaulic coupling shipped with units ordered with a hydronic pump package. Before starting field piping, use the victaulic coupling to connect this elbow pipe to the outlet of the combination valve.

The suction guide/strainer is shipped from the factory with a run-in screen. This screen is a temporary device used during the start-up/clean-up process of the chilled water circuit to prevent construction debris from damaging the pump or internal tubes of the cooler. After all debris has been removed or a maximum of 24 running hours the temporary screen must be removed. See the Start-Up, Controls, Operation and Troubleshooting guide for further information.

CAUTION

The suction guide/strainer is shipped from the factory with a run-in screen. This temporary screen must be removed after all debris has been removed or a maximum of 24 run- ning hours. Failure to remove the temporary screen may result in damage to the pump or cooler.

NOTE: It is required that a 20 mesh field-supplied strainer be installed in the inlet piping to the cooler on open loop systems.

A 3/4 in. NPT fitting is installed in the inlet piping of the pump for connection to an expansion tank. Install the tank in accordance with the manufacturer's instructions.

Figures 25 and 26 illustrate typical single and dual pump packages.

Three drain connections are provided and are located at leaving water (supply) end of cooler, pump volute, and the suction guide. See Fig. 2-14 for connection location. Insulate the drain piping (in the same manner as the chilled water pip- ing) for at least 12 in. (305 mm) from the cooler.

UNITS WITHOUT HYDRONIC PUMP PACKAGE — When facing the cooler side of the unit, the inlet (return) water connec- tion is on the bottom. It is required that a field-supplied strainer with a minimum size of 20 mesh be installed within 10 ft (3.05 m) of the cooler inlet to prevent debris from damaging

Distribution Pump

internal tubes of the cooler. The outlet (supply) water connection is on the top. The cooler has water-side victaulic-type connec- tions (follow connection directions as provided by the coupling manufacturer). Provide proper support for the piping. If accesso- ry security grilles have been added, holes must be cut in the grilles for field piping and insulation. See Fig. 28 for a typical piping diagram of a 30XA unit without a hydronic pump pack- age.

A drain connection is located at the leaving water (supply) end of cooler. See Fig. 2-14 for connection location. Insulate the drain piping (in the same manner as the chilled water piping) for at least 12 in. (305 mm) from the unit.

DUAL CHILLER CONTROL — the ComfortLink™ con- troller allows 2 chillers (piped in parallel or series) to operate as a single chilled water plant with standard control functions coordinated through the master chiller controller. This standard ComfortLink feature requires a communication link between the 2 chillers.

There are several advantages to this type of control:

redundancy (multiple circuits)

better low load control, (lower tonnage capability)

lower rigging lift weights (2 machines rather than 1 large machine)

chiller lead-lag operation (evens the wear between the two machines)

Dual Chiller Leaving Water Sensor —If the dual chiller algo- rithm is used, and the machines are installed in parallel, a dual chilled water sensor must be installed for each module. Install the well in the common leaving water header. See Fig. 21. The series dual chiller application is shown in Fig. 22.

Parallel Dual Chiller Operation — Parallel chiller operation is the recommended option for dual chiller control. In this case, each chiller must control its own dedicated pump or isolation valve. Balancing valves are recommended to insure proper flow in each chiller. Two field-supplied and installed dual chill- er leaving water temperature sensors are required, one for each module for this function to operate properly.

Consider adding additional isolation valves to isolate each chiller to allow for service on a machine, and still allow for par- tial capacity from the other chiller. See Fig 21.

Series Dual Chiller Operation — Series chiller operation is an alternate control method supported by the ComfortLink™ control system. Certain applications might require that the two chillers be connected in series. For nominal 10º F (5.6º C) cool- er ranges, use the minus 1 pass cooler arrangements to reduce the fluid-side pressure drop. Use the standard cooler pass arrangement for low flow, high cooler temperature rise applications.

Consider adding additional piping and isolation valves to isolate each chiller to allow for service on a machine, and still allow for partial capacity from the other chiller. See Fig. 22.

a30-4002

Chiller 1

Chiller 2

Decoupler

Expansion

Tank(s)

Air Separator with Vent

Zone 1

Zone 2

Zone 3

NOTE: Expansion tanks for 30XA hydronic kits must be installed for chillers piped in parallel in the primary water loop.

Fig. 27 — Typical Air Separator and Expansion Tank Location on Primary-Secondary Systems

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Carrier 30XA080-500 specifications A30-4002

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.