Carrier 30XW325-400 Selection procedure, Performance data, Evaporator and Condenser Flow Rates

Selection procedure

Carrier’s packaged selection program provides quick, easy selection of Carrier’s water-cooled chillers. The pro- gram considers specific temperature, fluid and flow requirements among other factors such as fouling and alti- tude corrections.

Before selecting a chiller, consider the following points: Leaving water (fluid) temperature (LWT)

•The LWT must be at least 40 F (4.4 C) or greater.

•If the LWT requirement is greater than 60 F (15.5 C), a mixing loop is required.

Entering water (fluid) temperature (EWT)

•If the EWT requirement is greater than 70 F (21.1 C), a mixing loop is required. The EWT should not exceed 70 F (21.1 C) for extended operation. Pulldown can be accomplished from 95 F (35 C).

Evaporator flow rate or evaporator delta-T:

•The evaporator delta-T (EWT – LWT) must fall between 5 and 20° F (2.8 and 11.1° C) while still meeting the maximum entering requirements.

•For larger or smaller delta-T applications, a mixing loop is required. If the evaporator flow is variable, the rate of change of flow should not exceed 10% per minute. The loop volume in circulation must equal or exceed 3 gallons per nominal ton (3.2 L per kW) of cooling for temperature stability and accuracy in normal air condi- tioning applications. In process cooling applications, there should be 6 to 10 gallons per ton (6.5 to 10.8 L per kW). To achieve this loop volume, it is often neces- sary to install a tank in the loop. The tank should be baf- fled to ensure there is no stratification, and that water (or brine) entering the tank is adequately mixed with liq- uid in the tank. See Water Loop Volume in the Applica- tion Data section.

Evaporator pressure drop:

•A high evaporator pressure drop can be expected when the evaporator delta-T is low. A mixing loop can help to alleviate this situation.

•The three-pass evaporator option is recommended to increase performance when the evaporator delta T is high. This is particularly helpful with brine applications.

Condenser pressure drop:

•A high condenser pressure drop can be expected when the condenser delta-T is low. A one-pass condenser can help lower pressure drop.

Series chillers:

•One-pass heat exchangers can help lower pressure drop when heat exchangers are placed in series.

Water quality, fouling factor:

•Poor water quality can increase the required evaporator fouling factor.

•Higher than standard fouling factors lead to lower capacity and higher input kW from a given chiller size compared to running the same application with better water quality (and lower fouling factors).

Temperature reset:

•Return water (standard)

•Outside air temperature (standard)

•Space temperature (accessory sensor required)

•4 to 20 mA (requires an energy management module)

Demand limit:

•2-step (requires an energy management module)

•4 to 20 mA (requires an energy management module)

•CCN Loadshed