Manitowoc Ice MARINE MODEL S1800 User Manual

Refrigeration System

Section 7

7-16

Part Number 80-1634-3

DISCHARGE LINE TEMPERATURE ANALYSIS

General

Knowing if the discharge line temperature is increasing,
decreasing or remaining constant can be an important
diagnostic tool. Maximum compressor discharge line
temperature on a normally operating ice machine
steadily increases throughout the freeze cycle.
Comparing the temperatures over several cycles will
result in a consistent maximum discharge line
temperature.

Ambient air temperatures affect the maximum discharge
line temperature.

Higher ambient air temperatures at the condenser and/
or higher inlet water temperature = higher discharge line
temperatures at the compressor.

Lower ambient air temperatures at the condenser and/or
lower supply water temperature= lower discharge line
temperatures at the compressor.

Regardless of ambient and water temperatures, the
freeze cycle discharge line temperature will be higher
than 160°F (71.1°C) on a normally operating ice
machine.

Procedure

Connect a temperature probe on the compressor
discharge line with-in 6" of the compressor and insulate.

Observe the discharge line temperature for the last three
minutes of the freeze cycle and record the maximum
discharge line temperature.

Discharge Line Temperature Above 160°F (71.1°C) At

End Of Freeze Cycle:

Ice machines that are operating normally will have
consistent maximum discharge line temperatures above
160°F (71.1°C).

Discharge Line Temperature Below 160°F (71.1°C) At

End Of Freeze Cycle

Ice machines that have a flooding expansion valve will
have a maximum discharge line temperature that
decreases each cycle.

Verify the expansion valve sensing bulb is 100%
insulated and sealed airtight. Condenser air contacting
an incorrectly insulated sensing bulb will cause
overfeeding of the expansion valve.

Verify the expansion valve sensing bulb is positioned
and secured correctly.