Johnson Controls York YCAL0014E Series Скачать руководство пользователя

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JOHNSON CONTROLS

FORM 150.62-NM6 (103)

The subcooling temperature of each system can be
calculated by recording the temperature of the liquid
line at the outlet of the condenser and subtracting it from
the liquid line saturation temperature at the liquid stop
valve (liquid line saturation temp. is converted from a
temperature/pressure chart).

Example:

Liquid line pressure =

102°F

202 PSIG converted to - 87°F

minus liquid line temp.

Subcooling =

15°F

The subcooling should be adjusted to 15°F at design
conditions.



1. Record the liquid line pressure and its corre-

sponding temperature, liquid line temperature
and subcooling below:

SYS 1 SYS 2

Liq Line Press = _______ _______ PSIG

Saturated Temp = _______ _______ °F

Liq Line Temp = _______ _______ °F

Subcooling = _______ _______ °F

After the subcooling is verified, the suction superheat

should be checked. The superheat should be checked
only after steady state operation of the chiller has been

established, the leaving water temperature has been pulled
down to the required leaving water temperature, and the
unit is running in a fully loaded condition. Correct superheat
setting for a system is 10°F - 15°F (5.56°C - 8.33°C) 18"
(46 cm) from the cooler.

Superheat should typically be set for no less than
10°F with only a single compressor running on a
circuit.

The superheat is calculated as the difference

between the actual temperature of the returned refrig-
erant gas in the suction line entering the compressor and
the temperature corresponding to the suction pressure
as shown in a standard pressure/temperature chart.
Example:

Suction Temp =

46°F

minus Suction Press

60 PSIG converted to Temp - 34°F

Superheat =

12°F

When adjusting the expansion valve (TxV only), the
adjusting screw should be turned not more than one

turn at a time, allowing sufficient time (approximately 15

minutes) between adjustments for the system and the
thermal expansion valve to respond and stabilize.

The EEV is nonadjustable. Superheat
setpoint is programmable from the
keypad.

Assure that superheat is set at a minimum of 10°F (5.56°C)
with a single compressor running on each circuit.



2. Record the suction temperature, suction pressure,

suction saturation temperature, and superheat of
each system below:

SYS 1

SYS 2

Suction temp = _______ _______ °F

Suction Pressure = _______ _______ PSIG

Saturation Temp = _______ _______ °F

Superheat = _______ _______ °F

LEAK CHECKING



1. Leak check compressors, fittings, and piping to

ensure no leaks.

If the unit is functioning satisfactorily during the initial
operating period, no safeties trip and the compressors
cycle to control water temperature to setpoint, the chiller
is ready to be placed into operation.

Installation



3. Allow the compressor to run a short time, being

ready to stop it immediately if any unusual noise
or adverse conditions develop.



4. Check the system operating parameters. Do this

by selecting various displays such as pressures
and temperatures and comparing these readings
to pressures and temperatures taken with man-
ifold gauges and temperature sensors.



5. With an ammeter, verify that each phase of the

condenser fans and compressors are within the
RLA as listed under Electrical Data.

CHECKING SUPERHEAT AND SUbCOOLING

The subcooling and superheat should always be
checked when charging the system with refrigerant.

When the refrigerant charge is correct, there will be no
vapor in the liquid sight glass with the system operating
under full load conditions, and there will be 15°F (8.34°C)
subcooled liquid leaving the condenser.

An overcharged system should be guarded against.
The temperature of the liquid refrigerant out of the con-
denser should be no more than 18°F (10°C) subcooled
at design conditions.