Features
Innovative solution to help decrease global warming:
KOBELCO's inverter drive ammonia screw compressor
Under pressure to reduce global warming, manufacturers are phasing out the use of HCFC as a compressor refrigerant.Even HFC refrigerant, which does not destroy the ozone layer, is designated as a chemical substance subject to emission reduction.
As the disuse of HCFCs moves forward, KOBELCO, which developed the world's first inverter screw compressor, introduces the iZN Series of screw refrigeration compressors.
The iZN Series use natural refrigerant NH3 (ammonia), which does not contribute to global warming.KOBELCO's well-established inverter control technology yields energy savings, while accelerating RPM technology.The KOBELCO iZN Series offers not only excellent Coefficient of Performance (COP), but also eco-friendly operation.
Ammonia inverter screw compressor series
Model Name | Semi-hermetic type | Open type | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
iZN40W | iZN70W | iZN80W | iZN140W | iZN160W | iZN200 TUW/A |
iZN240 TUW/A |
iZN16TX Ⅱ-5A |
iZN20TX Ⅱ-3A |
iZN20TX Ⅱ-4A |
||
Moter ratings (kW) | 24 | 37 | 45 | 37×2 | 45×2 | 100 | 125 | 135 | 180 | 250 | |
Semi- Hermetic |
Condensing unit |
● | ● | ● | ● | ● | - | - | - | - | - |
Compressor unit |
● | ● | ● | ● | ● | ● | ● | - | - | - | |
Open | Compressor unit |
- | - | - | - | - | - | - | ● | ● | ● |
Full loader series
Model Name | Open type | ||
---|---|---|---|
SHN20TX Ⅱ-3A |
SHN20TX Ⅱ-4A |
||
Moter ratings (kW) | 220 | 315 | |
Semi-Hermetic | Condensing unit | - | - |
Compressor unit | - | - | |
Open | Compressor unit | ● | ● |
Kobelco's six big features.
1.Outstanding energy-saving performance by Kobelco inverter drive compressor
The iZN series can control its cooling capacity with its inverter drive linear speed control to avoid excessive cooling, thereby permitting outstanding energy-saving performance.
A piston valve used for capacity control has been replaced to inverter drive capacity control to ensure optimum operation in accordance with cooling capacity fluctuation.
2.Maximum 40% increase in cooling capacity by accelerating rotating speed of inverter drive
(Compared with KOBELCO conventional model in 50Hz area)
Conventional refrigeration compressor has been unavoidable to reduce cooling capacity significantly accompany with evaporating temperature drops.Accelerating motor speed technology with inverter drive (Patent registered) enable iZN series increase its cooling capacity at lower temperature than -30°C.
The iZN series can perform equally in both of 50Hz and 60Hz area, which is a big merit for 50Hz area users where 20% less performance than 60Hz area has been unavoidable.Those functions enable to select smaller compressor than before.
iZN Series motor speed accelerates accompany with evaporating temperature drop.
3.New iZ monitor with various functions for quick and advance trouble shooting
The New iZ monitor indicates compressor running conditions, various alarms and those histories.It also stops the compressor automatically in an emergency.
- Alternative running applications
Alternative linear capacity control or step capacity control can be selected to meet clients' requirements. - Suction pressure / Remote temperature capacity control
Linear capacity control with originally equipped suction pressure sensor and also optionally installed temperature sensor (Supplied by user) at freezing site are available. - Additional indication
Super heat is added to monitor compressor conditions more clearly. - Linear capacity control
Linear capacity control mode enables automatic stepless changing of the rotating speed, with targeted values set for suction pressure and inside temperature.
Control is possible even with input of a 4-20mA DC signal from the sensor. - Step control
Capacity step control function is also equipped with iZ monitor.Its setting value is available to change flexibly.
Compressor protective functions
- Discharge temperature
- Oil pressure differential
- Discharge pressure
- Over current
- Motor temperature
4.Merits of motor start-up by inverter drive
Smooth motor startup by inveter drive eliminates inrush current and hot start
The effect of an inverter drive can be found when starting up a compressor, since conventional star-delta start-up induces inrush current and requires an approx 10-minute interval before restarting.Thanks to an inverter that allows smooth starting, the iZN series can restart quickly without any interval.The smooth starting mechanism permits the compressor to stop even when conventional conditions for interruption are not allowed.This mechanism enables more effective energy savings and downsizing of the power facility.
5.Multiple effects created by economizer and inverter drive harmony
The iZN series is equipped with an economizer regulate and control rotating speed at the 1st and 2nd stage of the inverter drive.If the 1st and 2nd stages do not change their rotating speed, economizer cannot perform properly because of pressure unbalance among the 1st , middle and 2nd stages.The iZN series can control rotating speed flexibly and perfectly to supply the best performance.
6.Ammonia resistant motor with aluminum coil
* Semi-hermetic type only
What is a multiple compressor driving system?
A multiple compressor driving system can be implemented when a user needs the full capacity of two or more compressors.In this system, the compressors have similar freezing capacities.
- Inverter drive model No.1, serving as the capacity controller, starts running.
- When the freezing capacity of model No.1 exceeds 100%, full load model No.2 starts running.
- When the freezing capacities of models No.1 and No.2 are more than 200%, full load model No.3 starts running.
Compressors No.2 and No.3 may start in any order.In other words, after compressor No.1 reaches full capacity, compressor No.3 may start first, followed by compressor No.2.
Compressor Models | Capacity Control |
---|---|
Inverter Drive Model | 0-100% |
Full Load Model | 100% only* |
* Full Load Model has no capacity control devices with it.
Specification
Semi-hermetic type (24 to 125kW motor rating compressor and racks)
Condensing unit standard specifications (-30 to -50°C)
Unit type
Item
|
iZN40W | iZN70W | iZN80W | iZN140W | iZN160W | ||
---|---|---|---|---|---|---|---|
Frequency | 50/60Hz | ||||||
Refrigerant | NH3 | ||||||
Power source | Motor: 380V(Other voltages available), 3 phase Control circuit: 200 to 230V, 1 phase |
||||||
Number of compressors | 1 Unit | 2 Units | |||||
Capacity control*1*2*3 | Continuous control mode or step control mode (3 steps: 50%, 75% and 100%) | ||||||
Motor | Nominal output (kW) | 24 | 37 | 45 | 37×2 | 45×2 | |
Type | Water-cooled semi-hermetic induction type | ||||||
Starting method | Inverter | ||||||
Condenser | Type | Horizontal shell and tube (serving also as a receiver) | |||||
Receiver capacity (ℓ) | 46 | 32 | 41 | 144 | 122 | ||
Refrigerant spatial volume (ℓ) | 115 | 129 | 172 | 340 | 305 | ||
Connections | Refrigerant gas inlet | 50A | 80A | 80A | 80A×2 | 80A×2 | |
Refrigerant liquid outlet | 15A | 15A | 20A | 25A | 25A | ||
Refrigerant liquid inlet/outlet | Condenser | Rc2 | Rc3 | Rc3 | 100A | 100A | |
Oil cooler | Rc1 | Rc1 | Rc1 | Rc1×2 | Rc1×2 | ||
Motor | Rc1 | Rc1 | Rc1 | Rc1×2 | Rc1×2 | ||
Lubricating oil (ℓ)*4 | 14 | 21 | 29 | 29 | 41 | ||
Noise dB(A)*5 | 73 | 75 | 75 | 78 | 78 | ||
Dimensions W×D×H (mm) |
2115× 1135× 1380 |
2215× 1200× 1445 |
2235× 1285× 1455 |
3130× 1910× 1615 |
3130× 1910× 1615 |
||
Weight (kg) | 973 | 1309 | 1493 | 2848 | 3112 |
Compressor unit standard specifications (-30 to -50°C)
Unit type
Item
|
iZN40TUW | iZN70TUW | iZN80TUW | iZN140TUW | iZN160TUW | iZN200TUW/A | iZN240TUW/A | ||
---|---|---|---|---|---|---|---|---|---|
Frequency | 50/60Hz | ||||||||
Refrigerant | NH3 | ||||||||
Power source | Motor: 380V (Other voltages available), 3 phase Control circuit: 200 to 230V, 1 phase |
||||||||
Number of compressors | 1 Unit | 2 Units | 1 Unit | ||||||
Capacity control*1*2*3 | Continuous control mode or step control mode (3 steps: 50%, 75% and 100%) | ||||||||
Motor | Nominal output (kW) | 24 | 37 | 45 | 37×2 | 45×2 | 100 | 125 | |
Type | Water-cooled semi-hermetic induction type | Refrigerant liquid injection type | |||||||
Starting method | Inverter | ||||||||
Connections | Refrigerant gas inlet | 50A | 80A | 80A | 80A×2 | 80A×2 | 125A | 125A | |
Refrigerant gas outlet | 25A | 32A | 40A | 50A | 50A | 65A | 65A | ||
Refrigerant liquid inlet | 15A | 25A | 25A | 25A×2 | 25A×2 | 25A | 25A | ||
Refrigerant liquid outlet | 15A | 15A | 20A | 25A | 25A | 25A | 25A | ||
Refrigerant liquid inlet/outlet |
Oil cooler | Rc1 | Rc1 | Rc1 | Rc1×2 | Rc1×2 | Rc2/25A | Rc2/25A | |
Motor | Rc1 | Rc1 | Rc1 | Rc1×2 | Rc1×2 | - | - | ||
Lubricating oil (ℓ)*4 | 14 | 21 | 29 | 29 | 41 | 65 | 80 | ||
Noise dB(A)*5 | 73 | 75 | 75 | 78 | 78 | 86 | 90 | ||
Dimensions W×D×H (mm) |
1485× 1135× 1385 |
1660× 1190× 1450 |
1685× 1260× 1450 |
2684× 2000× 1615 |
2684× 2000× 1615 |
2540× 1405/1480× 1640 |
2605× 1445/1500× 1640 |
||
Weight (kg) | 822 | 1038 | 1136 | 2500 | 2700 | 2393/2406 | 2509/2522 |
*2: Requested to enter proper signal due to selected running mode.
*3: Partial loading value for step control can be flexibly changed.
*4: Oil quantity is minimum charge only for compressor unit.Actual oil quantity for whole of the plant (system) should be determined at the site referring the oil level of sight glasses during compressor running.
Charge oil on site and replenish when the level gets lower than requested.Use specified refrigeration machine oil (Supplied by user).
*5: Noise level (Scale A) indicates the values measured at 1 meter away from the compressor and 1 meter above from the floor level when the suction pressure saturated temperature is -40°C and without any echo influence.In the actual installed conditions the noise level maybe different from indicated value because of the influence of surrounding noise and echo.
* : Noise control and harmonic suppression measurement should be taken as necessary according to respective guidelines.
* : Electric power for control circuit is requested users to supply.
Cooling capacity / Power consumption (kW)
CT (°C) |
ET (°C) |
iZN40W/TUW | iZN70W/TUW | iZN80W/TUW | iZN140W/TUW | iZN160W/TUW | iZN200TUW/A | iZN240TUW/A | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
Qo (kW) |
Pw (kW) |
||
35 | -30 | 50.5 | 26.5 | 81.7 | 40.1 | 97.6 | 47.9 | 163.4 | 80.2 | 195.2 | 95.8 | 220.8 | 107.2 | 259.8 | 126.1 |
-35 | 43.1 | 26.2 | 70.4 | 40.0 | 84.2 | 47.8 | 140.8 | 80.0 | 168.4 | 95.6 | 201.6 | 107.4 | 237.2 | 126.4 | |
-40 | 35.4 | 25.7 | 57.3 | 39.1 | 68.7 | 46.9 | 114.6 | 78.2 | 137.4 | 93.8 | 175.1 | 104.6 | 206.0 | 123.1 | |
-45 | 27.7 | 24.9 | 45.0 | 38.1 | 53.9 | 45.6 | 90.0 | 76.2 | 107.8 | 91.2 | 135.9 | 98.3 | 159.9 | 115.7 | |
-50 | 21.0 | 24.0 | 34.3 | 36.8 | 39.6 | 42.5 | 68.6 | 73.6 | 79.2 | 85.0 | 101.5 | 88.8 | 119.4 | 104.5 | |
40 | -30 | 50.0 | 28.1 | 80.9 | 42.5 | 96.6 | 50.7 | 161.8 | 85.0 | 193.2 | 101.4 | 218.4 | 111.5 | 256.9 | 131.2 |
-35 | 42.4 | 27.7 | 69.3 | 42.3 | 82.9 | 50.6 | 138.6 | 84.6 | 165.8 | 101.2 | 199.5 | 112.8 | 234.8 | 132.7 | |
-40 | 34.7 | 27.2 | 56.2 | 41.4 | 67.3 | 49.6 | 112.4 | 82.8 | 134.6 | 99.2 | 173.2 | 111.1 | 203.8 | 130.7 | |
-45 | 27.1 | 26.4 | 44.1 | 40.4 | 52.8 | 48.3 | 88.2 | 80.8 | 105.6 | 96.6 | 134.3 | 105.1 | 158.0 | 123.7 | |
-50 | 20.6 | 25.7 | 33.6 | 39.4 | 38.8 | 45.5 | 67.2 | 78.8 | 77.6 | 91.0 | 100.2 | 95.8 | 117.9 | 112.7 |
Open type
Compressor unit standard specifications (-30 to -50°C)
Unit type
Item
|
Inverter Drive Model | Full Load Model | |||||
---|---|---|---|---|---|---|---|
iZN16TXⅡ-5A | iZN20TXⅡ-3A | iZN20TXⅡ-4A | SHN20TXⅡ-3A | SHN20TXⅡ-4A | |||
Frequency | 50/60Hz | ||||||
Refrigerant | NH3 | ||||||
Power source | Motor: 380V (Other voltages available), 3 phase Control circuit: 200 to 230V, 2 phase |
||||||
Number of compressors | 1 Unit | ||||||
Capacity control*1*2*3 | Continuous or step control model | Full load model | |||||
Motor | Nominal output (kW) | 135 | 180 | 250 | 220 | 315 | |
Type | TEFC Mo.(IP54) | ||||||
Starting method | Inverter | Soft starter / Reactor start (supplied by user) |
|||||
Connections | Refrigerant gas inlet | 125A | 200A | 200A | 200A | 200A | |
Refrigerant gas outlet | 65A | 100A | 100A | 100A | 100A | ||
Refrigerant liquid inlet | 20A | 25A | 25A | 25A | 25A | ||
Refrigerant liquid outlet | 20A | 25A | 25A | 25A | 25A | ||
Refrigerant liquid inlet/outlet |
Oil cooler | Rc2 | Rc4 | Rc4 | Rc4 | Rc4 | |
Motor | - | - | - | - | - | ||
Lubricating oil (ℓ)*4 | 65 | 140 | 240 | 140 | 240 | ||
Noise dB(A)*5 | 90 | 88 | 90 | 88 | 90 | ||
Dimensions W×D×H (mm) |
3570×1280×1680 | 4305×1540×2000 | 4390×1540×2000 | ||||
Weight (kg) | 3485 | 4400 | 5375 | 4500 | 5500 |
*2: Requested to enter proper signal due to selected running mode.
*3: Partial loading value for step control can be flexibly changed.
*4: Oil quantity is minimum charge only for compressor unit.Actual oil quantity for whole of the plant (system) should be determined at the site referring the oil level of sight glasses during compressor running.Charge oil on site and replenish when the level gets lower than requested.Use specified refrigeration machine oil (Supplied by user).
*5: Noise level (Scale A) indicates the values measured at 1 meter away from the compressor and 1 meter above from the floor level when the suction pressure saturated temperature is -40°C and without any echo influence.In the actual installed conditions the noise level maybe different from indicated value because of the influence of surrounding noise and echo.
* : Noise control and harmonic suppression measurement should be taken as necessary according to respective guidelines.
* : Electric power for control circuit is requested users to supply.
* : *1 to 3 of the above are applied only to inverter model.
Cooling capacity / Power consumption / [Shaft] (kW)
CT (°C) |
Pw (°C) |
iZN 16TXⅡ-5A | iZN 20TXⅡ-3A | iZN 20TXⅡ-4A | SHN 20TXⅡ-3A | SHN 20TXⅡ-4A | |||||
---|---|---|---|---|---|---|---|---|---|---|---|
Qo (kW) | Pw (kW) | Qo (kW) | Pw (kW) | Qo (kW) | Pw (kW) | Qo (kW) | Pw (kW) | Qo (kW) | Pw (kW) | ||
35 | -30 | 249.7 | 113.3 | 344.9 | 140.8 | 516.8 | 208.9 | 409.7 | 167.3 | 629.0 | 254.3 |
-35 | 231.0 | 114.3 | 300.6 | 141.0 | 450.2 | 209.0 | 324.0 | 152.0 | 497.5 | 231.0 | |
-40 | 203.7 | 114.3 | 251.2 | 142.1 | 376.6 | 210.9 | 252.0 | 142.6 | 387.2 | 216.9 | |
-45 | 159.1 | 102.7 | 202.4 | 139.9 | 303.6 | 207.7 | 192.4 | 133.0 | 295.6 | 202.3 | |
-50 | 118.3 | 90.0 | 150.9 | 132.0 | 226.5 | 196.1 | 143.5 | 125.4 | 220.6 | 191.0 | |
40 | -30 | 246.3 | 121.8 | 344.4 | 153.4 | 516.0 | 227.6 | 409.1 | 182.3 | 628.0 | 277.1 |
-35 | 227.2 | 123.7 | 299.9 | 153.3 | 449.2 | 227.3 | 323.3 | 165.3 | 496.5 | 251.2 | |
-40 | 200.1 | 123.1 | 250.5 | 155.2 | 375.5 | 230.4 | 251.4 | 155.8 | 386.1 | 236.9 | |
-45 | 156.3 | 110.9 | 201.7 | 153.4 | 302.5 | 227.8 | 191.8 | 145.8 | 294.6 | 221.8 | |
-50 | 116.0 | 97.6 | 150.2 | 145.6 | 225.5 | 216.3 | 142.8 | 138.3 | 219.6 | 210.6 |