Our Product / Services
Most manufacturing units and processes use hydraulics based machinery. These machinery make use of hydraulic oils of varying densities which heat up periodically during the course of the manufacturing process. However, having the oil heat up causes it to lose some of its characteristic properties and renders it useless for the process. In order to increase the shelf life of hydraulic oil and the machinery that it belongs to, it is important to regulate the temperature of the oil and constantly cool it. This is achieved with the aid of hydraulic chillers which are usually connected directly to the oil supply and in-built pumps. The heated oil is circulated through the chiller circuit and its temperature is thus controlled. Werner Finley’s Chillers are built with internal gear pumps and plate heat exchangers for this application. These ensure higher cooling efficiencies and lower noise levels. These can be utilized for processes using oils of viscosities ranging from 32-68 CST.
Werner Finley’s Screw chillers are distributed under two series, broadly categorised based on cooling media i.e. Air-Cooled or Water – Cooled, the water quality used for the process and the ambient temperatures under which they are made to operate. All these chillers are made to be compatible for both indoor and outdoor installation. Screw chillers are available starting from 40TR and above. Werner Finley offers a bare chiller option wherein the water reservoir and pump are absent. In a package chiller there can be 2 skids; one for the chiller and one for the tank and pump. This option is customised based on the client’s availability of space.
Screw chillers contain single or two compressor circuit redundancy options depending on the capacity. Screw chillers are designed to work for varying load. Two types of compressor systems are available based on the nature of loads i.e STEP CONTROLL & STEPLESS CONTROLL. STEP CONTROLL Compressors work for step loads i.e 25%, 50%, 75% & 100%, whereas STEPLESS CONTROLL Compressors work for infinite loads i.e anywhere in-between 25% to 100%. Each chiller comes with a dedicated microprocessor or PLC-based chiller controllers which determine the number of compressors to run based on the amount of heat load. Due to these features, the Air Cooled Screw Chillers are energy efficient and offer redundancy based on the criticality of the application.
Soft start enhances motor start performance in many ways including:
The extra features built into soft starters can reduce the overall installed cost of the equipment and reduce the long-term maintenance requirement.
Trained Service Engineers
Werner Finley’s Water Cooled Scroll Chillers are built with shell and tube condenser and evaporators which ensure high efficiencies and trouble-free operation. Redundancy models are made available in chillers of capacities 10 TR and upwards. Like the Air Cooled chillers, these come with two/three/four compressors that aid in energy efficient operation and equal aging of its components. These also come with microprocessor or PLC-based chiller controllers of reputed make. The chillers within this series are supplied without an integrated pump and tank, but these can be selected from Werner Finley’s standard list if required and installed on-site. The I WAT scroll chiller uses R 407C refrigerant while the I CAT uses R 134a, and customers may choose between the two based on their requirements. Both types of chillers can be installed either indoors or outdoors and their electrical cabinets are IP 55 rated. They find applications in the fields of pharmaceuticals, chemicals, automobile, brewery, food and beverages and electro plating. Like the Air Cooled chillers, these too come with a list of customisation options like condenser water flow regulator, flow switch or indicator, solenoid valves, pressure relief valves, remote control panel, online water filter and many more.
Design Inputs from Customer
Werner Finley’s air cooled scroll chillers are distributed over four series, broadly categorised based on the water quality used for the process and the ambient temperatures under which they are made to operate. All these chillers are made to be compatible for both indoor and outdoor installation. In those chillers having capacities of 15 TR and more, Werner Finley offers a bare chiller option wherein the water reservoir and pump are absent. In a package chiller there can be 2 skids; one for the chiller and one for the tank and pump. This option is customised based on the client’s availability of space.
Scroll chillers starting at capacities of 10 TR contain single or two compressor circuit redundancy options. When a product contains a two/three/four compressor, it is indicative of their own independent refrigerant circuits that function in succession, which further ensures redundancy of the unit and longevity of the circuit. Each chiller comes with a dedicated microprocessor or PLC-based chiller controllers which determine the number of compressors to run based on the amount of heat load. Due to these features, the Air Cooled Scroll Chillers are energy efficient and offer redundancy based on the criticality of the application.
We are instrumental in providing clients high performing Coolant Chiller that is highly appreciated by clients worldwide. The Coolant Chiller range comes with complete packaged closed loop systems including all the components such as compressor, condenser, condenser fan, evaporator, evaporator fan, expansion valve, accumulator, the necessary refrigeration controls and accessories. The Coolant Chiller range offered by us works in tandem with a Filtration system that assists in delivering clean and cool coolant at constant temperature to the machining process.
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Specifications (I DIP )
Sl_no. | Product | Series | Model_No. | Rated cooling_capacity | Refrigerant | Operating temp_deg C | Cooling cap._Kcal/h | Condensor | No.of_ref ckt | Compressor | Media | Power_supply | Std flow_rate in LPM | Std Pressure_in bar | Total_power in KW | Total_current in amps | Overall Dimension(H*W*D) |
1 | CCIM | I merse | WFCI3TAY | 3000 | R 134A | 25 - 30 | 3000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 1.12 | 2.57 | (675+540)*590*600 |
2 | CCIM | I merse | WFCI3TAY | 3000 | R 134A | 25 - 30 | 3000 | AC | 1 | R | Coolant | 1 PH, 50 HZ | NA | NA | 1.3 | 6.1 | (675+540)*590*600 |
3 | CCIM | I merse | WFCI6TBY | 6000 | R 407C | 25 - 30 | 6000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 2.36 | 4.69 | (900+380)*580*680 |
4 | CCIM | I merse | WFCI6TCY | 6000 | R 22 | 25 - 30 | 6000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 2.53 | 4.85 | (900+380)*580*680 |
5 | CCIM | I merse | WFCI9TBY | 9000 | R 407C | 25 - 30 | 9000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 3.92 | 8.78 | (1100+330)*850*900 |
6 | CCIM | I merse | WFCI9TCY | 9000 | R 22 | 25 - 30 | 9000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 3.92 | 8.78 | (1100+330)*850*900 |
7 | CCIM | I merse | WFCI15TBY | 15000 | R 407C | 25 - 30 | 15000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 4.85 | 10.93 | (1200+550)*1000*1000 |
8 | CCIM | I merse | WFCI15TCY | 15000 | R 22 | 25 - 30 | 15000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | NA | NA | 6.94 | 12.55 | (1200+550)*1000*1000 |
Specifications (I SAT )
Sl_no. | Product | Series | Model no. | Rated cooling capacity | Refrigerant | Operating temp deg C | Cooling cap. Kcal/h | Condensor | No.of_ref ckt | Compressor | Media | Power_supply | Std_flow rate_in_LPM | Std Pressure in bar | Total power_in KW | Total current_in amps | Inlet/outlet dia | Overall Dimension(H*W*D) |
1 | CCST | I sat | WFCS3TAY | 3000 | R 134A | 20 - 30 | 3000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 15 lpm | 2.5 bar | 1.7 | 3.66 | 3/4" BSP | 1250*600*600 |
2 | CCST | I sat | WFCS3TAY | 3000 | R 134A | 20 - 30 | 3000 | AC | 1 | R | Coolant | 1 PH, 50 HZ | 15 lpm | 2.5 bar | 2 | 9 | 1" BSP | 1250*600*600 |
3 | CCST | I sat | WFCS6TBY | 6000 | R 407C | 20 - 30 | 6000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 30 lpm | 2.5 bar | 3.45 | 6.38 | 1" BSP | 1200*850*750 |
4 | CCST | I sat | WFCS6TCY | 6000 | R 22 | 20 - 30 | 6000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 30 lpm | 2.5 bar | 3.41 | 6.45 | 1" BSP | 1200*850*750 |
5 | CCST | I sat | WFCS9TBY | 9000 | R 407C | 20 - 30 | 9000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 45 lpm | 2.5 bar | 5.15 | 9.68 | 1" BSP | 1450*800*800 |
6 | CCST | I sat | WFCS9TCY | 9000 | R 22 | 20 - 30 | 9000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 45 lpm | 2.5 bar | 4.72 | 9.01 | 1" BSP | 1450*800*800 |
7 | CCST | I sat | WFCS15TBY | 15000 | R 407C | 20 - 30 | 15000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 60 lpm | 2.5 bar | 9.27 | 14.5 | 1" BSP | 1300*1000*1200 |
8 | CCST | I sat | WFCS15TCY | 15000 | R 22 | 20 - 30 | 15000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 60 lpm | 2.5 bar | 8.1 | 15 | 1" BSP | 1300*1000*1200 |
9 | CCST | I sat | WFCS18TBY | 18000 | R 407C | 20 - 30 | 18000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 75 lpm | 2.5 bar | 9.5 | 14.5 | 1-1/4"BSP | 1300*1000*1400 |
10 | CCST | I sat | WFCS18TCY | 18000 | R 22 | 20 - 30 | 18000 | AC | 1 | R | Coolant | 3 PH, 50 HZ | 75 lpm | 2.5 bar | 9.2 | 15 | 1-1/4"BSP | 1300*1000*1400 |
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Specifications
Sl_no. | Product | Series | Model_no. | Rated_cooling capacity | Refrigerant | Operating_temp deg C | Cooling_cap. Kcal/h | Condensor | Media_ | Power_supply | No. of_ref ckt | Compressor | Std flow_rate in LPM | Std Pressure in bar | Reservoir volume | Total power_in KW | Total current_in amps | Inlet/outlet dia. | Overall Dimension(H*W*D) |
1 | WC | I chill | WFW C9HAX | 900 | R 134A | 15 | 900 | AC | DI water | 1 PH, 50 HZ | 1 | R | 10 lpm | 4 bar | 20 | 1.1 | 8 | 1/2" BSP | 950*550*550 |
2 | WC | I chill | WFWC 14HAX | 1400 | R 134A | 15 | 1400 | AC | DI water | 1 PH, 50 HZ | 1 | R | 10 lpm | 4 bar | 25 | 1.6 | 8.8 | 1/2" BSP | 900*550*550 |
3 | WC | I chill | WFWC 3TAY | 3000 | R 134A | 15 | 3000 | AC | DI water | 1 PH, 50 HZ | 1 | R | 15 lpm | 4 bar | 50 | 2.1 | 9.5 | 1"BSP | 1150*650*650 |
4 | WC | I chill | WFWC 3TAY | 3000 | R 134A | 15 | 3000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 15 lpm | 4 bar | 50 | 3.42 | 6.2 | 1"BSP | 1150*650*650 |
5 | WC | I con | WFWC 6TCX | 6000 | R 22 | 15 | 6000 | AC | DI water | 1 PH, 50 HZ | 1 | R | 25 lpm | 5 bar | 100 | 3.35 | 17.3 | 1"BSP | 1300*850*750 |
6 | WC | I con | WFWC 6TBY | 6000 | R 407C | 15 | 6000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 25 lpm | 5 bar | 100 | 4.3 | 8 | 1"BSP | 1300*850*750 |
7 | WC | I con | WFWC 6TCY & Pump 1Ph | 6000 | R 22 | 15 | 6000 | AC | DI water | 3+1 PH, 50 HZ | 1 | R | 25 lpm | 5 bar | 100 | 3.43 | 8.63 | 1"BSP | 1300*850*750 |
8 | WC | I con | WFWC 6TCY | 6000 | R 22 | 15 | 6000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 25 lpm | 5 bar | 100 | 3.43 | 6.28 | 1"BSP | 1300*850*750 |
9 | WC | I con | WFWC 9TBY | 9000 | R 407C | 15 | 9000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 40 lpm | 5 bar | 150 | 4.63 | 8.38 | 1"BSP | 1450*900*900 |
10 | WC | I con | WFWC 9TCY | 9000 | R 22 | 15 | 9000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 40 lpm | 5 bar | 150 | 5.07 | 9.25 | 1"BSP | 1450*900*900 |
11 | WC | I con | WFWC 15TBY | 15000 | R 407C | 15 | 15000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 60 lpm | 5 bar | 250 | 8.1 | 14.2 | 1"BSP | 1650*1050*1000 |
12 | WC | I con | WFWC 15TCY | 15000 | R 22 | 15 | 15000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 60 lpm | 5 bar | 250 | 8.3 | 14.6 | 1"BSP | 1650*1050*1000 |
13 | WC | I con | WFWC 18TBY | 18000 | R 407C | 15 | 18000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 75 lpm | 5 bar | 300 | 7.75 | 14.06 | 1-1/4" BSP | 1550*1250*1000 |
14 | WC | I con | WFWC 18TCY | 18000 | R 22 | 15 | 18000 | AC | DI water | 3 PH, 50 HZ | 1 | R | 75 lpm | 5 bar | 300 | 7.82 | 14.16 | 1-1/4" BSP | 1550*1250*1000 |
15 | WC | I max | WFWC 23TBY | 22500 | R 407C | 15 | 22500 | AC | DI water | 3 PH, 50 HZ | 2 | R | 90 lpm | 5 bar | 375 | 9.63 | 19.45 | 1-1/4" BSP | 1550*1500*1000 |
16 | WC | I max | WFWC 23TCY | 22500 | R 22 | 15 | 22500 | AC | DI water | 3 PH, 50 HZ | 2 | R | 90 lpm | 5 bar | 375 | 9 | 18 | 1-1/4" BSP | 1550*1500*1000 |
17 | WC | I max | WFWC 30TBY | 30000 | R 407C | 15 | 30000 | AC | DI water | 3 PH, 50 HZ | 2 | R | 120 lpm | 5 bar | 500 | 14.06 | 25.73 | 1-1/4" BSP | 1600*1500*1200 |
18 | WC | I max | WFWC 30TCY | 30000 | R 22 | 15 | 30000 | AC | DI water | 3 PH, 50 HZ | 2 | R | 120 lpm | 5 bar | 500 | 14.06 | 25.73 | 1-1/4" BSP | 1600*1500*1200 |
19 | WC | I max | WFWC 45TBY | 45000 | R 407C | 15 | 45000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 150 lpm | 5 bar | 750 | 22.66 | 43.36 | 1-1/2" BSP | 1900*1800*1600 |
20 | WC | I max | WFWC 45TCY | 45000 | R 22 | 15 | 45000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 150 lpm | 5 bar | 750 | 18.88 | 37 | 1-1/2" BSP | 1900*1800*1600 |
21 | WC | I max | WFWC 60TBY | 60000 | R 407C | 15 | 60000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 200 lpm | 5 bar | 1000 | 25.06 | 47.3 | 1-1/2" BSP | 2150*1600*1800 |
22 | WC | I max | WFWC 60TCY | 60000 | R 22 | 15 | 60000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 200 lpm | 5 bar | 1000 | 21.41 | 42.52 | 1-1/2" BSP | 2150*1600*1800 |
23 | WC | I max | WFWC 75TBY | 75000 | R 407C | 15 | 75000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 250 lpm | 5 bar | 1250 | 31.43 | 60.95 | 2-1/2" FLANGE | 2100*2300*1800 |
24 | WC | I max | WFWC 75TCY | 75000 | R 22 | 15 | 75000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 250 lpm | 5 bar | 1250 | 27.67 | 53.54 | 2-1/2" FLANGE | 2100*2300*1800 |
25 | WC | I max | WFWC 90TBY | 90000 | R 407C | 15 | 90000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 300 lpm | 5 bar | 1500 | 41.07 | 75.26 | 2-1/2" FLANGE | 2150*2300*1700 |
26 | WC | I max | WFWC 90TCY | 90000 | R 22 | 15 | 90000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 300 lpm | 5 bar | 1500 | 41.07 | 75.26 | 2-1/2" FLANGE | 2150*2300*1700 |
27 | WC | I max | WFWC 120TBY | 1200000 | R 407C | 15 | 120000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 400 lpm | 5 bar | 2000 | 51.26 | 98.3 | 2-1/2" FLANGE | 2200*3050*1800 |
28 | WC | I max | WFWC 120TCY | 1200000 | R 22 | 15 | 120000 | AC | DI water | 3 PH, 50 HZ | 2 | S | 400 lpm | 5 bar | 2000 | 51.26 | 98.3 | 2-1/2" FLANGE | 2200*3050*180 |
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Over three decades of being part of the process cooling industry, Werner Finley has designed and built cooling systems and components that avoid excess energy consumption, thus cutting down operating expenses for the buyers who use our products. A normal chiller would operate based on the fluctuations of media temperature- turning on when its temperature crosses the set point and turning off when it drops below the set point. Due to this, chillers tend to undergo a large number of on-off cycles during the manufacturing process, even when not needed at times. In order to avoid excess cycles and save energy, Werner Finley has created energy-efficient chillers adopting technologies which assess the amount of heat in the machine at regular, pre-set intervals, thus reducing the number of on-off cycles drastically. It is possible to save up to 30% of the energy normally consumed by replacing conventional chillers with energy efficient variants.
An energy-efficient cooler is composed of a highly sensitive compressor of either VFD or digital scroll technology, an electronic expansion valve, a fan speed controller and a chiller controller. It requires these control units in order to fine-tune the process and ensure that energy is consumed sustainably. VFD-based compressors function at varying capacities from 30-110%, controlled by parameters like fluid temperatures or refrigerant pressures. Werner Finley makes use of Copeland Digital Scroll™ compressors which provide capacity modulation from 10-100% of full load capacity. A chiller that uses digital scrolls is seen to save 30-32% in power consumption compared to normal scroll, and so is a better investment when applications call for variable load conditions. They also provide greater temperature stability, showing deviations of only +/- 0.5°C. Electronic expansion valves are installed within these chillers to maintain a desired superheat regardless of changing conditions and to control the refrigerant anywhere within the system. Fan speed controllers regulate temperature and refrigerating systems, thereby minimizing power wastage.
Werner Finley’s Energy Efficient Chillers find applications in medical, data centre, induction welding, food processing and lamination industries.
We offer high quality Hydraulic Oil Chiller that is integrated with refrigeration components including the compressor, condenser, evaporator, refrigeration pipes, oil pump and electric panel. The Hydraulic Oil Chiller offered by us maintains the oil temperature to precise temperature levels and thereby maintains uniform physical and chemical properties of the oil in operation.
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Sl_no. | Product | Series | Model no. | Rated_cooling capacity | Refrigerant | Operating temp deg C | Cooling cap. Kcal/h | _Media_ | Power_supply | No of ref ckt | COMPRESSOR | Std flow rate in LPM | Std Pressure in bar | Total power in KW | Total current in amps | Inlet/outlet dia | Overall Dimension(H*W*D) |
1 | HOC | I hoc | WFHC3TAY | 3000 | R 134A | 30 - 35 | 3000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 15 lpm | 2.5 bar | 2.24 | 5.32 | 3/4" BSP | 1000*650*650 |
2 | HOC | I hoc | WFHC3TAY | 3000 | R 134A | 30 - 35 | 3000 | Hyd Oil CST 46 | 1 PH, 50 HZ | 1 | R | 15 lpm | 2.5 bar | 2 | 8 | 3/4" BSP | 1000*650*650 |
3 | HOC | I hoc | WFHC6TBY | 6000 | R 407C | 30 - 35 | 6000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 30 lpm | 2.5 bar | 4.09 | 8.26 | 1" BSP | 1200*700*700 |
4 | HOC | I hoc | WFHC6TCY | 6000 | R 22 | 30 - 35 | 6000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 30 lpm | 2.5 bar | 3.34 | 6.75 | 1" BSP | 1200*700*700 |
5 | HOC | I hoc | WFHC9TBY | 9000 | R 407C | 30 - 35 | 9000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 45 lpm | 2.5 bar | 4.29 | 8.55 | 1" BSP | 1200*900*850 |
6 | HOC | I hoc | WFHC9TCY | 9000 | R 22 | 30 - 35 | 9000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 45 lpm | 2.5 bar | 4.29 | 8.55 | 1" BSP | 1200*900*850 |
7 | HOC | I hoc | WFHC15TBY | 15000 | R 407C | 30 - 35 | 15000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 60 lpm | 2.5 bar | 8.85 | 8.55 | 1" BSP | 1400*1000*1000 |
8 | HOC | I hoc | WFHC15TCY | 15000 | R 22 | 30 - 35 | 15000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 60 lpm | 2.5 bar | 8.85 | 16.5 | 1" BSP | 1400*1000*1000 |
9 | HOC | I hoc | WFHC18TBY | 18000 | R 407C | 30 - 35 | 18000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 75 lpm | 2.5 bar | 8.08 | 15.09 | 1" BSP | 1400*1150*1000 |
10 | HOC | I hoc | WFHC18TCY | 18000 | R 22 | 30 - 35 | 18000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | R | 75 lpm | 2.5 bar | 8.28 | 15.03 | 1" BSP | 1400*1150*1000 |
11 | HOC | I hoc | WFHC23TBY | 22500 | R 407C | 30 - 35 | 22500 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 100 lpm | 2.5 bar | 6.95 | 13.8 | 1-1/4" BSP | 1400*1500*900 |
12 | HOC | I hoc | WFHC23TCY | 22500 | R 22 | 30 - 35 | 22500 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 100 lpm | 2.5 bar | 6.95 | 13.8 | 1-1/4" BSP | 1400*1500*900 |
13 | HOC | I hoc | WFHC30TBY | 30000 | R 407C | 30 - 35 | 30000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 120 lpm | 2.5 bar | 11.5 | 21.92 | 1-1/4" BSP | 1500*1500*1050 |
14 | HOC | I hoc | WFHC30TCY | 30000 | R 22 | 30 - 35 | 30000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 120 lpm | 2.5 bar | 11.5 | 21.92 | 1-1/4" BSP | 1500*1500*1050 |
15 | HOC | I hoc | WFHC45TBY | 45000 | R 407C | 30 - 35 | 45000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 150 lpm | 2.5 bar | 15.82 | 32.08 | 1-1/4" BSP | 1500*2150*1100 |
16 | HOC | I hoc | WFHC45TCY | 45000 | R 22 | 30 - 35 | 45000 | Hyd Oil CST 46 | 3 PH, 50 HZ | 1 | S | 150 lpm | 2.5 bar | 15.82 | 32.08 | 1-1/4" BSP | 1500*2150*1100 |
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