Product Description
Sturdy Atlas CHINAMFG portable compressor, it’s reasonable design in order to meet your ideal equipment use and project construction
Trustworthy Atlas CHINAMFG series portable compressor, all will provide you with stable and uninterrupted power, make your work get twice the result with half the effort, efficiency is higher. Atlas Liutech portable compressors, service scope covers from the small building pneumatic tools, to large aperture high wind pressure drilling. Atlas Liutech to provide a full range of products for you to choose.These strong enough equipment, reliable performance and is suitable for many applications.Equipment maintenance is convenient, simple operation, and bring you more and more productivity.
Atlas customized controller
Main parameters showed on a single page, know the equipment running status well;
To ensure safe and reliable operation of the equipment, provide a variety of abnormal alarm and automatically stop protection;
High reliability
Strong design, to ensure the long-term reliability and durability of the equipment;
Maintenance aspects
Can open the door design, convenient for daily maintenance work;
The 3 emissions engine
In China the third phase of diesel engine exhaust emissions standards;
Fuel injection system uses the international advanced technology, high pressure common rail electronically controlled fuel injection, more effective, enough horsepower;
Low emission, green and environmental protection;
Diesel fuel self-sufficiency
Even at 100% capacity, continuous operation under the conditions of use;
Low noise
Mobile locomotives cover and cover shell design has the very strong noise reduction, sound-absorbing effect;
| Model | LUY215-21 | LUY400-25* | LUY400-30* | LUY310-25* | LUY390-25* | LUY390-30* | LUY340-34* | LUY350-34* |
| Work pressure (bar) | 21 | 25…15 | 30…20 | 25…18 | 25…15 | 30…20 | 34…20 | 34…20 |
| Displacement (m3/min) |
21.5 | 35…40 | 35…40 | 28…31 | 35…39 | 35…39 | 32…34 | 32…35 |
| Noise decibel (sound pressure, 7m) | 79±3 | 83±3 | 83±3 | 82±3 | 83±3 | 83±3 | 83±3 | 82±3 |
| Fuel tank capacity (L) | 512 | 780 | 780 | 500 | 550 | 550 | 550 | 780 |
| Compressor oil capacity (L) | 75 | 100 | 105 | 75 | 105 | 105 | 105 | 105 |
| Gas outlet valve inch-qty*size | 1xG2 1xG3/4 | 1xG2 1xG3/4 | 1xG2 1xG3/4 | |||||
| Engine | ||||||||
| Brand of engine | Cummins | Yuchai | Cummins | |||||
| Model of engine | QSL89-C325-30 | QSZ13-C500-30 | QSZ13-C550-30 | 6MK400-H300 | YC6K510-KT30 | YC6K560-KT30 | YC6K560-KT30 | QSZ13-C550-30 |
| Power of engine (KW) | 242 | 372 | 410 | 295 | 375 | 412 | 412 | 410 |
| Rotate speed of engine (rpm) | 2000 | 1700…1850 | 1750…1850 | 1750…1900 | 1500…1750 | 1500…1750 | 1700…1850 | 1700…1850 |
| Idling (rpm) | 1300 | 1300 | 1300 | 1200 | 1300 | 1300 | 1300 | 1300 |
| Cooling form | Air cooling,water cooled,orthostichous | Air cooling,water cooled,orthostichous | Aircooling,watercooled,orthostichous | |||||
| Overall dimensions | ||||||||
| Pry transportation dimensions | ||||||||
| Length (mm) | 3985 | 4486 | 4486 | 3985 | 4336 | 4336 | 4336 | 4486 |
| Width (mm) | 1800 | 2100 | 2100 | 1800 | 2100 | 2100 | 2100 | 2100 |
| Height (mm) | 2200 | 2180 | 2180 | 2200 | 2290 | 2290 | 2290 | 2180 |
| Weight (kg) | 4250 | 5150 | 5150 | 4550 | 4770 | 4770 | 4770 | 5150 |
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| After-sales Service: | Yes |
|---|---|
| Warranty: | 1 Year |
| Lubrication Style: | Lubricated |
| Cooling System: | Air Cooling |
| Power Source: | Diesel Engine |
| Cylinder Position: | Vertical |
| Customization: |
Available
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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.
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What Is the Impact of Ambient Temperature on Screw Compressor Performance?
Ambient temperature has a significant impact on the performance of screw compressors. Here’s a detailed explanation:
Screw compressors, like other types of compressors, rely on the surrounding environment to dissipate heat and maintain optimal operating conditions. The ambient temperature directly affects the compressor’s efficiency, capacity, power consumption, and overall performance.
Here are the key ways in which ambient temperature influences screw compressor performance:
1. Cooling Efficiency:
The cooling efficiency of a screw compressor is affected by the temperature difference between the compressed gas and the ambient air. As the ambient temperature increases, the temperature difference decreases, making it more challenging to transfer heat effectively. This can lead to higher discharge temperatures and reduced cooling efficiency, potentially impacting the compressor’s overall capacity and performance.
2. Capacity and Power Consumption:
Higher ambient temperatures can decrease the capacity of a screw compressor. Compressors are typically designed and rated based on specific operating conditions, including a defined ambient temperature range. When the ambient temperature exceeds the design limits, the compressor may experience reduced volumetric efficiency, resulting in a decrease in its overall capacity. Additionally, the compressor may require more power to maintain the desired pressure levels, leading to increased power consumption.
3. Heat Recovery:
In some applications, screw compressors are equipped with heat recovery systems to utilize the waste heat generated during compression. The effectiveness of heat recovery is influenced by the ambient temperature. Higher ambient temperatures can reduce the temperature differential available for heat exchange, limiting the potential for heat recovery and decreasing the overall system efficiency.
4. Lubrication and Cooling:
Screw compressors rely on lubrication systems to reduce friction and prevent wear between moving parts. The ambient temperature affects the performance of the lubricant. In high ambient temperatures, the lubricant may experience decreased viscosity, potentially leading to inadequate lubrication and increased wear on compressor components. Similarly, the cooling system of the compressor, including fans and heat exchangers, may be less effective in higher ambient temperatures, impacting the compressor’s ability to dissipate heat.
5. Operating Envelope:
Screw compressors have specified operating envelopes, which define the acceptable range of operating conditions, including ambient temperature. Operating the compressor outside its designed ambient temperature range can result in reduced reliability, increased maintenance requirements, and potential system failures. It is crucial to adhere to the manufacturer’s guidelines and ensure that the compressor operates within the recommended ambient temperature limits.
6. Control and Protection:
Modern screw compressors often feature advanced control and protection systems that monitor various parameters, including ambient temperature. These systems may adjust compressor operation, such as modulation of capacity or cooling strategies, to optimize performance and protect the compressor from operating outside safe limits. Understanding the impact of ambient temperature allows for appropriate adjustments and settings to maintain reliable and efficient compressor operation.
It’s important to note that different compressor models and manufacturers may have specific performance characteristics and operating limits. Therefore, consulting the manufacturer’s documentation and guidelines for the particular screw compressor in use is essential.
In summary, ambient temperature significantly affects the performance of screw compressors. Higher ambient temperatures can reduce cooling efficiency, decrease compressor capacity, increase power consumption, and impact lubrication and cooling systems. Adhering to recommended operating conditions and considering ambient temperature limitations are crucial for ensuring optimal performance, reliability, and longevity of screw compressors.
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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.


editor by CX 2024-02-19