Check Seal Oil Differential Pressure; Transducer; Check Thrust Bearing Oil Pressure; Check Discharge Gas High-Temperature - Carrier 17DA Start-Up, Operation And Maintenance Instructions Manual

refrigerant side of the seal and the oil supply being controlled
by the differential pressure regulator. The pressure being sup-
plied to the seal is maintained at 35 psid above the pressure on
the refrigerant side of the shaft seal. The auxiliary oil pump
should start if the differential pressure falls to or below 23 psid.
Lower the oil pressure by adjusting the differential oil pres-
sure regulator until the oil pressure drops to 23 psid. On com-
pletion of the test, reset the oil pressure regulator to its normal
setting of 35 psid. The auxiliary pump will stop when the oil
pressure rises above 27 psid.
CHECK SEAL OIL
TRANSDUCER — This function shuts down the compressor
if the seal oil pressure differential drops below its fault limit.
The transducer should be checked for proper calibration by
comparing against a known pressure gage. If two individual
single input transducers are used instead of a differential trans-
ducer, the measured pressures will be compared by the PLC to
calculate the differential pressure reading.
CHECK THRUST BEARING OIL PRESSURE TRANS-
DUCER — This function shuts down the compressor if the
thrust bearing oil pressure drops below its fault limit. The thrust
bearing is in the ambient atmosphere so the oil pressure is ref-
erenced to ambient pressure. The transducer should be checked
for proper calibration by comparing against a known pressure
gage and the set point should be checked on the PLC screen.

CHECK DISCHARGE GAS HIGH-TEMPERATURE

CUTOUT — This function shuts down the compressor if the
compressor discharge gas temperature exceeds its fault limit.
The sensor is located in a temperature well in the back wall of
the compressor. It is located to the immediate right of the bear-
ing chamber on the 7 frame compressor and to the immediate
left of the bearing chamber on the 8 frame compressor. The
sensor should be compared against a calibrated sensor in a cali-
bration bath or dry block calibrator.

CHECK THRUST BEARING OIL HIGH-TEMPERA-

TURE CUTOUT — This function shuts down the compressor
if the temperature of the oil leaving the compressor exceeds its
fault limit. The sensor is located in the bearing chamber and is
inserted into the leaving oil temperature well that is an integral
part of the thrust bearing housing.
The sensor should be compared against a calibrated sensor
in a calibration bath or dry block calibrator.
CHECK SHAFT MOVEMENT SWITCH — The shaft
movement switch will shut down the compressor if the thrust
bearing has been damaged. This protects the impeller from
damage. The switch is mounted inside the bearing chamber at
splitline level. It is actuated by a trigger screw that protrudes
from the main shaft.
With the shaft in the thrust position, the clearance between
the screw head and the switch should be 0.014 to 0.015 in.
(0.356 to 0.038 mm) as shown in Fig. 5.
Check the integrity of the wiring and connections between
this switch and the bulkhead terminals. If this switch has
opened during compressor operation, do not restart the ma-
chine. Contact a Carrier service representative immediately.

CHECK COOLER AND CONDENSER MINIMUM

FLOW PROTECTION — Flow monitoring devices are spec-
ified per job, however the common purpose is to prevent dam-
age to the chiller due to insufficient water flow. With the chiller
not in operation, reduce water flow to each vessel in turn until
the low flow cutout function activates. Confirm the flow rate is
correct. Calibrate the monitor(s) as required.
CHECK AUXILIARY INTERLOCKS — Refer to the job
wiring drawing for interlock wiring. Interlocks and safety con-
trols must deenergize the main holding coil, turbine solenoid
trip, etc. to shut down the refrigeration compressor under un-
safe conditions. Serious damage to the machine could result if
safety devices are bypassed.
DIFFERENTIAL PRESSURE
a17-574
Fig. 5 — Shaft Movement Switch Detail
CHECK CONDENSER SUBCOOLER LEVEL CON-
TROL — The purpose of this function is to control the liquid
valve in the condenser drain line. The liquid level in the con-
denser shell should be as close as possible to the deck that di-
vides the condenser section from the subcooler section. When
the level is correct and the chiller is running near design condi-
tions, the correct level should result in a temperature reading of
0 to 2° F below saturated condensing temperature at the con-
densed liquid thermowell near the subcooler inlet.
The control consists of a level transmitter with the PLC sup-
plying the signal to the liquid valve. A self-contained pneumat-
ic or electronic level control may also be supplied which con-
trols the liquid valve directly.
To calibrate either type of control, initially set the level so
that the sight glass or transmitter output indicates that the level
is approximately at the level of the condensed liquid thermo-
well. Make final adjustment based on the condensed liquid
temperature. If the temperature is too low, drop the level. If the
temperature is too high, raise the level.
CHECK COMPRESSOR GUIDE VANE CONTROL —
The standard guide vane actuator is a pneumatic piston actua-
tor controlled by a built-in positioner. The positioner receives a
3 to 15 psig signal. The signal comes from an electric-to-pneu-
matic transducer controlled by the PLC. The actuator is
equipped with a solenoid operated "quick-dump" valve. This
allows the vanes to immediately close on compressor shut-
down and prevents the guide vanes from operating until the
chiller is fully in "run" condition. The solenoid is controlled by
the PLC.
The maximum guide vane opening should be set in the PLC
such that the vanes stop opening when the position indicator
beneath the actuator points to 90.
Set the supply air pressure regulator for 80 psig minimum,
100 psig maximum. The cushion air supply to the bottom of
the piston should be set for 40 psig. The cushion air pressure
may be varied to suit job conditions. Cushion air pressure clos-
es the guide vanes. If an adjustment is made it must be proven
that the vanes can readily close before the compressor is start-
ed. Increasing cushion air pressure slows the vane opening
speed and increases the vane closing speed. Ensure that the air
supply is filtered and dry.
CHECK OIL PRESSURE REGULATORS — Maintain by
making proper adjustments and providing clean and ample oil
supply. See Oil Cycle section on page 18 for more information.
Thrust Bearing Oil Pressure Regulator — The regulator re-
duces the main oil pump discharge pressure to 18 psig for drive
end journal bearing and thrust bearing lubrication.
Differential Back-Pressure Regulator — The regulator main-
tains a differential pressure of 35 psid between oil pump dis-
charge pressure and pressure in refrigerant side, back-of-seal
section of compressor. Excess oil is relieved directly to oil
sump. This control maintains oil supply pressure higher than
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