Cooling Capacity: 030 [Cooling Capacity: 2500/2900 W (50/60 Hz)], Pipe Thread: Rc, Option: None
Cooling Capacity: Cooling Capacity: 2600/3200W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: Rc, Option: B + M + T
Cooling Capacity: Cooling Capacity: 2600/3200W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: Rc, Option: M + T
Cooling Capacity: Cooling Capacity: 2600/3200W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: Rc, Option: Earth Leakage Breaker
Cooling Capacity: 030 [Cooling Capacity: 2500/2900 W (50/60 Hz)], Pipe Thread: Rc, Option: None
Type: Thermo-Chiller, Cooling Method: Air-Cooling, Cooling Capacity: 2,600/3,200 W (50/60 Hz), Piping thread type: Rc, Optional specifications: Compatible with deionized water (pure water) piping
Type: -, Cooling Method: -, Cooling Capacity: 2,600/3,200 W (50/60 Hz), Piping thread type: Rc, Optional specifications: High pump head specification
Cooling Capacity: 030 (Cooling Capacity: 2600/3200W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc, Option: M [Applicable to DI Water (Deionized Water) Piping]
Cooling Capacity: 030 (Cooling Capacity: 2600/3200W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc, Option: T (High-lift Pump)
Cooling Capacity: 030 (Cooling Capacity: 2600/3200W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc, Option: BMT (B + M + T)
Cooling Capacity: 030 (Cooling Capacity: 2600/3200W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc, Option: MT (M + T)
Cooling Capacity: 030 (Cooling Capacity: 2600/3200W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc, Option: B (Earth Leakage Breaker)
CLA L1 E1 R1 U1 A1 U1 R1 A MM NDH10 NZ MM NDH10 NX NX E1 L1 30 40 50 60 60 20 22 28 40 40 12 12.5 16.5 23.5 23.5 16 19 24 34 34 32 40 50, 63 80 100 32 40 50, 63 80 100 14 19 24 26 26 10 11 14 20 20 16 19 24 34 34 40 50 64 80 80 M10x1.25 M14 x 1.5 M18 x 1.5 M22 x 1.5 M26 x 1.5 M10 x 1.25 M14 x 1.5 M18 x 1.5 M22 x 1.5 M26 x 1.5 10 10 14 22 22 14 14 20 30 30 28 28 40 60 60 10 10 14 22 22 14 14 20
(mm) H1 6 7 8 11 11 H 36 40 45 53 56 GY 5 5.5 7 8 10 GX 10 8.5 9 11.5 11.5 EY 26 42 54 64 72 D 12 14 16 20 20 B1 17 19 22 27 27 C 54 68 86 104 124 B 24 28 32 39 50 BY 7 8 9 9 12 AL 19.5 23.5 27 32 32 BX 9 6.5 8 10 11 ET A 22 26 30 35 35 BS 42 50 54 64 63 K 5.5 5.5 6 7 7 BT Model MUB25 MUB32 MUB40 MUB50 MUB63 Standard stroke (mm) 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10, 15, 20 M5 x 0.8
(mm) H1 6 7 8 11 11 H 36 40 45 53 56 GY 5 5.5 7 8 10 GX 10 8.5 9 11.5 11.5 EY 26 42 54 64 72 D 12 14 16 20 20 B1 17 19 22 27 27 C 54 68 86 104 124 B 24 28 32 39 50 BY 7 8 9 9 12 AL 19.5 23.5 27 32 32 BX 9 6.5 8 10 11 ET A 22 26 30 35 35 BS 42 50 54 64 63 K 5.5 5.5 6 7 7 BT Model MUB25 MUB32 MUB40 MUB50 MUB63 Standard stroke (mm) 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10, 15, 20 M5 x 0.8
5, 10, 15, 20 5, 10, 15, 20 D 12 14 16 20 20 C 54 68 86 104 124 B1 17 19 22 27 27 BY 7 8 9 9 12 B 24 28 32 39 50 BX 9 6.5 8 10 11 ET M5 X 0.8 Depth 11 AL 19.5 23.5 27 32 32 BS 42 50 54 64 63 K 5.5 5.5 6 7 7 A 22 26 30 35 35 BT M5 X 0.8 Depth 7.5 M6 X 1 Depth 12 M6 X 1 Depth 11 M8 X 1.25 Depth 13 M8 X 1.25 Depth 11 M10 X 1.5 Depth 15 M10 X 1.5 Depth 14.5 M12 X 1.75 Depth 18 M12 X 1.75 Depth
Extend the dimensions of A and H, when using a single/double knuckle joint together with a rod end nut.
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.