Liquid Injection Valve Series L

Liquid Injection Valve Series L
Liquid Injection Valve Series L
Exchangeable Power Assemblies and Orifices
Features
• Applications for Series L valves include superheat
control (desuperheating of suction gas i.e. in
hotgas bypass systems and interstage cooling in
multiple stage compressors)
• Modular design for economical logistics and easy
assembly and servicing
• Very good stability is attained because of the large
forces generated by the large diaphragm diameter
• High quality materials and processes for high
reliability and long lifetime
• Superior partial load performance due to seat
orifice design (LJRE, LERE & LIRE)
• Capillary tube length 3 m
• PS: 31 bar, TS: -45 ... +65°C
• No CE marking according art. 3.3 PED 97/23 EC
LCL E 4 CL WL 10x16
Type Code
LCLE
LJRE
Nominal Capacity Q n
kW
R 22 R 404A R 407C
1,9
1,3
2,1
3,7
2,6
4,0
7,9
5,6
8,5
11,9
8,4
12,9
17,3
12,2
18,7
22,2
15,7
24,0
30,4
21,5
32,9
41,1
29,0
44,4
47,8
33,8
51,7
Orifice
1*
2*
3*
3,5 *
4*
6*
7*
9*
10 *
R 134a
1,5
2,9
6,1
9,3
13,5
17,3
23,6
32,0
37,2
11 *
12 *
45
57
58
74
40
51
62
80
40
51
X 11873-B4B
X 11873-B5B
71
81
112
135
174
91
104
143
174
223
63
72
99
120
154
99
112
155
188
241
63
72
99
120
154
X 9117-B6B
X 9117-B7B
X 9117-B8B
X 9117-B9B
X 9166-B10B
13
14
LERE
15
16
LIRE 17
*
*
*
*
*
R 507
1,3
2,6
5,6
8,4
12,2
15,7
21,5
29,0
33,8
X 22440-B1B
X 22440-B2B
X 22440-B3B
X 22440-B3,5B
X 22440-B4B
X 22440-B5B
X 22440-B6B
X 22440-B7B
X 22440-B8B
Superheat selection
* Charge
Refrigerant
Code
R 134a
R 22
R 404A
R 407C
CL
–
15 K
22 K
13 K
GL
15 K
30 K
35 K
25 K
UL
30 K
45 K
40 K
* Please indicate designation character for desired superheat
62
Type Code
XB1019 CL - 2
B
Power Assembly
Charge Code
Capillary Tube Length (3 m)
External Equalization
Valve Series
External Equalizer
Capacity Code
Charge Code
Flange Style
WL=Angle Style
DL=Straight through
Connection
Series
LCLE
R 507
22 K
35 K
Connections
Standard Flange, Angle
Solder/ODF
mm
inch
C 501 – 5 mm
10 x16
C 501 – 5
3/8 x 5/8
C 501 – 7 mm
12 x 16
A 576 mm
16 x 22
(22 x 28 ODM)
10331
22 x 22
C 501 – 7
1/2 x 5/8
A 576
5/8 x 7/8
(7/8 x 1 1/8 ODM)
10331
7/8 x 7/8
(1 1/8 x 1 1/8 ODM)
9153
22 x 22
9153
7/8 x 7/8
(1 1/8 x 1 1/8 ODM)
Power
Assembly
XB1019…2B
XC726…2B
Nominal capacities at +38° C condensing temperature, +4° C
evaporating temperature (saturated temperatures / dew
point) and 1 K liquid subcooling at the inlet of the expansion
valve.
A2.5.1/0501/E
Available upon special request
• Power assembly with solder connection for
external pressure equalization
• Non-standard connection sizes see page 35.
Accessories
Gasket Set for L Series Valves
Service Tool for L Series
Heat Transfer Paste Thermal Mastik
Joint Sealing ’Leak Lock’
Steel Screws for Following Flange Types:
C501, 9761 , 6346 , A576
9152, 9153, 10331 , 10332
Type
X 13455 -1
X 99999
PS 984
PS 1255 - 7
Order-No.
027 579
800 005
026 650
053 517
Screw ST 32
Screw ST 48
803 573
803 574
Correction Tables for Series L
Valve selection for desuperheating of suction gas
in conjunction with hotgas-bypass regulation:
Valve selection for desuperheating of suction gas:
The required desuperheating capacity Qdes has to be The required bypass capacity Q Byp has to be
multiplied with the correction factors on page 22 - 24. multiplied with correction factor Kti per table below.
QByp x Kti = Qn
Q des x Kt x K ∆p = Q n
Q des:
Kt :
K ∆p :
Qn :
Condensing
Temperature
°C
+50
+40
+30
+20
Refrigerant
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
Q Byp :
K ti :
Required desuperheating capacity
Correction factor for evaporating and liquid
temperature
Correction factor for pressure drop at valve
Nominal valve capacity
22
407 C
134a
507/404A
22
407 C
134a
507/404A
22
407 C
134a
507/404A
22
407 C
134a
507/404A
+10
0,33
0,41
0,38
0,50
0,26
0,32
0,31
0,38
0,20
0,25
0,24
0,29
0,15
0,19
0,18
0,22
+5
0,36
0,45
0,42
0,54
0,29
0,35
0,33
0,42
0,22
0,28
0,26
0,32
0,17
0,21
0,20
0,25
0
0,40
0,49
0,44
0,59
0,32
0,39
0,36
0,45
0,25
0,31
0,29
0,35
0,19
0,24
0,22
0,27
Qn
:
Required bypass capacity
Correction factor for evaporating
temperature
Nominal valve capacity
Correction Factor K ti
Evaporating Temperature ° C
-10
-20
-30
0,47
0,56
0,66
0,58
0,69
0,54
0,64
0,70
0,83
0,98
0,38
0,46
0,55
0,46
0,55
0,44
0,52
0,54
0,64
0,76
0,31
0,38
0,46
0,37
0,45
0,35
0,43
0,42
0,51
0,60
0,25
0,31
0,38
0,30
0,37
0,28
0,35
0,33
0,40
0,48
-40
0,78
-50
0,93
1,18
0,66
1,38
0,78
0,90
0,55
1,08
0,66
0,72
0,46
0,86
0,56
0,58
0,70
Correction factors based on 20K superheat suction gas at
the inlet of compressor, discharge temperature 28K above
isentropic compression and 1K subcooling.
A2.5.1/0501/E
63
Liquid Injection Valves Series 935
Exchangeable Power Assemblies and Orifices
Applications
• Series 935 valves are applied as temperature
controls. Applications include:
- Desuperheating of discharge gas on compressors. In this case bulbs are mounted on
the high pressure outlet of the compressor
- Control of compressor oil temperatures
• Series 935 valves shall not be used to control
superheat
Features
• Modular design for economical logistics and easy
assembly and servicing
• Very good stability is attained because of the large
forces generated by the large diaphragm diameter
• High quality materials and processes for high
reliability and long lifetime
• Combinations of different charges with various
orifice springs cover a very large application range
• PS: 31 bar, TS: -45 ... +65°C
• No CE marking according art. 3.3 PED 97/23 EC
• Non-standard connection sizes see page 35
935 - 7 - B WL 10x16
Type Code
A
B
C
D
E
R134a
4,0
7,8
11,1
16,3
22,5
Nominal Capacity Q n
kW
R22
R 404A R 407C
5,2
3,8
5,6
10,1
7,4
10,9
14,2
10,3
15,4
21,1
15,6
22,8
28,9
21,0
31,2
Type Code
XB1019 YL - 2 A
Power Assembly
Charge Code
Capillary Tube Length (3 m)
Valve Series
Temperature Code
Capacity Code
Flange Style
WL=Angle Style
DL=Straight through
Connection Size
Series
935
Orifice
R 507
3,8
7,4
10,3
15,6
21,0
X10110X10110X10110X10110X10110-
*
*
*
*
*
Standard Flange, Angle
Solder/ODF
mm
Inch
-
1B
2B
3B
4B
5B
C 501 - 5 mm
10 x 16
C 501 - 7 mm
12 x 16
C 501 - 5
3/8 x 5/8
C 501 - 7
1/2 x 5/8
A 576 mm
16 x 22
(22 x 28 ODM)
10331
22 x 22
A 576
5/8 x 7/8
(7/8 x 1 1/8 ODM)
10331
7/8 x 7/8
(1 1/8 x 1 1/8 ODM)
XB1019 - * - 2A
935-*G
32,0
41,2
29,9
44,5
29,9
X10110- * - 6B
K
46,6
60,0
43,5
64,9
43,5
X10111- * - 5B
* = Temperature Code
3
6
7
105
106
100
* = Spring Code
B
C
A
C
C
C
Nominal capacities at +38°C condensing temperature, +4°C
evaporting temperature (saturated temperatures / dew point)
64
Power
Assembly
Temperature Range °C
-1 / +17
+14 / +38
+36 / +50
+44 / +70
+66 / +94
+94 / +121
* = Charge Code
UL
KL
YL
YL
JL
LL
and 1 K liquid subcooling at the inlet of the valve. Valve
selection for other operating conditions see page 32 - 34.
A2.5.1/0501/E
Accessories
Gasket Set for 935 Series Valves
Service Tool for 935 Series
Heat Transfer Paste Thermal Mastik
Joint Sealing ’Leak Lock’
Steel Screws for Following Flange Types:
C501, 9761 , 6346 , A576
10331 , 10332
Type
X 13455 -1
X 99999
PS 984
PS 1255 - 7
Order-No.
027 579
800 005
026 650
053 517
Screw ST 32
Screw ST 48
803 573
803 574
Correction Tables for Series 935
Valve selection for operating conditions other than
+38°C/+4°C and 1 K liquid subcooling at the inlet of
the expansion valve:
Qn = Q o x K t x K∆ p
Q n: Nominal valve capacity
Q o: Required cooling or desuperheading capacity
Kt: Correction factor for evaporating and liquid
temperature
K∆p: Correction factor for pressure drop at valve
Liquid
Temperature
entering
Valve
°C
+60
+55
+50
+45
+40
+35
+30
+25
+20
+15
+10
+5
0
-5
-10
Correction Factor K t
Evaporating Temperature
°C
R 134a
+30
1,22
1,14
1,07
1,00
0,93
0,90
0,85
+25
1,25
1,16
1,08
1,02
0,96
0,91
0,86
0,82
+20
1,27
1,18
1,10
1,04
0,98
0,92
0,88
0,83
0,80
+15
1,30
1,21
1,13
1,06
0,99
0,94
0,89
0,85
0,81
0,77
+10
1,33
1,23
1,15
1,08
1,01
0,96
0,91
0,86
0,82
0,78
0,75
+5
1,36
1,26
1,17
1,10
1,03
0,97
0,92
0,87
0,83
0,79
0,76
0,73
0
1,40
1,29
1,20
1,12
1,05
0,99
0,94
0,89
0,85
0,81
0,77
0,74
0,71
-5
1,44
1,33
1,23
1,15
1,08
1,01
0,96
0,91
0,89
0,82
0,78
0,75
0,72
0,69
-10
1,48
1,36
1,26
1,17
1,10
1,03
0,98
0,92
0,88
0,84
0,80
0,76
0,73
0,70
0,68
-15
1,51
1,39
1,28
1,19
1,12
1,05
0,99
0,94
0,89
0,84
0,81
0,77
0,74
0,71
0,68
-20
1,56
1,43
1,32
1,22
1,14
1,07
1,01
0,95
0,91
0,86
0,82
0,78
0,75
0,72
0,69
-25
1,61
1,47
1,36
1,26
1,17
1,10
1,03
0,97
0,92
0,88
0,84
0,80
0,76
0,73
0,70
-30
1,67
1,52
1,39
1,29
1,20
1,12
1,06
1,00
0,94
0,89
0,85
0,81
0,78
0,74
0,71
5,0
1,11
14,0
0,66
5,5
1,06
15,0
0,64
6,0
1,01
16,0
0,62
6,5
0,97
17,0
0,60
Correction Factor K ∆ p
∆p (bar)
K∆p
∆p (bar)
K∆p
A2.5.1/0501/E
0,5
3,50
8,5
0,85
1,0
2,48
9,0
0,83
1,5
2,02
9,5
0,80
2,0
1,75
10,0
0,78
2,5
1,57
10,5
0,76
3,0
1,43
11,0
0,75
3,5
1,32
11,5
0,73
4,0
1,24
12,0
0,72
4,5
1,17
13,0
0,69
7,0
0,94
18,0
0,58
7,5
0,90
19,0
0,57
8,0
0,88
20,0
0,55
65
Liquid
Temperature
entering
Valve
°C
+60
+55
+50
+45
+40
+35
+30
+25
+20
+15
+10
+5
0
-5
-10
Correction Factor K t
Evaporating Temperature
°C
R 22
+30
1,22
1,15
1,08
1,03
0,98
0,93
0,89
+25
1,23
1,16
1,09
1,04
0,99
0,94
0,90
0,86
0,5
4,25
10,0
0,95
1,0
3,00
11,0
0,91
+20
1,24
1,17
1,10
1,04
0,99
0,95
0,90
0,87
0,83
+15
1,25
1,18
1,11
1,05
1,00
0,95
0,91
0,87
0,84
0,80
+10
1,27
1,19
1,12
1,06
1,01
0,96
0,92
0,88
0,84
0,81
0,78
2,0
2,13
13,0
0,83
2,5
1,90
14,0
0,80
+5
1,28
1,20
1,14
1,07
1,02
0,97
0,93
0,89
0,85
0,82
0,79
0,76
0
1,30
1,22
1,15
1,09
1,03
0,98
0,94
0,90
0,86
0,82
0,79
0,76
0,74
-5
1,32
1,24
1,16
1,10
1,04
0,99
0,95
0,91
0,87
0,83
0,80
0,77
0,74
0,72
-10
1,34
1,25
1,18
1,12
1,06
1,01
0,96
0,92
0,88
0,84
0,81
0,78
0,75
0,72
0,70
-15
1,36
1,27
1,20
1,13
1,07
1,02
0,97
0,93
0,89
0,85
0,82
0,79
0,76
0,73
0,71
-20
1,38
1,29
1,22
1,15
1,09
1,03
0,98
0,94
0,90
0,86
0,83
0,79
0,77
0,74
0,71
-25
1,41
1,32
1,24
1,17
1,10
1,05
1,00
0,95
0,91
0,87
0,84
0,80
0,77
0,75
0,72
-30
1,44
1,34
1,26
1,18
1,12
1,06
1,01
0,96
0,92
0,88
0,85
0,81
0,78
0,75
0,73
5,0
1,35
19,0
0,69
5,5
1,28
20,0
0,67
6,0
1,23
21,0
0,66
6,5
1,18
22,0
0,64
-35
1,47
1,37
1,28
1,20
1,14
1,08
1,03
0,98
0,93
0,89
0,86
0,82
0,79
0,76
0,71
-40
1,50
1,39
1,30
1,23
1,16
1,10
1,04
0,99
0,95
0,91
0,87
0,83
0,80
0,77
0,74
-45
1,53
1,42
1,33
1,25
1,18
1,12
1,06
1,01
0,96
0,92
0,88
0,85
0,81
0,78
0,75
8,0
1,06
24,0
0,61
9,0
1,00
25,0
0,60
-40
2,95
2,25
1,84
1,57
1,38
1,23
1,11
1,02
0,95
0,88
0,83
0,78
0,74
0,70
0,67
-45
3,19
2,39
1,94
1,64
1,43
1,27
1,15
1,05
0,97
0,90
0,85
0,80
0,75
0,72
0,68
8,0
1,14
24,0
0,66
9,0
1,07
25,0
0,64
Correction Factor K∆ p
∆p (bar)
K∆p
∆p (bar)
K∆p
Liquid
Temperature
entering
Valve
°C
+60
+55
+50
+45
+40
+35
+30
+25
+20
+15
+10
+5
0
-5
-10
1,5
2,46
12,0
0,87
3,0
1,74
15,0
0,78
3,5
1,61
16,0
0,75
4,0
1,50
17,0
0,73
4,5
1,42
18,0
0,71
7,0
1,14
23,0
0,63
Correction Factor K t
Evaporating Temperature
°C
R 404A
+30
1,56
1,32
1,16
1,04
0,94
0,87
0,81
+25
1,59
1,35
1,18
1,05
0,96
0,88
0,82
0,76
+20
1,64
1,38
1,20
1,07
0,97
0,90
0,83
0,77
0,73
0,5
4,55
10,0
1,02
1,0
3,21
11,0
0,97
1,5
2,62
12,0
0,93
+15
1,69
1,42
1,23
1,10
0,99
0,91
0,84
0,79
0,74
0,70
+10
1,74
1,46
1,26
1,12
1,02
0,93
0,86
0,80
0,75
0,71
0,67
+5
1,81
1,50
1,30
1,15
1,04
0,95
0,88
0,82
0,77
0,72
0,68
0,65
0
1,88
1,55
1,34
1,18
1,07
0,97
0,90
0,83
0,78
0,73
0,69
0,66
0,63
-5
1,96
1,61
1,38
1,22
1,09
1,00
0,92
0,85
0,80
0,75
0,71
0,67
0,64
0,61
-10
2,06
1,68
1,43
1,26
1,13
1,02
0,94
0,87
0,81
0,76
0,72
0,68
0,65
0,62
0,60
-15
2,16
1,75
1,48
1,30
1,16
1,05
0,96
0,89
0,83
0,78
0,74
0,70
0,66
0,63
0,61
-20
2,28
1,83
1,54
1,34
1,20
1,08
0,99
0,92
0,85
0,80
0,75
0,71
0,68
0,65
0,62
-25
2,42
1,92
1,61
1,39
1,24
1,11
1,02
0,94
0,87
0,82
0,77
0,73
0,69
0,66
0,63
-30
2,57
2,01
1,68
1,45
1,28
1,15
1,05
0,97
0,90
0,84
0,79
0,74
0,71
0,67
0,64
5,0
1,44
19,0
0,74
5,5
1,37
20,0
0,72
6,0
1,31
21,0
0,70
6,5
1,26
22,0
0,69
-35
2,75
2,13
1,75
1,51
1,33
1,19
1,08
0,99
0,92
0,86
0,81
0,76
0,72
0,69
0,65
Correction Factor K∆ p
∆p (bar)
K∆p
∆p (bar)
K∆p
66
2,0
2,27
13,0
0,89
2,5
2,03
14,0
0,86
3,0
1,86
15,0
0,83
3,5
1,72
16,0
0,80
4,0
1,61
17,0
0,78
4,5
1,52
18,0
0,76
7,0
1,21
23,0
0,67
A2.5.1/0501/E
Liquid
Temperature
entering
Valve
°C
+55
+50
+45
+40
+35
+30
+25
+20
+15
+10
+5
0
-5
-10
Correction Factor K t
Evaporating Temperature
°C
R 407C
+30
1,20
1,10
1,02
0,95
0,89
0,85
+25
1,21
1,11
1,03
0,96
0,90
0,85
0,81
+20
1,23
1,13
1,05
0,98
0,92
0,87
0,82
0,78
+15
1,26
1,15
1,06
0,99
0,93
0,88
0,83
0,79
0,75
+10
1,28
1,17
1,08
1,01
0,94
0,89
0,84
0,80
0,76
0,73
+5
1,31
1,19
1,10
1,02
0,96
0,90
0,85
0,81
0,77
0,74
0,71
0
1,34
1,22
1,12
1,04
0,98
0,92
0,87
0,82
0,78
0,75
0,72
0,69
-5
1,37
1,24
1,14
1,06
0,99
0,93
0,88
0,84
0,80
0,76
0,73
0,70
0,67
-10
1,40
1,27
1,17
1,08
1,01
0,95
0,90
0,85
0,81
0,77
0,74
0,71
0,68
0,65
-15
1,44
1,30
1,19
1,11
1,03
0,97
0,91
0,86
0,82
0,78
0,75
0,72
0,69
0,66
-20
1,48
1,33
1,22
1,13
1,05
0,99
0,93
0,88
0,84
0,80
0,76
0,73
0,70
0,67
-25
1,52
1,37
1,25
1,16
1,07
1,01
0,95
0,90
0,85
0,81
0,77
0,74
0,71
0,68
Correction Factor K∆ p
∆p (bar)
K∆p
∆p (bar)
K∆p
0,5
4,78
10,0
1,05
1,0
3,33
11,0
1,01
1,5
2,72
12,0
0,96
2,0
2,36
13,0
0,92
2,5
2,11
14,0
0,89
3,0
1,92
15,0
0,86
3,5
1,78
16,0
0,83
4,0
1,67
17,0
0,81
4,5
1,57
18,0
0,79
5,0
1,49
19,0
0,76
5,5
1,42
20,0
0,75
6,0
1,36
21,0
0,73
6,5
1,31
22,0
0,71
7,0
1,26
23,0
0,70
8,0
1,18
24,0
0,68
9,0
1,11
25,0
0,67
-20
2,18
1,76
1,49
1,31
1,17
1,07
0,98
0,91
0,85
0,79
0,74
0,70
0,66
0,63
0,60
-25
2,30
1,83
1,55
1,36
1,21
1,10
1,01
0,93
0,87
0,81
0,76
0,72
0,68
0,64
0,61
-30
2,43
1,92
1,61
1,40
1,25
1,13
1,03
0,95
0,89
0,83
0,78
0,73
0,69
0,65
0,62
-35
2,58
2,02
1,68
1,46
1,29
1,16
1,06
0,98
0,91
0,85
0,79
0,75
0,70
0,66
0,63
-40
2,75
2,12
1,76
1,52
1,34
1,20
1,09
1,01
0,93
0,87
0,81
0,76
0,72
0,68
0,64
-45
2,95
2,25
1,84
1,58
1,39
1,24
1,13
1,03
0,96
0,89
0,83
0,78
0,73
0,69
0,65
6,0
1,34
21,0
0,71
6,5
1,28
22,0
0,70
8,0
1,16
24,0
0,67
9,0
1,09
25,0
0,65
Note: See page 6 for determining of conditions for systems with R 407C.
Liquid
Temperature
entering
Valve
°C
+60
+55
+50
+45
+40
+35
+30
+25
+20
+15
+10
+5
0
-5
-10
Correction Factor K t
Evaporating Temperature
°C
R 507
+30
1,54
1,30
1,15
1,03
0,94
0,87
0,81
+25
1,57
1,33
1,17
1,05
0,96
0,88
0,82
0,77
+20
1,61
1,36
1,19
1,07
0,97
0,90
0,83
0,78
0,73
+15
1,65
1,39
1,22
1,09
0,99
0,91
0,85
0,79
0,74
0,70
+10
1,71
1,43
1,24
1,11
1,01
0,93
0,86
0,80
0,75
0,71
0,67
0,5
4,63
10,0
1,03
1,0
3,27
11,0
0,99
1,5
2,67
12,0
0,94
2,0
2,31
13,0
0,91
2,5
2,07
14,0
0,87
+5
1,76
1,47
1,28
1,14
1,03
0,95
0,88
0,82
0,77
0,72
0,68
0,64
0
1,83
1,52
1,31
1,17
1,06
0,97
0,89
0,83
0,78
0,73
0,69
0,65
0,62
-5
1,90
1,57
1,35
1,20
1,08
0,99
0,91
0,85
0,79
0,75
0,70
0,67
0,63
0,60
-10
1,98
1,62
1,40
1,23
1,11
1,01
0,93
0,87
0,81
0,76
0,72
0,68
0,64
0,61
0,58
-15
2,08
1,69
1,44
1,27
1,14
1,04
0,96
0,89
0,83
0,78
0,73
0,69
0,65
0,62
0,59
Correction Factor K∆ p
∆p (bar)
K∆p
∆p (bar)
K∆p
A2.5.1/0501/E
3,0
1,89
15,0
0,85
3,5
1,75
16,0
0,82
4,0
1,64
17,0
0,79
4,5
1,54
18,0
0,77
5,0
1,46
19,0
0,75
5,5
1,40
20,0
0,73
7,0
1,24
23,0
0,68
67
Flanges for Valves
Angle Style Flange
Angle Style
Type
Order
No.
C
C
C
C
C
C
501
501
501
501
501
501
-4
- 4 MM
-5
- 5 MM
-7
- 7 MM
—
A 576
A 576 - MM
10331
803 230
803 231
803 232
803 233
803 234
803 235
—
803 238
803 239
803 338
Straight Through
Type
Order
No.
9761
9761
9761
9761
6346
-3
- 3 MM
-4
- 4 MM
- 17
—
—
10332
803 240
803 241
803 350
803 243
803 330
—
—
803 324
Straight Through Flange
Connections
mm
inch
Solder ODF
Solder ODM
Solder ODF
Solder ODM
—
10 x 12
—
10 x 16
—
12 x 16
16 x 22
—
16 x 22
22 x 22
—
—
—
—
—
—
—
—
22 x 28
—
3/8 x 1/2
—
3/8 x 5/8
—
1/2 x 5/8
—
5/8 x 7/8
5/8 x 7/8
—
7/8 x 7/8
9153
803 244
9152
803 286
—
—
7/8 x 7/8
9153 MM
803 245
9152 MM
803 287
22 x 22
28 x 28
—
—
—
—
—
—
—
—
7/8 x 1-1/8
—
1-1/8 x 1-1/8
1-1/8 x 1-1/8
for
Valve
Series
TCLE
ZZCE
LCLE
935 A-G
CPHE 1
CPHE 2
TJRE
ZZJRE
LJRE
935 K
CPHE 3
TERE
TIRE
ZZERE
ZZIRE
LERE
LIRE
CPHE 3,5
CPHE 4
CPHE 5
9149
68
803 284
9148
803 283
22 x 22
—
7/8 x 7/8
1-1/8 x 1-1/8
THRE
CPHE 6
A2.5.1/0501/E
Dimensions TCLE
Angle Style Flanges TCLE
Connections
Lay-in length
Inlet
Outlet
3/8 1/2 SAE
3/8 5/8 SAE
1/2 5/8 SAE
10
12 ODF
14
17
10
16 ODF
14
21
12
16 ODF
18
21
16
22 ODF
21
25
3/8 1/2 ODF
14
17
3/8 5/8 ODF
14
21
1/2 5/8 ODF
18
21
5/8 7/8 ODF
21
25
Straight Through Flanges TCLE
3/8 1/2 SAE
3/8 5/8 SAE
1/2 5/8 SAE
10
12 ODF
8
10
10
16 ODF
8
13
12
16 ODF
10
13
3/8 1/2 ODF
8
10
3/8 1/2 ODF
8
13
1/2 1/2 ODF
10
1/2 5/8 ODF
10
13
1/2 7/8 ODF
19
5/8 5/8 ODF
13
5/8 7/8 ODF
13
19
5/8 1-18 ODF
13
5/8 1-18 ODF 19
13
A
106
106
113
105
105
108
124
105
105
108
124
95
B
78
C
39
77
80
80
90
77
80
80
90
37
40
40
51
37
40
40
51
45
45
50
50
55
55
40
41
41
40
41
40
41
49
41
49
60
60
36
95
97
95
41
98
49
D
30
34
E
29
29
35
27
43
27
27
30
43
F
G
H
Weight
kg
1,1
27
29
1,1
27
10
29
1,2
1,2
31
17
9
31
33
1,1
10
1,15
Dimensions TJRE
Angle Style Flanges TJRE
Connections
Lay-in length
Inlet
Outlet
22
22 ODF
19
19
Straight Through Flanges TJRE
7/8 7/8 ODF
19
19
A
140
B
85
C
51
D
93
E
59
F
G
29
Weight
kg
1,3
137
51
45
75
15
56
29
1,4
Dimensions TERE, TIRE, THRE
Angle Style Flanges Type 9153, 9153-MM for TERE, TIRE
Connections
Lay-in length
Inlet
Outlet
A
B
C
22
22 ODF
19
19
140
7/8 7/8 ODF
19
19
140
Angle Style Flanges Type 9149 for THRE
87
51
22,2 22,2 ODF 19
19
154
7/8 7/8 ODF
19
19
154
Straight Through Flanges Type 9152 for TERE, TIRE
22,2 22,2 ODF 19
19
139
7/8 7/8 ODF
19
19
139
Straight Through Flanges Type 9148 for THRE51
45
22,2 22,2 ODF 19
19
139
7/8 7/8 ODF
19
19
139
25,4
D
92
92
E
59
59
106
106
73
73
F
G
23
25
Weight
kg
1,4
1,4
25
25
1,45
1,45
1,5
1,5
74
16,5
58
25
1,45
1,45
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