OMM 1166-1
AGZ 025D through 190D
5
Glycol Solutions
The use of a glycol/water mixture in the evaporator to prevent freezing reduces system capacity and
efficiency, as well as increase pressure drop. The system capacity, required glycol solution flow rate,
and pressure drop with glycol may be calculated using Table 1.
1.
Capacity
–
Multiply the capacity based on water by the
Capacity
correction factor from Table 2
through Table 5.
2.
Flow
– Multiply the water evaporator flow by the
Flow
correction factor from Table 2 through
Table 5 to determine the increased evaporator flow due to glycol.
If the flow is unknown, it can be calculated from the following equation
3.
Pressure drop
-- Multiply the water pressure drop from page 9 by
Pressure Drop
correction factor
from Table 2 through Table 5. High concentrations of propylene glycol at low temperatures can
cause unacceptably high pressure drops.
4.
Power
-- Multiply the water system power by
Power
correction factor from Table 2 - Table 5.
Test coolant with a clean, accurate glycol solution hydrometer (similar to that found in service
stations) to determine the freezing point. Obtain percent glycol from the freezing point tables below.
It is recommended that a minimum of 25% solution by weight be used for protection against corrosion
or that additional compatible inhibitors be added.
Concentrations above 35 % do not provide any additional burst protection and should be carefully
considered before using.
Table 1, Flow/Tons/Delta-T Relationship
Glycol Flow (gpm)
Factor
Correction
Flow
T
Delta
glycol
Capacity
Tons
)
(
24
Glycol Flow (l/s)
Factor
Correction
Flow
T
Delta
Capacity
kW
18
.
4
!
WARNING
Do not use an automotive grade antifreeze. Industrial grade glycols must be used. Automotive
antifreeze contains inhibitors which will cause plating on the copper tubes within the chiller evaporator.
The type and handling of glycol used must be consistent with local codes
Table 2, Ethylene Glycol Factors for Models AGZ 025D to 130D
% E.G.
Freeze Point
Capacity
Power
Flow
PD
o
F
o
C
10
26
-3.3
0.998
0.998
1.036
1.097
20
18
-7.8
0.993
0.997
1.060
1.226
30
7
-13.9
0.987
0.995
1.092
1.369
40
-7
-21.7
0.980
0.992
1.132
1.557
50
-28
-33.3
0.973
0.991
1.182
1.791
Table 3, Propylene Glycol Factors for Models AGZ 025D to 130D
% P.G.
Freeze Point
Capacity
Power
Flow
PD
o
F
o
C
10
26
-3.3
0.995
0.997
1.016
1.100
20
19
-7.2
0.987
0.995
1.032
1.211
30
9
-12.8
0.978
0.992
1.057
1.380
40
-5
-20.6
0.964
0.987
1.092
1.703
50
-27
-32.8
0.952
0.983
1.140
2.251
Содержание AGZ 190D
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