Technical data
160.81-ICOM-GB0 (01/02) 9-5
CC
DD
DD
BB
BB
BB
BB
DD
DD
P
S
WY
VX
U
RT
Q
CC
GG
GG
GG GG
GG
GG
25.4 mm
25.4 mm
25.4 mm
25.4 mm
25.4 mm
25.4 mm
CONDENSER
CONDENSER
CONDENSER
MOTOR END
MOTOR END
MOTOR END
FRONT
OF
UNIT
FRONT
OF
UNIT
FRONT
OF
UNIT
FRON
T
OF
UNIT
FRON
T
OF
UNIT
FRON
T
OF
UNIT
COMPRESSOR END
COMPRESSOR END
COMPRESSOR END
FLOOR
LINE
FLOOR
LINE
FLOOR
LINE
CONDENSER
CONDENSER
CONDENSER
In Out
PQ
QP
1-PASS
Nozzle Arrangements
No. of
Passes
Condenser
1
123
CC
2
GG
BB
2
DD
2
GG
BB
2
DD GG
T 10" 6" 6" 730.2 381 552.5 908.1 381 552.5 908.1 381
V 10" 6" 6" 730.2 381 552.5 908.1 381 552.5 908.1 381
No. of Passes
NozzlePipeSize
Condenser
Shell Code
Condenser Nozzle Dimensions
1-PASS 2-PASS 3-PASS
Dimensions in mm
NOTES:
1. Standard water nozzles are furnished as welding stub-outs with Victaulic grooves, allowing the option of welding, flanges, or use of Victaulic
couplings. Factory installed, class 150 (ANSI B16.5, round slip-on, forged carbon steel with 1.59mm raised face), water flanged nozzles are
optional (add 12.7 mm to nozzle length). Companion flanges, nuts, bolts and gaskets are not furnished.
2. Add 25.4 mm for isolators as shown.
3 One-, two- and three-pass nozzle arrangements are available only in pairs shown and for all shell codes. Any pair of evaporator nozzles may
be used in combination with any pair of condenser nozzles.
4. Connected piping should allow for removal of compact water boxes for tube access and cleaning.
In Out
RS
TU
2-PASS
Nozzle Arrangements
No. of
Passes
Condenser
2
NOTE: Water must enter through bottom
connection to achieve rated performance
In Out
VY
XW
3-PASS
Nozzle Arrangements
No. of
Passes
Condenser
3
NOTE: Water must enter through bottom
connection to achieve rated performance