Sample Cooler FXR0 pages
FxR sample cooler
FXR Sample cooler
Helicoil Coil Sample Cooler
Compact, efficient sample cooling
for high flow gases and liquids
Features
Description
t Double helical coil design
The FXR series sample cooler is designed for efficient
and cost effective sample cooling where higher flow is
required. Optimal service for flows below 5000 cc/min
for single phase and 2000 cc/min for condensing heat
transfer. Standard tube side materials are 316/316L SS
or Alloy 625 (e.g., Inconel®) for high chloride cooling
water applications.
t Minimize cooling water needs
t Wide variety of exotic alloys for corrosion
resistance
t Retained shellside gasket reduces
re-assembly time
t Formed shell eliminates top shell flange
weld interfaces
t 304 SS mounting bracket can be installed
without removing flange bolts
Performance Curve - Water
Performance Curve - Steam
Model FXR-6222
Model FXR-6222
10
o
0
60
10
190
12
13
14
15
16
(2
oF
o )
0
4C
50 o (20
F
o )
400 o (149 C
F
300
o
o
(93 C)
o
200 F
o
150 F (66 C)
Inlet Temp.
0
0.4
(3
o C)
60
5
1500
F
C
2000
0.5
240
2500
0.6
290
0.7
340
3000
CCM
0.8
3500
0.9
GPM
390
440
Lbm/Hr
Flow Rate
www.sentry-equip.com
4000
1
490
1.1
540
4500
1.2
590
17
18
19
4
7
6
3
5
4
2
3
2
20
re
)]
re s
su
r( a
tP
ba
8.
9
r(
a)
]
[6
ba
A
4
1
0
5000
1000
1.3
640
)]
r(a
b a a )]
9
(
7 . ba r
3
[ 1 .4
IA 1 72
PS A [
I
00 S
20 0 P
0
25
1
21
PS
I
5
8
[1
03
.
o
16
11
)
9
IA
10
PS
15
20
9
00
)
6
10
10
SI
11
8
15
00
(P
Inl
e
7
Dr
op
Approach Temperature (oF)
re
7
12
1 PSI = 0.069 Bar
su
70
0o
F
es
6
Pressure Drop (PSI)
Pr
20
30
13
5
1o
C)
pl
e
Approach Temperature (oC)
Approach Temperature (oF)
m
(37
Sa
40
8
14
4
am
25
500
[34 PSIA
.5 b
ar(
a )]
15
3
Ste
2
Sa
tur
ate
d
50
Surface Area 4.7 Ft.2 [0.44 m2 ]
12 GPM [45 L/min] Cooling Water at 95oF [35oC]
9.5 PSI [0.66 Bar] Pressure Drop
Approach Temperature (oC)
Surface Area 4.7 Ft.2 [0.44 m2]
12 GPM [45 L/min] Cooling Water at 95oF [35oC]
9.5 PSI [0.66 Bar] Pressure Drop
1200
1400
0.3
120
140
1600
CCM
1800
0.4
0.5
GPM
160
180
200
Lbm/Hr
Flow Rate
2000
220
240
260
280
4.6 Rev. 7 09/13
"