Product Description

 

Model Cond temp. The Evaporation Temperature (R404/50HZ)
7.5 5 0 -5 -10 -15 -20 -25 -30 -35 -40 -45
2KC-05.2Y 40 3850 3520 2920 2390 1940 1540 1200 900 650 435 255 1000
2JC-07.2Y 40 5180 4740 3950 3260 2660 2130 1680 1290 960 675 440 240
2HC-1.2Y 40       4090 3340 2700 2140 1650 1240 890 595 345
2HC-2.2Y 40 6620 6070 5060 4190 3430 2760 2190 1700 1270 915 610  
2GC-2.2Y 40 7540 6910 5780 4790 3930 3190 2450 1990 1520 1110 775 490
2FC-2.2Y 40       5950 4900 3980 3190 2500 1920 1420 1000 650
2FC-3.2Y 40 9450 8670 7250 6571 4950 4571 3210 2520 1930 1420 1000  
2EC-2.2Y 40       7270 5980 4860 3900 3060 2350 1750 1240 810
2EC-3.2Y 40 11620 1 0571 8930 7420 6100 4960 3970 3120 2390 1770 1250  
2DC-2.2Y 40       8490 6980 5670 4530 3560 2720 2571 1420 920
2DC-3.2Y 40 13510 12390 10380 8610 7080 5750 4600 3610 2760 2040 1430  
2CC-3.2Y 40       1571 8650 7040 5640 4440 3420 2550 1810 1200
2CC-4.2Y 40 16470 15110 12660 10520 8660 7050 5650 4450 3420 2540 1810  
4FC-3.2Y 40       11560 9520 7740 6200 4880 3750 2790 1980 1310
4FC-5.2Y 40 18240 16740 14026 11650 9580 7790 6240 4900 3760 2790 1970  
4EC-4.2Y 40       1440 11870 9650 7720 6070 4650 3450 2440 1590
4EC-6.2Y 40 23150 21250 17780 14750 12120 9840 7860 5160 4700 3470 2420  
4DC-5.2Y 40       17650 14520 11810 9460 7440 5720 4250 3571 1980
4DC-7.2Y 40 27500 25200 21100 14790 14350 11630 9270 7250 5510 4040 2800  
4CC-6.2Y 40       21100 17420 14200 11420 9030 6930 5240 3770 2540
4CC-9.2Y 40 32850 30150 25300 21100 17410 14210 11440 9050 7000 5250 3700  
4VCS-6.2Y 40       22750 18670 15140 12090 9470 7230 5320 3720 2380
4VCS-10.2Y 40 36100 33100 27600 22850 18680 15070 11950 9260 6960 5000 3350  
4TCS-8.2Y 40       27750 22800 18480 14760 11560 8830 3520 4580 2960
4TCS-12.2Y 40 43500 39580 33300 27550 22600 18260 14530 11320 8590 6270 4320  
4PCS-10.2Y 40       32300 26500 21500 17130 13400 15710 7520 5240 3350
4PCS-15.2Y 40 52200 47850 39950 33050 27050 21850 17360 13490 10190 7390 5571  
4NCS-12.2Y 40       37300 30600 24800 19810 15510 11840 8740 6120 3950
4NCS-20.2Y 40 60500 55400 46250 38200 31250 25200 20000 15530 11730 8510 5820  
4J-13.2Y 40       42800 35250 28700 23000 18150 14000 1571 7500 5571
4J-22.2Y 40 67100 61500 51500 42700 35100 25800 22800 17870 13670 10110 7120  
4H-15.2Y 40       49850 41150 33600 27100 21500 16730 12660 9420 6380
4H-25.2Y 40 77400 71000 59500 49400 409650 33000 26450 20800 19530 11800 8320  
4G-20.2Y 40       57200 47300 38700 31200 24800 19250 14540 10540 7160
4G-30.2Y 40 98100 81800 68600 57000 47000 38250 30700 24200 18610 13860 9850  
6J-22.2Y 40       63800 52600 42800 34350 27100 20900 15640 11210 7510
6J-33.2Y 40 101500 93000 77700 64300 52700 42600 33900 26400 20050 14640 10110  
6H-25.2Y 40       74000 61600 55710 40400 31900 24700 18590 13440 9130
6H-35.2Y 40 116300 1E+06 89300 74100 60900 49450 39600 31100 23800 17670 12480  
6G-30.2Y 40       84000 69300 56600 45500 36050 27900 21000 15130 15710
6G-40.2Y 40 133440 122400 157100 85400 70300 57300 46000 36300 28000 20900 14940  
6F-40.2Y 40       100900 83100 67600 54300 42800 32950 24600 17570 11680
6F-50.2Y 40 157900 145000 121700 101300 83600 68300 55000 43600 3850 25600 18620  
8GC-60.2Y 40 188400 173100 145400 121200 10000 81500 65400          
8FC-70.2Y 40 223000 204900 172100 143500 118400 96500 77400          

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Warranty: 1 Year
Principle: Reciprocating Compressor
Application: Back Pressure Type, Pumping Air
Performance: Low Noise
Mute: Not Mute
Lubrication Style: Lubricated
Samples:
US$ 600/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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air compressor

What Industries Commonly Use Screw Compressors?

Screw compressors are widely used in various industries due to their efficiency, reliability, and versatility. Here’s a detailed overview of the industries that commonly utilize screw compressors:

  • 1. Manufacturing: Screw compressors find extensive use in manufacturing industries such as automotive, aerospace, electronics, and appliances. They are employed for applications such as powering pneumatic tools, operating production lines, providing compressed air for painting, and controlling automated processes.
  • 2. Oil and Gas: The oil and gas industry extensively utilizes screw compressors for various purposes. They are employed in upstream operations for natural gas gathering, gas lift systems, and wellhead compression. In downstream operations, screw compressors are used in refining processes, gas transmission, and storage facilities.
  • 3. Chemical and Petrochemical: Screw compressors play a crucial role in chemical and petrochemical industries. They are used for compressing gases in chemical reactions, providing instrument air for control systems, powering pneumatic conveying systems, and handling various process gases in refining and production processes.
  • 4. Food and Beverage: Screw compressors are employed in the food and beverage industry for applications such as refrigeration, freezing, and air supply for packaging processes. They help maintain optimal temperature and humidity conditions, ensuring the quality and safety of food and beverage products.
  • 5. Pharmaceutical and Healthcare: Screw compressors are utilized in pharmaceutical manufacturing facilities, research laboratories, and healthcare institutions. They provide clean, oil-free compressed air for critical processes, such as pharmaceutical production, medical device manufacturing, and laboratory analysis. High-quality compressed air is essential to meet stringent quality and regulatory standards in these industries.
  • 6. Power Generation: Screw compressors find applications in power generation facilities, including gas turbine power plants, combined heat and power (CHP) systems, and cogeneration plants. They are used for inlet air compression, fuel gas boosting, and other compressed air requirements in power generation processes.
  • 7. Construction and Mining: Screw compressors are widely used in construction and mining industries for powering pneumatic tools, drilling equipment, and material handling systems. They provide the necessary compressed air for efficient and reliable operation in demanding construction and mining environments.
  • 8. Municipal and Wastewater Treatment: Screw compressors are utilized in municipal water treatment and wastewater treatment plants. They play a vital role in aeration processes, where compressed air is introduced into water or wastewater to promote biological treatment and ensure effective removal of contaminants.
  • 9. Printing and Packaging: Screw compressors are employed in printing and packaging industries for applications such as air drying, air cushioning, and powering pneumatic systems in printing presses and packaging machinery. They ensure consistent and reliable compressed air supply for efficient production processes.
  • 10. Automotive and Transportation: Screw compressors are used in automotive and transportation industries for applications such as air conditioning systems in vehicles, pneumatic braking systems, and compressed air supply for tire inflation and maintenance.

These are just a few examples, and screw compressors find applications in numerous other industries, including textiles, plastics, pulp and paper, steel and metal fabrication, electronics manufacturing, and more. The versatility and reliability of screw compressors make them a popular choice across a wide range of industrial sectors.

air compressor

How Do You Troubleshoot Common Issues with Screw Compressors?

Troubleshooting common issues with screw compressors involves a systematic approach to identify and resolve problems that may arise during operation. Here’s a detailed explanation:

1. Gather Information:

  • Start by gathering information about the symptoms and any recent changes or events related to the compressor. This can help pinpoint potential causes and guide the troubleshooting process.

2. Check Power and Controls:

  • Ensure that the compressor has a power supply and that all electrical connections are secure. Check for any tripped breakers or blown fuses. Verify that the compressor’s controls, such as pressure switches, temperature sensors, and safety devices, are functioning correctly.

3. Inspect for Leaks:

  • Check for any visible leaks in the compressed air system, including connections, fittings, hoses, and seals. Leaks can cause a drop in system pressure and affect the compressor’s performance. Repair or replace any damaged components.

4. Monitor Pressure and Temperature:

  • Monitor the discharge pressure and temperature of the compressor. Abnormal readings can indicate issues such as inadequate lubrication, high discharge temperatures, or problems with the cooling system. Refer to the manufacturer’s specifications for acceptable pressure and temperature ranges.

5. Verify Lubrication:

  • Ensure that the compressor’s lubrication system is functioning correctly. Check oil levels and the condition of the lubricant. Inadequate lubrication can lead to increased friction, overheating, and damage to internal components. Follow the manufacturer’s recommendations for lubricant type and change intervals.

6. Check Air Filters and Cooling System:

  • Inspect and clean or replace the air filters to ensure proper airflow. Clogged filters can reduce efficiency and increase the compressor’s operating temperature. Additionally, check the cooling system, including fans and heat exchangers, to ensure they are clean and functioning correctly.

7. Examine Vibration and Noise:

  • Pay attention to any unusual vibration or noise coming from the compressor. Excessive vibration may indicate misalignment, worn bearings, or loose components. Unusual noise can be a sign of mechanical issues or problems with the intake or discharge system.

8. Review Maintenance Records:

  • Review the compressor’s maintenance records to ensure that regular maintenance tasks, such as oil changes, filter replacements, and inspections, have been performed according to the manufacturer’s recommendations. Address any overdue or missed maintenance tasks.

9. Consult Manufacturer Documentation:

  • Refer to the compressor’s operating manual and troubleshooting guide provided by the manufacturer. These documents often contain specific troubleshooting steps for common issues and can provide valuable insights.

10. Seek Professional Assistance:

  • If the troubleshooting steps do not resolve the issue or if you are unsure about performing further diagnostics, it is recommended to seek assistance from a qualified technician or contact the compressor manufacturer’s technical support.

Remember to prioritize safety throughout the troubleshooting process, following appropriate lockout/tagout procedures and wearing the necessary personal protective equipment.

In summary, troubleshooting common issues with screw compressors involves checking power and controls, inspecting for leaks, monitoring pressure and temperature, verifying lubrication, checking air filters and cooling systems, examining vibration and noise, reviewing maintenance records, consulting manufacturer documentation, and seeking professional assistance when needed. By following a systematic approach, it is possible to identify and resolve common problems with screw compressors, ensuring their proper operation and performance.

air compressor

What Are the Key Components of a Screw Compressor?

A screw compressor consists of several key components that work together to compress air or gas. Here’s a detailed explanation of these components:

1. Male and Female Rotors:

The male and female rotors are the primary components of a screw compressor. These helical rotors have specially designed profiles that interlock with each other. The male rotor typically has fewer lobes or threads compared to the female rotor. As the rotors rotate, the interlocking lobes create compression chambers that gradually reduce in volume, compressing the air or gas.

2. Compression Chamber:

The compression chamber is formed by the interlocking lobes of the rotors. It is the space where the air or gas is compressed as the rotors rotate. The volume of the compression chamber decreases as the lobes move towards the discharge end, resulting in the compression of the trapped air or gas.

3. Inlet and Outlet Ports:

The inlet port is the entry point through which the air or gas enters the screw compressor. It is typically located at the suction side of the compressor. The inlet port allows the air or gas to flow into the compression chamber during the suction process. The outlet port is the exit point through which the compressed air or gas is discharged from the compressor.

4. Drive System:

The drive system of a screw compressor consists of a motor and a drive mechanism. The motor provides the rotational power required to drive the rotors. Common types of drive mechanisms include direct drive, belt drive, and gear drive. The drive system ensures that the rotors rotate in opposite directions at the desired speed and synchronization.

5. Oil System (in oil-injected compressors):

In oil-injected screw compressors, an oil system is present to provide lubrication, cooling, and sealing between the rotors. The oil system typically includes an oil reservoir, an oil pump, oil filters, and oil coolers. The lubricating oil is injected into the compression chamber, where it forms a thin film on the rotors, reducing friction and minimizing wear.

6. Cooling System:

Screw compressors often incorporate a cooling system to maintain optimal operating temperatures. The cooling system may include air or water-cooled heat exchangers, which dissipate the heat generated during compression. Cooling ensures that the compressor operates within safe temperature limits, preventing overheating and prolonging the lifespan of the components.

7. Control System:

A control system is an essential component of a screw compressor, providing monitoring and regulation of various parameters. It may include sensors, controllers, and safety devices to measure and control variables such as pressure, temperature, and operating conditions. The control system ensures efficient and safe operation of the screw compressor.

8. Sound Attenuation and Vibration Isolation:

To reduce noise and vibration, screw compressors are often equipped with sound attenuation measures and vibration isolation systems. These components help in minimizing the noise and vibrations generated during operation, making the compressor suitable for noise-sensitive environments.

In summary, the key components of a screw compressor include the male and female rotors, compression chamber, inlet and outlet ports, drive system, oil system (in oil-injected compressors), cooling system, control system, and sound attenuation/vibration isolation components. These components work together to enable the efficient compression of air or gas in the screw compressor.

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editor by CX 2024-04-26

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