Part-wind start, Vibration isolation, Hot gas bypass usage (units with txv only) – Carrier 30GB060 User Manual

Time clock shutdown (or other controlled shutdown

not associated with leaving chilled water temperature)

requires use of accessory demand limit control module.

Second step of the demand limit control (0-50% of

capacity) is set for 0 (zero) capacity. This allows unit to

go through a normal pumpout cycle at shutdown.

Part-wind start

Not generally required on 30GB chillers due to use of

multiple compressors allowing smaller electrical load

increments, but is available if required. Maximum

instantaneous current flow (see ICF in Electrical Data)

should be used in determining need.

Application data (cont)

Vibration isolation

Compressors are spring isolated,

isolation is not generally required.

External vibration

Hot gas bypass usage (units with TXV only)

Hot gas bi^pass usage, while frequently specified, is not

normally recommended because it results in equipment

being applied below its normal application range. Before

applying hot gas bypass, it is recommended that use of 2

machines be considered, including one that can be run at

the system minimum load without addition of hot gas

bypass. In those instances where there is no alternative,

it is recommended that the appropriate hot gas bypass

package can be used with the factory option TXV unit.

Medium temperature brine application — Application

of 30GB outdoor chillers for brine duty within the 39.9 F

to 34 F (4.4 C to 1°C) range is possible with proper field

change of control configuration. Application in the

range 34 F to 15 F (1°C to -9.4 C) requires 30GB unit

with factory modification.

Selection procedure

I Determine unit size and operating conditions

required to provide specified capacity at given

conditions:

Capacity required............................................. 60 tons

Leaving chilled water temperature ....................... 45 F

Chilled water temperature rise ............................. 14 F

Condenser entering air temperature (CEAT) .. 95 F

Loop volume ............................................. 230 gallons

Ratings are based on 10 F rise and are suitable for rise

from 5 F to 15 F without adjustment. In this case,

however, greater accuracy is desired.

II Correct LCWT for 14 F cooler water tempera­

ture rise.

Enter correction curve at 14 F and read a correction

of 0.3 F. Corrected LCWT is, therefore, 45 + 0.3 = 45.3 F.

III Determine capacity, unit size and power input.

Enter rating table at given CEAT and LCWT —

respectively 95 F and 45 F.

Read down capacity column until the capacity nearest

to but higher than specified required capacity is

reached. In this case, 60.9 tons is delivered by a

30GB060. Interpolate between 45 F and 46 F to find

determined capacity and power input at corrected

LCWT (45.3 F). Values are:

Capacity......................................................... 61.3 tons

Power input .....................................................71.1 kW

IV Calculate corrected cooler water flow.

Water _ 24 x corr capacity in tons

flow

temperature rise F

24 X 61.3

U.S. gpm

14

105.1 U.S. gpm

V Calculate the cooler pressure drop.

Enter cooler pressure drop curve at the corrected

flow rate (105.1 U.S. gpm) and read, for the 30GB060,

a pressure drop of 9 ft of water.

VI Check loop volume and cooler water flow rate.

Minimum loop volume, from application data, is

180 gallons for 30GB060. Therefore, given volume of

230 gallons is satisfactory. Minimum water flow rate,

from application data, is 67 gpm for 30GB060. Flow rate

of 105.1 gpm is well above minimum required.