Your search for HRS returned 21 result(s)
There were no hits with the full part number, but there were 12 hits in the keyword search.
There were no hits with the full part number, but there were 10 hits in the keyword search.
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Cooling Capacity: 100 (10 kW), Cooling Method: A (Air-cooled), Pipe Thread: Rc, Option: ABK (w/Caster Adjuster-foot, w/Earth Leakage Breaker, and Fluid Fill Port)
Cooling Capacity: 10 kW, Cooling Method: Air-cooled, Pipe Thread: Rc, Option: w/Caster Adjuster-foot, w/Earth Leakage Breaker, and Fluid Fill Port
A large digital display provides a clear view of the current and set values.
2 IDF6E-20 IDF8E-20, IDF11E-20 (mm) Dimensions 5 A IDU3E-20, IDU4E-20 IDU6E-20, IDU8E-20, IDU11E-20 A B C D E F Model IDF22E-20 IDF37E-20 IDF22E-30 IDF37E-30 IDF55E-30 IDF75E-30 IDU22E-30 IDU37E-30 IDU55E-30 IDU75E-30 59 40 IDF15E1-20, IDF22E-20, IDF37E-20 IDU15E1-20 IDF22E-30, IDF37E-30 IDF55E-30 IDU22E-30, IDU37E-30, IDU55E-30 30 mA 25 46 125 10 A 60 39 200 V type 60 81 148 50 36 73 133 IDF75E
Connector entry upward direction) 4 A A B 4 A A B 4 A A B 4 A A B A B 4 A PE 3EB X 1P 5EA 106.2 5.5 24.6 23.2 116.6 96.2 20 20 35 81.6 74.1 20 30.2 52.2 43.8 2 x M2.6 2 x 4-40 UNC [For N or T thread] 40.2 40.2 8 2B 2B 2B 2B 2B 12.3 1/8 [4(A), 2(B) port] M5 x 0.8 (External pilot) [External pilot port] 4 x 4.5 (For mounting) One-touch fitting [4(A), 2(B) port] Applicable tube O.D.: 4, 5/32"
11) [opposite side] IDF4E-20, IDF6E-20 IDF8E-20, IDF11E-20 5 A IDU3E-20, IDU4E-20 IDU6E-20, IDU8E-20, IDU11E-20 [mm] Dimensions Model A B C D E F IDF22E-20 59 40 IDF15E1-20, IDF22E-20, IDF37E-20 IDU15E1-20 IDF22E-30, IDF37E-30 IDF55E-30 IDU22E-30, IDU37E-30, IDU55E-30 25 46 IDF37E-20 IDF22E-30 39 30 mA 125 10 A 60 60 IDF37E-30 IDF55E-30 148 81 50 36 IDF75E-30 133 73 IDU22E-30 151 74 200 V
HRX-OM-Q026-V Operation Manual Installation Operation Original Instructions Thermo Chiller HRSH Series HRSH100-A-20HRSH100-A-40HRSH100-A-20-S HRSH150-A-20HRSH150-A-40HRSH150-A-20-S HRSH200-A-20HRSH200-A-40HRSH200-A-20-S HRSH250-A-20HRSH250-A-40HRSH250-A-20-S HRSH300-A-20HRSH300-A-40HRSH100-W-20HRSH100-W-40HRSH100-W-20-S HRSH150-W-20HRSH150-W-40HRSH150-W-20-S HRSH200-W-20HRSH200-W-40HRSH200
Cable size Crimped terminal on the rated current thermo-chiller side HRS100-Al-20-l HRS100-Wl-20-l 3-phase 200 VAC (50 Hz) 3-phase 200 to 230 VAC (60 Hz) 4 cores x 5.5 mm2 (4 cores x AWG10) (Including grounding cable R5.5-5) R5.5-5 30 A M5 HRS150-Al-20-l HRS150-Wl-20-l 40 A 4 cores x 8 mm2 (4 cores x AWG8) (Including grounding cable R8-5) R8-5 A HRS100-Al-40-l HRS100-Wl-40-l 3-phase 380 to
/150-A-20. 8-1 8.1.2 HRS100/150-A-40. 8-2 8.1.3 HRS100/150-A-46. 8-3 8.1.4 HRS100/150-W-20. 8-4 8.1.5 HRS100/150-W-40. 8-5 8.1.6 HRS100/150-W-46. 8-6 8.1.7 Refrigerant with GWP reference . 8-7 8.1.8 Communication specification . 8-7 8.2 Outline dimensions . 8-8 8.2.1 HRS100/150-A-20/40/46. 8-8 8.2.2 HRS100/150-W-20/40/46. 8-9 8.3 Flow diagram . 8-10 8.3.1 HRS100/150-A-20/40/46. 8-10 8.3.2
37.6 [Height 1585 x Width 1185 x Depth 955] HRS150-A -20 481 [218] HRS100-W -20 410 [186] Height 58.5 x Width 36.4 x Depth 37.6 [Height 1485 x Width 925 x Depth 955] HRS150-W -20 417 [189] HRS100-A -20-A 509 [231] Height 67.3 x Width 46.7 x Depth 37.6 [Height 1710 x Width 1185 x Depth 955] HRS150-A -20-A 522 [237] HRS100-W -20-A 452 [205] Height 63.4 x Width 36.4 x Depth 37.6 [Height 1610
Cooling Capacity: 100 (10 kW), Cooling Method: A (Air-cooled), Pipe Thread: N [NPT, (w/Rc-NPT conversion Fitting)], Option: AB (w/Caster Adjuster-foot and Earth Leakage Breaker)
Cooling Capacity: 10 kW, Cooling Method: Air-cooled, Pipe Thread: N [NPT, (w/Rc-NPT conversion Fitting)], Option: w/Caster Adjuster-foot and Earth Leakage Breaker
Applicable model -A -W HRSH100--20-S HRSH150--20-S HRSH200--20-S HRSH250--20-S HRSH300-A-20-S HEB HED HEA IDH 179 HRSH Series Optional Accessories q Piping Conversion Fitting This is a fitting to change the port from Rc to G or NPT.
Filter Rc3/8 20 m V V 5 Flow meter Rc1 V Prepare a flow meter with an appropriate flow range.
Power supply output VI: 20 [kVA] Q = P = V x I x Power factor In this example, using a power factor of 0.85: = 20 [kVA] x 0.85 = 17 [kW] Cooling capacity = Considering a safety factor of 20%, 17 [kW] x 1.2 = W Efficiency Q = P = In this example, using an efficiency of 0.7: 13 0.7 = = 18.6 [kW] Cooling capacity = Considering a safety factor of 20%, 18.6 [kW] x 1.2 = 22.3 [kW] 20.4 [kW] *1