China Hot selling Air Cooled Chiller Scroll/Screw Compressor High Efficiency Modular air compressor parts

Product Description

1. Special heat exchanger surface.
2. Ultra-efficient double-sided enhanced heat transfer tubes.
3. German semi-closed twin screw compressor.
4. The world’s most advanced electronic expansion valve.

Patented Design Of Open-Window Hydrophilic Aluminum Foil + Bottom Elevated + One-Way Valve

Low temperature cooling 5ºC~48ºC

High temperature Heating -15ºC~48ºC

Chiller standard with RS485 interface and MODBUS RUT protocol that enables WiFi remote control.
The waterside efficient shell and internal thread heat exchanger is of helical baffle type, with better heat transfer performance and higher resistance to freezing than plate heat exchanger.

1. The most authoritative certification of the US refrigeration industry: AHRI
2. The most authoritative certification of China’s refrigeration industry: CRAA
3. China Product Quality Certification: CNAS

 

TASD-AC1 110.1 145.1 170.1 210.1 230.2 260.2 285.2 335.2
Cooling capacity kW 385 505 601 730 808 909 1001 1171
kcal/h 331100 434300 516860 627800 694880 781740 860860 10571
Cooling input power kW 123 159 189 233 254 285 319 371
Cooling rated current A 219 288 341 419 479 507 578 665
Maximum starting current A 615 845 845 965 1102 1264 1358 1358
Maximum operating current A 419 513 523 521 900 932 1026 1026
Power 380V 3N~ 50Hz
Water side heat exchanger Type High efficiency shell and tube water side heat exchanger
Cooling water flow m3/h 66 87 103 126 139 156 172 201
Pipe DN DN 125 125 125 150 150 150 150 200
Water pressure drop kPa 40 53 56 57 68 72 73 70
Water side pressure MPa 1
Compressor Type Semi-closed screw
Energy adjustment range 25%-100%Four-level adjustment 12.5%-100%Eight-level adjustment
Startup type Star triangle connection
Fan Air volume m3/h 150000 200000 250000 250000 350000 350000 400000 400000
Quantity Set 6 8 10 10 14 14 16 16
The refrigerant Type R134a
Number of working systems   1 2
Charge kg 86 100 115 150 186 186 200 230
Dimensions Length mm 3787 4792 5797 5797 8707 8707 9712 9712
Width mm 2250
High mm 2420 2480
Hydraulic module (optional) Built-in hydraulic module (optional) Pumps, expansion tanks, filters, safety valves, pressure gauges, butterfly valves, etc.
Pump type Centrifugal single or dual pump (optional)
Shipping weight kg 4350 4690 5500 6050 7850 7980 9200 9550
Running weight kg 4550 4910 5750 6340 8190 8340 9590 9980

Delivery

TIME OF DELIVERY:Within 35 days after receiving deposit .

 

Payment

Support T/T , L/C,Aalibaba

 

Warranty

1) The whole chiller for 1 years,the compressor for 3 years.

2) Compressor brands vary according to model and actual needs, and conventional models use BITZER compressors.

 

After-sale

During the warranty period, machines which cannot run due to quality problems,Choose the following options.

1) During the one-year warranty period, non-human factors cause product quality problems, and provide parts replacement and repair and maintenance services.

2) In addition to the one-year warranty period, parts replacement and repair and maintenance services are provided at the user’s expense.

 

Promotion Method

1) Pay the full amount in 1 lump sum, 1% discount.
2) Recommend other customers to buy and return a part of the commission. 

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After-sales Service: 5 Years
Warranty: 5 Years
Type: Chiller
Air Tube Material: Galvanized Sheet
Corrosion Durability: Ultrahigh
Operating Voltage: 380/400 VAC
Customization:
Available

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air compressor

What Is the Lifespan of a Typical Screw Compressor?

The lifespan of a typical screw compressor can vary depending on several factors, including the quality of the equipment, maintenance practices, operating conditions, and usage patterns. Here’s a detailed explanation:

The lifespan of a screw compressor is typically measured in operating hours, which refers to the cumulative hours the compressor has been in operation. While it’s challenging to provide an exact lifespan, as it can vary significantly, screw compressors are generally designed to have a long service life, often ranging from 20,000 to 100,000 operating hours.

Several factors can influence the lifespan of a screw compressor:

  • 1. Quality of Construction: The quality of construction and materials used in the compressor’s manufacturing plays a crucial role in its lifespan. Compressors built with high-quality components and robust construction tend to have a longer service life compared to those with lower-quality materials.
  • 2. Maintenance Practices: Regular and proper maintenance is essential to extend the lifespan of a screw compressor. Following the manufacturer’s recommended maintenance schedule, including tasks such as oil changes, filter replacements, and inspection of critical components, helps ensure optimal performance and reliability. Neglecting maintenance can lead to premature wear and potential breakdowns.
  • 3. Operating Conditions: The operating conditions in which the compressor operates can impact its lifespan. Factors such as temperature, humidity, and the presence of contaminants in the ambient air can affect the compressor’s performance and longevity. Compressors operated in clean, well-ventilated environments with controlled temperature and humidity conditions tend to have longer lifespans.
  • 4. Load and Usage Patterns: The load and usage patterns of the compressor also influence its lifespan. Compressors operated at or near their maximum capacity for prolonged periods may experience higher wear and tear compared to those operated within their recommended operating range. Compressors subjected to frequent start-stop cycles or continuous operation may have different lifespans based on the stress placed on their components.
  • 5. Maintenance and Repairs: The response to maintenance and repair needs can impact the compressor’s lifespan. Timely addressing of maintenance issues and prompt repairs when faults or malfunctions occur can prevent further damage and help prolong the compressor’s lifespan.
  • 6. Manufacturer and Design: The reputation and expertise of the manufacturer play a role in determining the compressor’s lifespan. Established manufacturers with a track record of producing reliable and durable equipment often design their compressors to have longer lifespans. It’s advisable to choose compressors from reputable manufacturers known for their quality and reliability.

It’s important to note that while a screw compressor may have a designed lifespan, it doesn’t necessarily mean it will fail immediately after reaching that threshold. With proper maintenance and care, compressors can often exceed their expected lifespan. On the other hand, neglecting maintenance or subjecting the compressor to harsh operating conditions can shorten its lifespan.

Regular monitoring of the compressor’s performance, including parameters such as discharge temperature, vibration levels, and energy consumption, can help identify any potential issues and take corrective actions to maintain the compressor’s reliability and extend its lifespan.

In summary, the lifespan of a typical screw compressor can range from 20,000 to 100,000 operating hours, depending on factors such as the quality of construction, maintenance practices, operating conditions, usage patterns, and manufacturer reputation. Adhering to proper maintenance practices, operating the compressor within its recommended parameters, and choosing a reputable manufacturer can help ensure a longer lifespan for the screw compressor.

air compressor

How Do You Maintain the Air Quality in a Screw Compressor System?

Maintaining air quality in a screw compressor system is crucial to ensure the performance, efficiency, and reliability of the compressed air. Here’s a detailed explanation:

1. Proper Intake Filtration:

Install high-quality intake filters to prevent contaminants, such as dust, dirt, and debris, from entering the screw compressor system. These filters should have an appropriate filtration rating to effectively capture particles of the desired size. Regularly inspect and clean or replace the intake filters to maintain their effectiveness.

2. Compressed Air Dryers:

Use compressed air dryers, such as refrigerated dryers or desiccant dryers, to remove moisture from the compressed air. Moisture can lead to corrosion, damage to pneumatic equipment, and compromised air quality. The type of dryer selected depends on the specific application requirements and the desired level of moisture removal.

3. Oil Removal Filters:

In oil-injected screw compressors, oil is used for lubrication, which can contaminate the compressed air. Install oil removal filters downstream of the compressor to remove any oil carryover from the compressed air. These filters typically use coalescing technology to separate and trap oil particles, ensuring clean air quality.

4. Condensate Management:

Effectively manage condensate, which is formed when moisture in the compressed air condenses as it cools. Install condensate drains and separators to remove and properly dispose of condensate. Improper condensate management can lead to water contamination in the compressed air system.

5. Regular Maintenance:

Perform regular maintenance tasks as recommended by the manufacturer, including oil changes, filter replacements, and inspections. Proper maintenance helps ensure that the compressor system operates efficiently and minimizes the risk of contaminants entering the compressed air.

6. Air Receiver Tank Maintenance:

If the screw compressor system includes an air receiver tank, regularly inspect and clean the tank to remove any accumulated debris or contaminants. Additionally, ensure that the tank’s drain valve is functioning correctly to remove any water or condensate from the tank.

7. Leak Detection and Repair:

Regularly inspect the compressed air system for leaks. Leaks not only waste energy but also allow contaminants from the surrounding environment to enter the system. Use appropriate leak detection methods, such as ultrasonic detectors or soapy water solutions, to identify and promptly repair any leaks.

8. Monitor and Control Operating Conditions:

Monitor and maintain proper operating conditions within the screw compressor system. This includes monitoring discharge pressure, temperature, and other relevant parameters to ensure they are within acceptable ranges. Implement appropriate control strategies, such as regulating compressor capacity or adjusting dryer settings, to optimize air quality while meeting the specific application requirements.

9. Training and Awareness:

Provide training to operators and maintenance personnel on the importance of air quality in a screw compressor system. Ensure they understand proper maintenance procedures, the significance of filtration, and how to identify and address potential air quality issues.

10. Compliance with Regulations:

Be aware of and comply with relevant regulations and standards governing air quality in your specific industry or application. This may include adherence to guidelines such as ISO 8573, which specifies air purity classes for different contaminants in compressed air systems.

By following these practices, you can maintain the air quality in a screw compressor system, ensuring clean, reliable, and high-quality compressed air for various applications.

air compressor

Can Screw Compressors Handle High-Pressure Applications?

Yes, screw compressors are capable of handling high-pressure applications. Here’s a detailed explanation:

Screw compressors are known for their ability to deliver high-pressure compressed air or gas. The design of screw compressors allows them to achieve higher pressure ratios compared to other types of compressors, such as reciprocating piston compressors.

The compression process in screw compressors is continuous and smooth, which enables them to handle high-pressure requirements efficiently. The intermeshing rotors create compression chambers that gradually reduce in volume, resulting in the compression of air or gas. By adjusting the rotational speed of the rotors and optimizing the design parameters, screw compressors can generate the desired high discharge pressures.

However, it’s important to note that the maximum pressure capability of a screw compressor may vary depending on factors such as:

  • 1. Compressor Design: The design features of the screw compressor, including the rotor profile, sealing mechanism, and cooling system, can influence its maximum pressure capacity.
  • 2. Rotor Size and Speed: The size and rotational speed of the rotors impact the compression ratio and, consequently, the achievable discharge pressure. Larger rotors and higher rotational speeds generally allow for higher pressure ratios.
  • 3. Drive Power: The power of the drive motor connected to the screw compressor affects its ability to handle high-pressure applications. Adequate power is necessary to overcome the resistance and maintain the desired compression ratio.
  • 4. Structural Integrity: The structural integrity and material strength of the compressor housing, rotors, and other components determine the maximum pressure that the compressor can withstand without failure or leakage.

It’s important to select a screw compressor with the appropriate specifications and consult the manufacturer’s guidelines to ensure that it can handle the specific high-pressure requirements of the application.

Additionally, it’s worth noting that high-pressure applications may also require additional equipment, such as pressure vessels or downstream pressure regulators, to safely handle and control the compressed air or gas at the desired pressure levels.

China Hot selling Air Cooled Chiller Scroll/Screw Compressor High Efficiency Modular   air compressor partsChina Hot selling Air Cooled Chiller Scroll/Screw Compressor High Efficiency Modular   air compressor parts
editor by CX 2024-02-20

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