Product Description
| R22 50HZ | SPEC. | |||||
| Model | Power(HP) | Displacement(m³/h) | ARI | Weight(KG) | Height(MM) (Including shock-absorbing strap) | |
| Capacity(W) | Input Power(W) | |||||
| One-Phase(220V-240V) | ||||||
| ZR28K3-PFJ | 2.33 | 6.83 | 6900 | 2520 | 26 | 383 |
| ZR34K3-PFJ | 2.83 | 8.02 | 8200 | 2540 | 29 | 406 |
| ZR34KH-PFJ | 2.83 | 8.02 | 8200 | 2540 | 29 | 406 |
| ZR36K3-PFJ | 3 | 8.61 | 8900 | 2730 | 29 | 406 |
| ZR36KH-PFJ | 3 | 8.61 | 8900 | 2730 | 29 | 406 |
| ZR42K3-PFJ | 3.5 | 9.94 | 15710 | 3140 | 30 | 419 |
| ZR47K3-PFJ | 3.92 | 11.02 | 11550 | 3460 | 32 | 436 |
| Three-Phase(380V-420V) | ||||||
| ZR28K3-TFD | 2.33 | 6.83 | 6900 | 2140 | 25 | 383 |
| ZR34K3-TFD | 2.83 | 8.02 | 8200 | 2500 | 28 | 406 |
| ZR34KH-TFD | 2.83 | 8.02 | 8200 | 2470 | 28 | 406 |
| ZR36K3-TFD | 3 | 8.61 | 8790 | 2680 | 29 | 406 |
| ZR36KH-TFD | 3 | 8.61 | 8300 | 2680 | 28 | 406 |
| ZR42K3-TFD | 3.5 | 9.94 | 15710 | 3100 | 28 | 419 |
| ZR47KC-TFD | 3.92 | 11.16 | 11550 | 2430 | 30 | 436 |
| VR61KF-TFP-542 | 5.08 | 14.37 | 14900 | 4636 | 28.5 | 436 |
| ZR61KC-TFD | 5.08 | 14.37 | 14600 | 4430 | 37 | 457 |
| ZR61KH-TFD | 5.08 | 14.37 | 14972 | 4440 | 35.9 | 457 |
| ZR68KC-TFD | 5.57 | 16.18 | 16900 | 4950 | 39 | 457 |
| ZR72KC-TFD | 6 | 17.06 | 17700 | 5200 | 39 | 457 |
| ZR81KC-TFD | 6.75 | 19.24 | 19900 | 5800 | 40 | 462 |
| VR94KS-TFP | 8 | 22.14 | 23300 | 6750 | 57 | 497 |
| VR108KS-TFP | 9 | 25.68 | 26400 | 7500 | 63 | 552 |
| VR125KS-TFP | 10 | 28.81 | 31000 | 9000 | 63 | 552 |
| VR144KS-TFP | 12 | 33.22 | 35000 | 15710 | 63 | 552 |
| VR160KS-TFP | 13 | 36.37 | 38400 | 11400 | 65 | 572 |
| VR190KS-TFP | 15 | 43.34 | 46300 | 13700 | 66 | 572 |
| ZR250KC-TWD | 20 | 56.57 | 60000 | 17700 | 142 | 736 |
| ZR310KC-TWD | 25 | 71.43 | 74000 | 22000 | 160 | 725 |
| ZR380KC-TWD | 30 | 57.5 | 92000 | 26900 | 176 | 725 |
| ZR81KC-TFD | 6.75 | 19.24 | 19900 | 5800 | 40 | 462 |
| VR94KS-TFP | 8 | 22.14 | 23300 | 6750 | 57 | 497 |
| VR108KS-TFP | 9 | 25.68 | 26400 | 7500 | 63 | 552 |
| VR125KS-TFP | 10 | 28.81 | 31000 | 9000 | 63 | 552 |
| VR144KS-TFP | 12 | 33.22 | 35000 | 15710 | 63 | 552 |
| VR160KS-TFP | 13 | 36.37 | 38400 | 11400 | 65 | 572 |
| VR190KS-TFP | 15 | 43.34 | 46300 | 13700 | 66 | 572 |
| ZR250KC-TWD | 20 | 56.57 | 60000 | 17700 | 142 | 736 |
| ZR310KC-TWD | 25 | 71.43 | 74000 | 22000 | 160 | 725 |
| ZR380KC-TWD | 30 | 57.5 | 92000 | 26900 | 176 | 725 |
| TECHNICAL DATA | |||||||
| Model | ZB15KQ | ZB19KQ | ZB21KQ | ZB26KQ | ZB29KQ | ZB38KQ | ZB45KQ |
| ZB15KQE | ZB19KQE | ZB21KQE | ZB26KQE | ZB29KQE | ZB38KQE | ZB45KQE | |
| Motor Type | TFD | TFD | TFD | TFD | TFD | TFD | TFD |
| PFJ | PFJ | PFJ | PFJ | PFJ | |||
| Power(HP) | 2 | 2.5 | 3 | 3.5 | 4 | 5 | 6 |
| Displacement(m³/h) | 5.92 | 6.8 | 8.6 | 9.9 | 11.4 | 14.5 | 17.2 |
| Starting Current(LRA) | |||||||
| TFD | 24.5-26 | 30-32 | 36-40 | 41-46 | 50 | 58.6-65.5 | 67-74 |
| PFJ | 53-58 | 56-61 | 75-82 | 89-97 | 113 | ||
| Rated Load Current(RLA) | |||||||
| TFD | 4.3 | 4.3 | 5.7 | 7.1 | 7.9 | 8.9 | 11.5 |
| PFJ | 11.4 | 12.9 | 16.4 | 18.9 | 19.3 | ||
| Max. Operating Current(MCC) | |||||||
| TFD | 6 | 6 | 8 | 10 | 11 | 12.5 | 16.1 |
| PFJ | 16 | 18 | 23 | 24 | 27 | ||
| Motor Run | 40μF/370V | 40μF/370V | 55μF/370V | 60μF/370V | 60μF/370V | ||
| Crankcase Heater Power(W) | 70 | 70 | 70 | 70 | 70 | 70 | 70 |
| Size of Connecting Pipe(INCH) | |||||||
| Outer Diameter of Wxhaust Pipe | 1/2 | 1/2 | 1/2 | 1/2 | 1/2 | 1/2 | 1/2 |
| Outer Diameter of Suction Pipe | 3/4 | 3/4 | 3/4 | 3/4 | 7/8 | 7/8 | 7/8 |
| Dimensions(MM) | |||||||
| Length | 242 | 242 | 243 | 243 | 242 | 242 | 242 |
| Width | 242 | 242 | 244 | 244 | 242 | 242 | 242 |
| Height | 383 | 383 | 412 | 425 | 430 | 457 | 457 |
| Foot Bottom Installation Dimensions(Aperture) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) |
| Fuel Injection(L) | 1.18 | 1.45 | 1.45 | 1.45 | 1.89 | 1.89 | 1.89 |
| Weight(KG) | |||||||
| Net.W | 23 | 25 | 27 | 28 | 37 | 38 | 40 |
| Gross.W | 26 | 29 | 30 | 31 | 40 | 41 | 44 |
| TECHNICAL DATA | |||||||
| Model | ZB48KQ | ZB58KQ | ZB66KQ | ZB76KQ | ZB88KQ | ZB95KQ | ZB114KQ |
| ZB48KQE | ZB58KQE | ZB66KQE | ZB76KQE | ||||
| Motor Type | TFD | TFD | TFD | TFD | TFD | TFD | TFD |
| Power(HP) | 7 | 8 | 9 | 10 | 12 | 13 | 15 |
| Displacement(m³/h) | 18.8 | 22.1 | 25.7 | 28.8 | 38.2 | 36.4 | 43.4 |
| Starting Current(LRA) | 101 | 86-95 | 100-111 | 110-118 | 110-118 | 140 | 174 |
| Rated Load Current(RLA) | 12.1 | 16.4 | 17.3 | 19.2 | 22.1 | 22.1 | 27.1 |
| Max. Operating Current(MCC) | 17 | 23 | 24.2 | 26.9 | 31 | 31 | 39 |
| Crankcase Heater Power(W) | 70 | 90 | 90 | 90 | 90 | ||
| Size of Connecting Pipe(INCH) | |||||||
| Outer Diameter of Wxhaust Pipe | 3/4 | 7/8 | 7/8 | 7/8 | 7/8 | 7/8 | 7/8 |
| Outer Diameter of Suction Pipe | 7/8 | 11/8 | 13/8 | 13/8 | 13/8 | 13/8 | 13/8 |
| Dimensions(MM) | |||||||
| Length | 242 | 263.6 | 263.6 | 263.6 | 263.6 | 242 | 264 |
| Width | 242 | 284.2 | 284.2 | 284.2 | 284.2 | 285 | 285 |
| Height | 457 | 477 | 546.1 | 546.1 | 546.1 | 522 | 553 |
| Foot Bottom Installation Dimensions(Aperture) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) | 190X190(8.5) |
| Fuel Injection(L) | 1.8 | 2.51 | 2.25 | 3.25 | 3.25 | 3.3 | 3.3 |
| Weight(KG) | |||||||
| Net.W | 40 | 59.87 | 60.33 | 65.32 | 65.32 | 65 | 65 |
| Gross.W | 44 | ||||||
Archean refrigeration has been focusing on the refrigeration industry for more than 10 years. The compressors are sold all over the world and have been well received. The company has accumulated strong experience in the compressor market, rich technical support, and a satisfactory one-stop procurement solution. You can rest assured You don’t need to worry about this series, from placing an order to receiving the goods. We provide a complete solution to serve customers well, which is our purpose of hospitality.
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| Installation Type: | Movable Type |
|---|---|
| Lubrication Style: | Lubricated |
| Cylinder Position: | Vertical |
| Model: | Hrp058t4 |
| Transport Package: | Wooden/Cartoon Box |
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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How are air compressors employed in the petrochemical industry?
Air compressors play a vital role in the petrochemical industry, where they are employed for various applications that require compressed air. The petrochemical industry encompasses the production of chemicals and products derived from petroleum and natural gas. Here’s an overview of how air compressors are utilized in the petrochemical industry:
1. Instrumentation and Control Systems:
Air compressors are used to power pneumatic instrumentation and control systems in petrochemical plants. These systems rely on compressed air to operate control valves, actuators, and other pneumatic devices that regulate processes such as flow control, pressure control, and temperature control. Compressed air provides a reliable and clean source of energy for these critical control mechanisms.
2. Pneumatic Tools and Equipment:
Petrochemical plants often utilize pneumatic tools and equipment for various tasks such as maintenance, repair, and construction activities. Air compressors supply the necessary compressed air to power these tools, including pneumatic drills, impact wrenches, grinders, sanders, and painting equipment. The versatility and convenience of compressed air make it an ideal energy source for a wide range of pneumatic tools used in the industry.
3. Process Air and Gas Supply:
Petrochemical processes often require a supply of compressed air and gases for specific applications. Air compressors are employed to generate compressed air for processes such as oxidation, combustion, and aeration. They may also be used to compress gases like nitrogen, hydrogen, and oxygen, which are utilized in various petrochemical reactions and treatment processes.
4. Cooling and Ventilation:
Petrochemical plants require adequate cooling and ventilation systems to maintain optimal operating conditions and ensure the safety of personnel. Air compressors are used to power cooling fans, blowers, and air circulation systems that help maintain the desired temperature, remove heat generated by equipment, and provide ventilation in critical areas.
5. Nitrogen Generation:
Nitrogen is widely used in the petrochemical industry for applications such as blanketing, purging, and inerting. Air compressors are utilized in nitrogen generation systems, where they compress atmospheric air, which is then passed through a nitrogen separation process to produce high-purity nitrogen gas. This nitrogen is used for various purposes, including preventing the formation of explosive mixtures, protecting sensitive equipment, and maintaining the integrity of stored products.
6. Instrument Air:
Instrument air is essential for operating pneumatic instruments, analyzers, and control devices throughout the petrochemical plant. Air compressors supply compressed air that is treated and conditioned to meet the stringent requirements of instrument air quality standards. Instrument air is used for tasks such as pneumatic conveying, pneumatic actuators, and calibration of instruments.
By employing air compressors in the petrochemical industry, operators can ensure reliable and efficient operation of pneumatic systems, power various tools and equipment, support critical processes, and maintain safe and controlled environments.
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What safety precautions should be taken when working with compressed air?
Working with compressed air requires adherence to certain safety precautions to prevent accidents and ensure the well-being of individuals involved. Here are some important safety measures to consider:
1. Personal Protective Equipment (PPE):
Wear appropriate PPE, including safety goggles or a face shield to protect eyes from flying debris or particles, hearing protection to reduce noise exposure, and gloves to safeguard hands from potential hazards.
2. Compressed Air Storage:
Avoid storing compressed air in containers that are not designed for this purpose, such as soda bottles or makeshift containers. Use approved and properly labeled air storage tanks or cylinders that can handle the pressure and are regularly inspected and maintained.
3. Pressure Regulation:
Ensure that the air pressure is regulated to a safe level suitable for the equipment and tools being used. High-pressure air streams can cause serious injuries, so it is important to follow the manufacturer’s recommendations and never exceed the maximum allowable pressure.
4. Air Hose Inspection:
Regularly inspect air hoses for signs of damage, such as cuts, abrasions, or leaks. Replace damaged hoses immediately to prevent potential accidents or loss of pressure.
5. Air Blowguns:
Exercise caution when using air blowguns. Never direct compressed air towards yourself or others, as it can cause eye injuries, hearing damage, or dislodge particles that may be harmful if inhaled. Always point blowguns away from people or any sensitive equipment or materials.
6. Air Tool Safety:
Follow proper operating procedures for pneumatic tools. Ensure that tools are in good working condition, and inspect them before each use. Use the appropriate accessories, such as safety guards or shields, to prevent accidental contact with moving parts.
7. Air Compressor Maintenance:
Maintain air compressors according to the manufacturer’s guidelines. Regularly check for leaks, clean or replace filters, and drain moisture from the system. Proper maintenance ensures the safe and efficient operation of the compressor.
8. Training and Education:
Provide adequate training and education to individuals working with compressed air. Ensure they understand the potential hazards, safe operating procedures, and emergency protocols. Encourage open communication regarding safety concerns and implement a culture of safety in the workplace.
9. Lockout/Tagout:
When performing maintenance or repairs on compressed air systems, follow lockout/tagout procedures to isolate the equipment from energy sources and prevent accidental startup. This ensures the safety of the individuals working on the system.
10. Proper Ventilation:
Ensure proper ventilation in enclosed areas where compressed air is used. Compressed air can displace oxygen, leading to a potential risk of asphyxiation. Adequate ventilation helps maintain a safe breathing environment.
By adhering to these safety precautions, individuals can minimize the risks associated with working with compressed air and create a safer work environment.
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What is the difference between a piston and rotary screw compressor?
Piston compressors and rotary screw compressors are two common types of air compressors with distinct differences in their design and operation. Here’s a detailed explanation of the differences between these two compressor types:
1. Operating Principle:
- Piston Compressors: Piston compressors, also known as reciprocating compressors, use one or more pistons driven by a crankshaft to compress air. The piston moves up and down within a cylinder, creating a vacuum during the intake stroke and compressing the air during the compression stroke.
- Rotary Screw Compressors: Rotary screw compressors utilize two intermeshing screws (rotors) to compress air. As the male and female screws rotate, the air is trapped between them and gradually compressed as it moves along the screw threads.
2. Compression Method:
- Piston Compressors: Piston compressors achieve compression through a positive displacement process. The air is drawn into the cylinder and compressed as the piston moves back and forth. The compression is intermittent, occurring in discrete cycles.
- Rotary Screw Compressors: Rotary screw compressors also employ a positive displacement method. The compression is continuous as the rotating screws create a continuous flow of air and compress it gradually as it moves along the screw threads.
3. Efficiency:
- Piston Compressors: Piston compressors are known for their high efficiency at lower flow rates and higher pressures. They are well-suited for applications that require intermittent or variable air demand.
- Rotary Screw Compressors: Rotary screw compressors are highly efficient for continuous operation and are designed to handle higher flow rates. They are often used in applications with a constant or steady air demand.
4. Noise Level:
- Piston Compressors: Piston compressors tend to generate more noise during operation due to the reciprocating motion of the pistons and valves.
- Rotary Screw Compressors: Rotary screw compressors are generally quieter in operation compared to piston compressors. The smooth rotation of the screws contributes to reduced noise levels.
5. Maintenance:
- Piston Compressors: Piston compressors typically require more frequent maintenance due to the higher number of moving parts, such as pistons, valves, and rings.
- Rotary Screw Compressors: Rotary screw compressors have fewer moving parts, resulting in lower maintenance requirements. They often have longer service intervals and can operate continuously for extended periods without significant maintenance.
6. Size and Portability:
- Piston Compressors: Piston compressors are available in both smaller portable models and larger stationary units. Portable piston compressors are commonly used in construction, automotive, and DIY applications.
- Rotary Screw Compressors: Rotary screw compressors are typically larger and more suitable for stationary installations in industrial and commercial settings. They are less commonly used in portable applications.
These are some of the key differences between piston compressors and rotary screw compressors. The choice between the two depends on factors such as required flow rate, pressure, duty cycle, efficiency, noise level, maintenance needs, and specific application requirements.
editor by CX 2024-01-15