Section 7
Refrigeration System
Part Number 80-1559-3
7-17
REFRIGERATION SYSTEM OPERATIONAL ANALYSIS TABLES
S Models Single Expansion Valve
This table must be used with charts, checklists and other references to eliminate
refrigeration components not listed on the table and external items and problems, which
can cause good refrigeration components to appear defective.
Operational Analysis
1
2
3
4
Ice Production
Air-Temperature Entering Condenser_____________
Water Temperature Entering Ice Machine_________
Published 24 hour ice production________________
Calculated (actual) ice production_______________
NOTE: The ice machine is operating properly if the ice fill patterns is normal and ice production is within 10% of charted
capacity.
Installation and Water
System
All installation and water related problems must be corrected before proceeding with chart.
Ice Formation Pattern
Ice formation is extremely
thin on outlet of evaporator
-or-
No ice formation on the
entire evaporator
Ice formation is extremely
thin on outlet of evaporator
-or-
No ice formation on entire
evaporator
Ice formation normal
-or-
Ice formation is extremely
thin on inlet of evaporator
-or-
No ice formation on entire
evaporator
Ice formation normal
-or-
No ice formation on entire
evaporator
Safety Limits
Refer to “Analyzing Safety
Limits” to eliminate all non-
refrigeration problems.
Stops on safety limit:
1
Stops on safety limit:
1
Stops on safety limit:
1 or 2
Stops on safety limit:
1
Freeze Cycle
Discharge Pressure
_____
______
______
1 minute Middle End
into cycle
If discharge pressure is High or Low refer to freeze cycle high or low discharge pressure problem checklist to eliminate
problems and/or components not listed on this table before proceeding.
Freeze Cycle
Suction Pressure
_____
______
______
1 minute Middle End
If suction pressure is High or Low refer to freeze cycle high or low suction pressure problem checklist to eliminate problems
and/or components not listed on this table before proceeding.
Suction pressure is
High
Suction pressure is
Low or
Normal
Suction pressure is
High
Suction pressure is
High
Wait 5 minutes into the freeze
cycle.
Compare temperatures of
evaporator inlet
and
evaporator outlet.
Inlet
____ ° F (° C)
Outlet
____ ° F (° C)
Difference ____ ° F (° C)
Inlet and outlet
within 7°
of each other
Inlet and outlet
not within 7°
of each other
-and-
Inlet is colder than outlet
Inlet and outlet
within 7°
of each other
-or-
Inlet and outlet
not within 7°
of each other
-and-
Inlet is warmer than outlet
Inlet and outlet
within 7°
of each other
Wait 5 minutes into the freeze
cycle.
Compare temperatures of
compressor discharge line
and
harvest valve inlet.
The harvest valve inlet is
Hot
-and-
approaches the temperature
of a
Hot
compressor
discharge line.
The harvest valve inlet is
Cool
enough to hold hand
on
-and-
the compressor discharge
line is
Hot.
The harvest valve inlet is
Cool
enough to hold hand
on
-and-
the compressor discharge
line is
Cool
enough to hold hand on.
The harvest valve inlet is
Cool
enough to hold hand
on
-and-
the compressor discharge
line is
Hot.
Final Analysis
Enter total number of boxes
checked in each column.
Harvest Valve Leaking
Low On Charge
-Or-
TXV Starving
TXV Flooding
Compressor
Содержание S1000M
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