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China factory Inquiry About Oil-Free Air Compressor Bn75016W arb air compressor

Product Description

Bronco (ZHangZhoug) Electric Machinery Manufacturing Co., Ltd is located in the beautiful HangZhou
Economic Development Zone, where occupies an area of 40,000 square meters.

CHINAMFG is a company that combines the development, manufacturing, and marketing of gasoline
generators, diesel generators, water pumps, air compressors.

Factory possess advanced production testing equipment and a modern quality management system, and
have always implemented comprehensive quality control through strict adherence to ISO9001
standards. Furthermore, our products have also passed GE, CE, EMC certification.

Since 1994, the annual import and export value has exceeded USD100 million for every year.

FEATURE:
 1.The start power of air compressor is a qualified engine, insuring fuel buring effectively and economically
 2.Adopting several reliable measures for shock protection, with a small shock of the whole sets.
 3.With a whole closed structure set, adopting light materials, small cubage and light weight. 
F A Q: 
1Q:Are you a factory or trading company? 
A: We are a factory.
 
2Q:Where is your factory located? 
A: Our factory is located in Xihu (West Lake) Dis. industry,HangZhou city, ZHangZhoug Province, China.
It’s near HangZhou  port.
 
3Q:Can you accept OEM?
A:Yes, we can accept OEM.
 
4Q:What’s your delivery time?
A:Normally 30 days for container order.
 
5Q:How about quality control in your factory? 
A: Our QC Department take the strictly quality control for every spare parts and whole machine. 
  /* 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

Lubrication Style: Oil-free
Cooling System: Air Cooling
Cylinder Arrangement: Parallel Arrangement
Cylinder Position: Horizontal
Structure Type: Closed Type
Compress Level: Single-Stage
Customization:
Available

|

air compressor

What Are the Downsides of Using Oil-Free Air Compressors?

While oil-free air compressors offer numerous advantages, there are also some downsides to consider. Understanding these drawbacks is important when evaluating the suitability of oil-free compressors for specific applications. Here’s a detailed explanation of the downsides of using oil-free air compressors:

1. Higher Initial Cost:

Oil-free air compressors generally have a higher initial cost compared to oil-lubricated compressors. The design and technology used in oil-free compressors, such as specialized coatings, precision manufacturing, and advanced filtration systems, contribute to their higher price tag. This can be a significant factor for budget-conscious buyers or for applications where cost is a primary consideration. However, it’s important to weigh the initial cost against the long-term benefits and potential cost savings in terms of maintenance, energy efficiency, and reduced risk of oil contamination.

2. Reduced Durability:

Oil-free compressors may have slightly reduced durability compared to oil-lubricated compressors. The absence of oil for lubrication can result in increased wear on certain components, such as piston rings, valves, and bearings. However, modern advancements in materials and engineering have significantly improved the durability and lifespan of oil-free compressors. With proper maintenance and adherence to recommended operating conditions, oil-free compressors can still provide reliable performance over an extended period.

3. Higher Energy Consumption:

Oil-free air compressors typically have higher energy consumption compared to oil-lubricated compressors. The absence of oil for lubrication increases friction within the compressor, requiring more energy to overcome this resistance. However, advancements in compressor design, such as improved air ends, energy-efficient motors, and variable speed drives, have helped minimize this energy consumption gap. Additionally, the potential energy savings from eliminating the need for oil changes and reducing the risk of pressure drops due to oil contamination can offset the higher energy consumption over the compressor’s lifetime.

4. Limited Cooling Capacity:

Oil-free compressors may have limited cooling capacity compared to oil-lubricated compressors. Oil acts as a lubricant and coolant in oil-lubricated compressors, effectively dissipating heat generated during compression. In contrast, oil-free compressors rely on other cooling mechanisms, such as air or water cooling, which may have limitations in handling high heat loads. This can be a consideration for applications that require continuous or high-duty cycle operation in elevated ambient temperatures. Adequate cooling systems and proper monitoring of temperature limits are necessary to prevent overheating and ensure optimal performance of oil-free compressors.

5. Noisy Operation:

Oil-free air compressors are generally noisier compared to oil-lubricated compressors. The absence of lubricating oil can result in increased noise levels due to direct metal-to-metal contact between rotating and reciprocating parts. However, advancements in noise reduction technologies and sound insulation materials have helped mitigate this issue to some extent. Additionally, the noise level can vary between different models and brands of oil-free compressors, so it’s important to consider the specific noise requirements of the application and select a compressor that meets those criteria.

Despite these downsides, oil-free air compressors have become increasingly popular and widely used in various industries due to their advantages in providing clean, oil-free compressed air. It’s important to assess the specific requirements of the application, consider the trade-offs, and consult with compressed air experts to determine whether an oil-free compressor is the most suitable choice.

air compressor

Can Oil-Free Compressors Be Integrated into Existing Systems?

Yes, oil-free compressors can be integrated into existing systems in many cases. Here’s a detailed explanation of the integration possibilities and considerations when incorporating oil-free compressors into existing systems:

1. Compatibility:

Before integrating an oil-free compressor into an existing system, it’s important to assess the compatibility between the compressor and the system. Consider factors such as the required air pressure and flow rate, the electrical requirements, and the physical space available for installation. Compare these requirements with the capabilities and specifications of the oil-free compressor to ensure a suitable match.

2. Installation:

The installation process may vary depending on the specific system and compressor configuration. In some cases, it may be a straightforward replacement of the existing compressor with the oil-free compressor. However, certain modifications or adjustments may be necessary to accommodate the differences between oil-lubricated and oil-free compressors. For example, oil-free compressors may require additional filtration or moisture removal equipment to maintain the desired air quality. It’s essential to follow the manufacturer’s installation guidelines and consult with qualified professionals if needed.

3. Piping and Connections:

When integrating an oil-free compressor into an existing system, the piping and connections need to be evaluated. The existing piping should be inspected for any potential issues such as leaks, corrosion, or inadequate sizing. Depending on the specific requirements of the oil-free compressor, modifications to the piping system may be necessary to ensure proper airflow, pressure drop, and connection compatibility. It’s crucial to ensure that the piping system can handle the air volume and pressure generated by the oil-free compressor without any restrictions or safety risks.

4. Control and Monitoring:

Integrating an oil-free compressor into an existing system may involve adjustments to the control and monitoring components. The control system should be capable of effectively operating and regulating the oil-free compressor based on the desired air pressure and flow requirements. This may require reprogramming or reconfiguring the control settings to accommodate the specific features and functionalities of the oil-free compressor. Additionally, monitoring systems should be updated to include relevant parameters specific to oil-free compressor operation, such as air purity levels or maintenance alerts.

5. Training and Familiarization:

When integrating an oil-free compressor into an existing system, it’s important to provide training and familiarization to the personnel responsible for operating and maintaining the equipment. The differences between oil-lubricated and oil-free compressors should be clearly explained, including any specific maintenance requirements or operational considerations. Training sessions can help ensure that the staff understands the new equipment and can effectively operate and maintain it in a safe and efficient manner.

6. Benefits and Considerations:

Integrating an oil-free compressor into an existing system offers several benefits. It can improve air quality, eliminate the risk of oil contamination, and enhance the performance and reliability of the compressed air system. However, it’s important to consider the initial investment costs, potential modifications required, and the overall compatibility with the existing system. Conducting a thorough cost-benefit analysis and consulting with experts can help determine the feasibility and potential advantages of integrating an oil-free compressor into the existing system.

In summary, oil-free compressors can generally be integrated into existing systems with proper assessment, planning, and installation procedures. Evaluating compatibility, ensuring appropriate installation, addressing piping and connection requirements, adjusting control and monitoring systems, providing adequate training, and considering the associated benefits and considerations are crucial steps in successfully integrating an oil-free compressor into an existing system.

air compressor

What Industries Commonly Use Oil-Free Air Compressors?

Oil-free air compressors are utilized in various industries where clean and oil-free compressed air is essential for specific applications. These industries rely on oil-free compressors to ensure product quality, maintain equipment integrity, and meet industry regulations. Here’s a detailed explanation of the industries commonly using oil-free air compressors:

1. Food and Beverage:

The food and beverage industry extensively employs oil-free air compressors. These compressors are used in processes such as food packaging, filling, bottling, and product drying. Oil-free compressors prevent oil contamination, ensuring product quality, food safety, and compliance with industry regulations. They help maintain the freshness of food products, prevent flavor or odor contamination, and minimize the risk of product spoilage.

2. Pharmaceutical and Healthcare:

In the pharmaceutical and healthcare sectors, oil-free air compressors are vital for maintaining the purity and integrity of medical gases, powering respiratory devices, and supporting laboratory applications. Oil-free compressors deliver clean and uncontaminated compressed air for critical processes, such as ventilators, nebulizers, surgical instruments, dental tools, and laboratory testing. They ensure patient safety, regulatory compliance, and reliable operation in these sensitive environments.

3. Electronics and Semiconductor:

The electronics and semiconductor industries require oil-free air compressors for various applications. These compressors are used in cleanrooms and manufacturing processes where air quality is crucial to prevent contamination of sensitive electronic components. Oil-free compressors provide clean and dry compressed air for applications like chip manufacturing, circuit board assembly, and air knife systems. They help ensure the reliability and quality of electronic products while minimizing the risk of particle contamination.

4. Automotive and Aerospace:

In the automotive and aerospace industries, oil-free air compressors are utilized for painting, coating, and pneumatic tools. These compressors deliver clean, oil-free compressed air, ensuring high-quality finishes and preventing oil contamination that could affect adhesion or cause defects. Oil-free compressors play a critical role in maintaining the precision and reliability of pneumatic tools used in assembly lines, manufacturing processes, and aircraft maintenance.

5. Textile and Garment:

The textile and garment industries rely on oil-free air compressors for various applications, including powering pneumatic tools, air agitation in dyeing processes, and providing clean compressed air for textile manufacturing. Oil-free compressors prevent oil contamination that could stain or damage fabrics, ensuring product quality and minimizing the risk of production defects. They help maintain efficiency and reliability in textile production while meeting strict quality standards.

6. Chemical and Petrochemical:

The chemical and petrochemical industries utilize oil-free air compressors in critical processes where air purity is essential. These compressors are used in applications such as air sparging, pneumatic conveying, and instrument air supply. Oil-free compressors ensure that the compressed air does not introduce contaminants, ensuring the integrity of chemical reactions, preventing product contamination, and maintaining the safety of equipment and personnel.

7. Research and Laboratories:

Research facilities and laboratories across various industries rely on oil-free air compressors for a wide range of applications. These include air supply for analytical instruments, sample preparation, cell culture, and other research processes. Oil-free compressors provide clean and reliable compressed air, ensuring accurate test results, preventing contamination, and maintaining the integrity of samples and experiments.

It’s important to note that while these industries commonly use oil-free air compressors, the specific requirements may vary based on the application and industry standards. Selecting the appropriate oil-free compressor and adhering to recommended maintenance practices are crucial to achieve optimal performance and meet industry-specific needs.

China factory Inquiry About Oil-Free Air Compressor Bn75016W   arb air compressorChina factory Inquiry About Oil-Free Air Compressor Bn75016W   arb air compressor
editor by CX 2024-04-09

China Professional Electric Silent Oil Free 7.5kw 15kw 22kw 37kw 55kw 75kw 90kw 110kw 160kw 200kw 315kw Screw Air Compressor 7bar-13bar with CE arb air compressor

Product Description

 

Electric silent oil free 7.5kw 15kw 22kw 37kw 55kw 75kw 90kw 110kw 160kw 200kw 315kw screw air compressor 7bar-13bar with CE 

Products Description

Type: Oil Injected Permanent Magnetic Screw Compressor
Voltage: 380V/50HZ/3P, 220V/60HZ/3P, 400V/50HZ/3P, 415V/50HZ/3P or Customer′s Requirements
Working Pressure: 7bar/8bar/10bar
Installed Motor Power: 18.5~110 Kw
Color: Blue
Driven Method: Taper Connection Direct Driven
Air End: High Efficiency Airend
Trademark: SCR
Transport Package: Standard Wooden Packing
Available Certificate: CE, ISO, UL, ASME, GHOST
Origin: ZheJiang , China
application: Packing,Painting,Precision Electroplating,Peparing

 

 

Advantages:
1. China-Japan latest technology cooperation, high reliability.
2. Oil Cooling Permanent Magnetic Motor.
3. IP65 protection grade & heavy duty air filter, suitable for high dusty environment.
4. IE4 Efficiency motor efficiency.
5. Most energy saving mode, Only work at loading.
6. Wide frequency range 25%-100%.
7. Premium Magnetic material resist more than 180ºC temp.
8. Reliable PM motor supplier from Italy.
9. Direct Taper connection, no transmission power loss, easy maintenance.
10.Touch Screen PLC with preset running schedule, more intelligent control.
11. Both main motor and fan motor are inverter control, more accurate control.
12. Easy for installation and service.
13. Fantastic Energy Saving, save up to more than 30-40%.

Details image 

HIGH QUALITY PM MOTOR

The motor winding take use of new technology vacuum expoxy potting process, it increase the thermal conducivity and motor insulation protection
Automatic vacuum expoxy processing enhance the motor quality
The new seal technology of winding, it is sealed with expoxy, better protection for winding.
F grade insulation grade, resist up to 180degree, integrated PTC protection.
 

        PM MOTOR COOLING                                                                     SCR heavy duty air filter

        Liquid Cooling, IP65 PM Motor. 
        Indepent cooling system.

HIGH EFFICIENCY SEPARATION SYSTEM
Cyclone oil tank design encsure the high separation efficiency.
First stage mechanical centrifugal separation.
Second stage is high efficiency oil separator.
4000hours life-span of oil separator.
The oil content is lower than 3PPM.

LATEST V/F Inverter
* Latest V/F technology Inverter.
* CE/UL Certificed Inverter.
* Both Motor are inverter control.
* High reliable inverter brand proofed in the market.
* Professional service support.
* Automatic airend speed adjust to match your air demand, help good energy saving

How to choose ?

Model No. Working pressure
bar
Capacity(FAD)
m3/min
Power
kw
Driving model
Cooling method 
Noise level
dB
Outlet diameter Weight
kg
Dimension 
mm
YCR7.5 7 1.2 7.5 Direct
Air cooling(Standard)
63 G3/4″ 400 890*560*840
8 1.1
10 1.0
12 0.8
YCR11 7 1.8 11 Direct
Air cooling(Standard)
64 G3/4″ 460 1050*690*1080
8 1.6
10 1.5
12 1.3
YCR15 7 2.6 15 Direct
Air cooling(Standard
65 G3/4″ 500 1050*690*1080
8 2.4
10 2.1
12 1.8
YCR22 7  3.7 22 Direct driven 
Air cooling
65 G1″  550 1350*780*1250
8  3.5
10  3.1
12  2.7
YCR30     7 5.3 30 Direct driven 
Air cooling
67    G1-1/2″    940    1420*900*1425
 8 5.1
10 4.6
12 3.9
YCR37 7 6.5 37 Direct driven
Air cooling
67 G1-1/2″ 1000 1420*900*1425
8 6.2
10 5.6
12 4.9
YCR45 7 8.1 45 Direct driven
Air cooling
 70 G1-1/2″  1050  1750*1100*1700
8 7.5
10 7.0
12 6.0
YCR55 7 10.5 55 Direct driven
Air cooling
73 G2″ 1500 1750*1100*1700
8 10
9 9.0
12 8.0
YCR75 7 14.3 75 Direct driven 
Air cooling
75 G2″ 1700 1750*1100*1700
8 13.0
10 11.8
12 10.5

 

 

 

 

 

 

 

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Lubrication Style: Lubricated
Cooling System: Air Cooling
Power Source: AC Power
Cylinder Position: Angular
Structure Type: Closed Type
Installation Type: Stationary Type
Customization:
Available

|

air compressor

Are There Specific Filtration Requirements for Oil-Free Compressors?

Yes, oil-free compressors have specific filtration requirements to ensure the quality and purity of the compressed air output. These filtration requirements are designed to address the unique characteristics of oil-free compressors and the potential contaminants that can be present in the intake air. Here’s a detailed explanation of the specific filtration requirements for oil-free compressors:

1. Pre-Filtration:

Pre-filtration is the first stage of filtration in oil-free compressors and is designed to remove larger particles, such as dust, dirt, and debris, from the intake air. These particles can enter the compressor and cause damage to internal components or affect the performance of downstream filtration stages. Pre-filters typically consist of pleated or mesh filters that capture particles of various sizes. The efficiency of pre-filters is usually specified in terms of their particle size removal capability, such as 5 microns or 10 microns.

2. Coalescing Filtration:

The coalescing filtration stage in oil-free compressors is responsible for removing smaller particles and coalescing water vapor into droplets for subsequent removal. This stage is crucial in ensuring that the compressed air remains free from fine particles and moisture, which can cause contamination and corrosion issues. Coalescing filters are designed with special media that capture and combine small particles and water droplets, allowing them to be easily separated from the compressed air. The efficiency of coalescing filters is typically specified in terms of their particulate removal capability and moisture removal efficiency, such as 0.01 microns and 99.9% respectively.

3. Activated Carbon Filtration:

Activated carbon filtration is often employed as a final stage in the filtration process of oil-free compressors. Activated carbon filters help eliminate odors and absorb any remaining oil vapors or hydrocarbons that might have bypassed the previous filtration stages. These filters contain activated carbon granules with a high surface area, allowing them to adsorb and trap odor-causing compounds and trace amounts of oil vapor. The efficiency of activated carbon filters is typically specified based on their odor removal capacity and oil vapor adsorption capacity.

It’s important to note that the specific filtration requirements for oil-free compressors may vary depending on the application and the desired air quality standards. Industries such as food and beverage, pharmaceuticals, electronics manufacturing, and painting often have more stringent filtration requirements to meet their specific air purity needs. In such cases, additional filtration stages, such as sterile filters or high-efficiency particulate air (HEPA) filters, may be incorporated to achieve the desired level of air quality.

Complying with industry standards and guidelines, such as ISO 8573, can provide guidance on the appropriate filtration requirements for oil-free compressors. These standards define specific limits for contaminants in compressed air, including oil content, particulate matter, and moisture, and can help determine the necessary filtration stages and their efficiency ratings.

By implementing the appropriate filtration requirements, oil-free compressors can ensure that the compressed air produced is clean, dry, and free from contaminants, meeting the specific air quality needs of various applications.

air compressor

Are There Regulations Governing the Use of Oil-Free Air Compressors?

Yes, there are regulations governing the use of oil-free air compressors. Here’s a detailed explanation of the regulations and standards that apply to the use of oil-free air compressors:

1. Industry-Specific Regulations:

Depending on the industry and application, there may be specific regulations that govern the use of oil-free air compressors. For example:

  • In the pharmaceutical industry, organizations such as the Food and Drug Administration (FDA) in the United States and the European Medicines Agency (EMA) in Europe have guidelines and regulations regarding the use of compressed air in pharmaceutical manufacturing processes. These guidelines often require the use of oil-free compressors to ensure the purity and integrity of the compressed air used in the production of drugs.
  • In the food and beverage industry, regulatory bodies such as the U.S. Food and Drug Administration (FDA) and the European Food Safety Authority (EFSA) have specific requirements for compressed air used in food and beverage processing. These regulations often mandate the use of oil-free compressors to prevent contamination of the final products.
  • In the electronics industry, standards such as ISO 8573-1 specify the maximum allowable levels of various contaminants in compressed air used for electronic component manufacturing. These standards often necessitate the use of oil-free compressors to ensure the cleanliness and quality of the compressed air.

2. Air Quality Standards:

There are various air quality standards and classifications that dictate the acceptable levels of contaminants in compressed air. These standards help ensure that compressed air meets specific purity requirements for different applications. Examples of air quality standards include ISO 8573, which defines the purity classes for different contaminants in compressed air, and the Compressed Air and Gas Institute (CAGI) standards. Oil-free compressors are commonly used to meet the stringent requirements of these air quality standards, particularly in applications where oil contamination is not permissible.

3. Environmental Regulations:

Environmental regulations may also impact the use of oil-free air compressors. Oil-lubricated compressors can pose environmental risks if not properly managed. The release of oil into the environment can lead to soil and water contamination. To mitigate these risks, regulatory bodies such as the Environmental Protection Agency (EPA) in the United States and similar agencies in other countries have regulations and guidelines in place to govern the use, handling, and disposal of lubricants and compressed air equipment. The use of oil-free compressors can help comply with these environmental regulations by eliminating the risk of oil contamination.

4. Occupational Health and Safety Regulations:

Occupational health and safety regulations may also apply to the use of oil-free air compressors. These regulations aim to protect workers from hazards associated with compressed air systems. They may cover aspects such as noise levels, vibration, electrical safety, and proper maintenance procedures. Compliance with these regulations helps ensure the safety and well-being of workers operating and maintaining the oil-free compressors and the associated compressed air systems.

It’s important to note that the specific regulations and standards governing the use of oil-free air compressors may vary depending on the country, industry, and application. It’s recommended to consult with regulatory authorities, industry associations, and relevant standards organizations to ensure compliance with the applicable regulations and standards in a particular context.

air compressor

What Are the Advantages of Using Oil-Free Air Compressors?

Oil-free air compressors offer several advantages over their oil-lubricated counterparts. These compressors are designed to deliver clean, oil-free compressed air and provide benefits in various applications. Here’s a detailed explanation of the advantages of using oil-free air compressors:

1. Clean and Oil-Free Air:

The primary advantage of oil-free air compressors is that they produce compressed air that is free from oil contamination. This makes them suitable for applications where oil-free air is crucial, such as in industries like food and beverage, pharmaceuticals, electronics, and painting. Oil-free compressed air ensures product quality, prevents contamination of sensitive equipment, and eliminates the risk of oil-related issues in downstream processes.

2. Reduced Maintenance:

Oil-free compressors generally require less maintenance compared to oil-lubricated compressors. Since there is no oil to change or monitor, maintenance tasks related to oil filtration, oil changes, and oil disposal are eliminated. This can result in cost savings, reduced downtime, and simplified maintenance schedules.

3. Elimination of Oil Contamination Risk:

With oil-free compressors, there is no risk of oil contaminating the compressed air system. This eliminates the need for additional filtration or separation equipment to remove oil from the compressed air. It simplifies the overall system design, reduces the risk of oil-related equipment failure, and minimizes the maintenance and associated costs.

4. Compact and Lightweight:

Oil-free compressors are often designed to be compact and lightweight, making them portable and easy to transport. This feature is advantageous for applications where mobility is required, such as construction sites, workshops, and on-site maintenance tasks.

5. Quiet Operation:

Oil-free compressors tend to operate at lower noise levels compared to oil-lubricated compressors. The absence of oil lubrication reduces the friction and mechanical noise, resulting in quieter operation. This makes oil-free compressors more suitable for noise-sensitive environments or applications where reduced noise levels are desired.

6. Environmental Considerations:

Oil-free air compressors are environmentally friendly due to the absence of oil. They eliminate the risk of oil spills or leaks that can harm the environment. Furthermore, oil-free compressors may require less energy consumption compared to oil-lubricated compressors, contributing to energy efficiency and reduced carbon footprint.

7. Lower Initial Cost:

In general, oil-free compressors tend to have a lower initial cost compared to oil-lubricated compressors. This can be advantageous for applications with budget constraints or when the specific requirements of the application align with the capabilities of oil-free compressors.

It’s important to note that oil-free air compressors may have certain limitations compared to oil-lubricated compressors. They may have lower maximum operating pressures and higher operating temperatures. Additionally, the absence of oil lubrication may result in slightly reduced efficiency and increased wear on certain components over time.

By considering these advantages, users can determine whether oil-free air compressors are suitable for their specific application and requirements.

China Professional Electric Silent Oil Free 7.5kw 15kw 22kw 37kw 55kw 75kw 90kw 110kw 160kw 200kw 315kw Screw Air Compressor 7bar-13bar with CE   arb air compressorChina Professional Electric Silent Oil Free 7.5kw 15kw 22kw 37kw 55kw 75kw 90kw 110kw 160kw 200kw 315kw Screw Air Compressor 7bar-13bar with CE   arb air compressor
editor by CX 2024-02-27

China factory 380-420V CHINAMFG Zr Series High Quality Hermetic Scroll Compressor Air Compressor for Refrigeration Condensing Unit Cold Room for AC with R407c/R404A arb air compressor

Product Description

 

PRODUCT DIAPLAY

 

PRODUCT DATA

 

Product Feature
The axial and radial flexibility technology of the CHINAMFG vortex ensures the compressor
Excellent reliability and efficiency
Broad product capacity range
Lower oil circulation rate
Superior resistance to liquid hammer
Lower noise and vibration levels
Lower LCCP (Life Cycle Climate Performance)
Dual machine parallel and triple machine parallel, with excellent seasonal energy efficiencyCompared to (needs to be verified or confirmed by CHINAMFG TM)

380-420V; 50Hz, 3 Phase              
Typical Model Nominal Power (HP) Nominal Capacity Input power (W) Current        (A) Displ  (cm3/rev) Weight   (kg) Height   (mm) Noise   (dBA)
(W) (Btu/h)
ZR24K3E-TFD 2 5,900 20,119 1,920 4.3 5.92 25.0  383 69.0 
ZR36K3E-TFD 3 8,900 30,349 2,680 5.7 8.61 28.0  406 71.0 
ZR42K3E-TFD 3.5 10,250 34,952 3,100 7.1 9.94 28.0  406 69.0 
ZR47K3E-TFD 3.92 11,550 39,385 3,430 7.2 11.16 30.0  436 71.0 
ZR61KCE-TFD 5.1 14,000 47,600 4,460 8.4 3.14 28.0  436 71.0 
ZR68KCE-TFD 5.7 14,800 54,000 5,100 8.9 3.11 39.0  436 72.0 
ZR72KCE-TFD 6 16,600 56,500 5,150 9.1 3.22 57.2  457 72.0 
ZR81KCE-TFD 6.8 18,600 63,500 5,990 10.9 3.17 39.0  457 72.0 
ZR94KCE-TFD 7.8 23,000 78,600 6,950 12.9 3.34 57.2  462 74.0 
ZR108KCE-TFD 9 28,800 88,100 7,580 13.8 3.4 59.9  497 74.0 
ZR125KCE-TFD 10.4 30,000 103,000 8,950 16 3.4 61.2  552 74.0 
ZR144KCE-TFD 12 34,500 118,000 10,150 17.7 3.4 61.2  552 75.0 
ZR160KCE-TFD 13.3 37,500 128,000 11,450 20.5 3.28 64.9  552 78.0 
ZR190KCE-TFD 15.8 44,000 150,000 13,650 26.5 3.22 66.2  552 82.0 
ZR250KCE-TWD 20.8 58,500 200,000 18,000 30.1 3.25 139.3  552 83.0 
ZR310KCE-TWD 25.8 72,500 248,000 22,300 37.9 3.25 160.1  552 85.0 
ZR380KCE-TWD 31.7 91,500 313,000 26,700 45.5 3.43 176.9  552 88.0 

MAIN PRIDUCTS

 

OUR COMPANY

 

CERTIFICATE

 

After-sales Service: 1 Year
Warranty: 12month
Installation Type: Movable Type
Lubrication Style: Oil-free
Cylinder Position: Vertical
Structure Type: Piston
Samples:
US$ 100/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

air compressor

What Are the Downsides of Using Oil-Free Air Compressors?

While oil-free air compressors offer numerous advantages, there are also some downsides to consider. Understanding these drawbacks is important when evaluating the suitability of oil-free compressors for specific applications. Here’s a detailed explanation of the downsides of using oil-free air compressors:

1. Higher Initial Cost:

Oil-free air compressors generally have a higher initial cost compared to oil-lubricated compressors. The design and technology used in oil-free compressors, such as specialized coatings, precision manufacturing, and advanced filtration systems, contribute to their higher price tag. This can be a significant factor for budget-conscious buyers or for applications where cost is a primary consideration. However, it’s important to weigh the initial cost against the long-term benefits and potential cost savings in terms of maintenance, energy efficiency, and reduced risk of oil contamination.

2. Reduced Durability:

Oil-free compressors may have slightly reduced durability compared to oil-lubricated compressors. The absence of oil for lubrication can result in increased wear on certain components, such as piston rings, valves, and bearings. However, modern advancements in materials and engineering have significantly improved the durability and lifespan of oil-free compressors. With proper maintenance and adherence to recommended operating conditions, oil-free compressors can still provide reliable performance over an extended period.

3. Higher Energy Consumption:

Oil-free air compressors typically have higher energy consumption compared to oil-lubricated compressors. The absence of oil for lubrication increases friction within the compressor, requiring more energy to overcome this resistance. However, advancements in compressor design, such as improved air ends, energy-efficient motors, and variable speed drives, have helped minimize this energy consumption gap. Additionally, the potential energy savings from eliminating the need for oil changes and reducing the risk of pressure drops due to oil contamination can offset the higher energy consumption over the compressor’s lifetime.

4. Limited Cooling Capacity:

Oil-free compressors may have limited cooling capacity compared to oil-lubricated compressors. Oil acts as a lubricant and coolant in oil-lubricated compressors, effectively dissipating heat generated during compression. In contrast, oil-free compressors rely on other cooling mechanisms, such as air or water cooling, which may have limitations in handling high heat loads. This can be a consideration for applications that require continuous or high-duty cycle operation in elevated ambient temperatures. Adequate cooling systems and proper monitoring of temperature limits are necessary to prevent overheating and ensure optimal performance of oil-free compressors.

5. Noisy Operation:

Oil-free air compressors are generally noisier compared to oil-lubricated compressors. The absence of lubricating oil can result in increased noise levels due to direct metal-to-metal contact between rotating and reciprocating parts. However, advancements in noise reduction technologies and sound insulation materials have helped mitigate this issue to some extent. Additionally, the noise level can vary between different models and brands of oil-free compressors, so it’s important to consider the specific noise requirements of the application and select a compressor that meets those criteria.

Despite these downsides, oil-free air compressors have become increasingly popular and widely used in various industries due to their advantages in providing clean, oil-free compressed air. It’s important to assess the specific requirements of the application, consider the trade-offs, and consult with compressed air experts to determine whether an oil-free compressor is the most suitable choice.

air compressor

What Is the Impact of Oil-Free Technology on Compressed Air Quality?

The use of oil-free technology in compressed air systems has a significant impact on ensuring high-quality compressed air. Here’s a detailed explanation of the impact of oil-free technology on compressed air quality:

1. Elimination of Oil Contamination:

Oil-free technology ensures that the compressed air produced is free from oil contamination. Traditional compressors that use oil lubrication can introduce oil particles, aerosols, and vapors into the compressed air stream. These oil contaminants can have detrimental effects on downstream equipment, processes, and products. By eliminating oil from the compression process, oil-free technology helps maintain the purity and cleanliness of the compressed air, ensuring that it meets the required air quality standards.

2. Avoidance of Oil-Related Issues:

Oil contamination in compressed air systems can lead to various issues. Oil can cause damage to pneumatic equipment, valves, and seals, resulting in reduced efficiency and increased maintenance costs. It can also lead to product contamination in industries such as food and beverage, pharmaceuticals, and electronics manufacturing. Oil-free technology eliminates the risks associated with oil-related issues, ensuring that the compressed air remains clean, dry, and suitable for sensitive applications.

3. Enhanced Air Purity:

Oil-free compressors are designed with advanced filtration systems to further enhance air purity. These filtration systems typically include pre-filters, coalescing filters, and activated carbon filters. Pre-filters remove larger particles, coalescing filters capture smaller particles and coalesce water vapor, and activated carbon filters absorb odors and remaining oil vapors. By incorporating such filtration stages, oil-free technology ensures that the compressed air is free from particulate matter, moisture, odors, and residual oil content, resulting in higher air purity levels.

4. Compliance with Air Quality Standards:

Oil-free technology helps compressed air systems comply with air quality standards and regulations. Standards such as ISO 8573 specify acceptable limits for contaminants in compressed air, including oil content, particulate matter, and moisture. Oil-free compressors, with their ability to produce clean and oil-free compressed air, facilitate compliance with these standards. This is particularly crucial in industries where air quality is critical, such as healthcare, pharmaceuticals, electronics, and food processing.

5. Protection of Sensitive Applications:

Many applications require clean and uncontaminated compressed air to ensure optimal performance and product integrity. Oil-free technology provides the necessary assurance of air quality for these sensitive applications. Industries such as medical devices, laboratory testing, spray painting, and semiconductor manufacturing rely on oil-free compressed air to prevent contamination, maintain precise operation, and achieve consistent results. The use of oil-free technology safeguards the reliability and integrity of these applications.

6. Reduced Maintenance and Downtime:

Oil-free compressors generally require less maintenance compared to oil-lubricated compressors. The absence of oil eliminates the need for oil changes, oil filters, and associated maintenance tasks. This results in reduced maintenance costs, less downtime, and increased productivity. Additionally, the risk of oil-related failures and breakdowns is minimized, leading to improved overall system reliability and uptime.

In summary, oil-free technology has a significant positive impact on compressed air quality. It eliminates oil contamination, avoids oil-related issues, enhances air purity, facilitates compliance with air quality standards, protects sensitive applications, and reduces maintenance and downtime. These benefits make oil-free technology a preferred choice in industries where clean and high-quality compressed air is essential.

air compressor

What Are the Advantages of Using Oil-Free Air Compressors?

Oil-free air compressors offer several advantages over their oil-lubricated counterparts. These compressors are designed to deliver clean, oil-free compressed air and provide benefits in various applications. Here’s a detailed explanation of the advantages of using oil-free air compressors:

1. Clean and Oil-Free Air:

The primary advantage of oil-free air compressors is that they produce compressed air that is free from oil contamination. This makes them suitable for applications where oil-free air is crucial, such as in industries like food and beverage, pharmaceuticals, electronics, and painting. Oil-free compressed air ensures product quality, prevents contamination of sensitive equipment, and eliminates the risk of oil-related issues in downstream processes.

2. Reduced Maintenance:

Oil-free compressors generally require less maintenance compared to oil-lubricated compressors. Since there is no oil to change or monitor, maintenance tasks related to oil filtration, oil changes, and oil disposal are eliminated. This can result in cost savings, reduced downtime, and simplified maintenance schedules.

3. Elimination of Oil Contamination Risk:

With oil-free compressors, there is no risk of oil contaminating the compressed air system. This eliminates the need for additional filtration or separation equipment to remove oil from the compressed air. It simplifies the overall system design, reduces the risk of oil-related equipment failure, and minimizes the maintenance and associated costs.

4. Compact and Lightweight:

Oil-free compressors are often designed to be compact and lightweight, making them portable and easy to transport. This feature is advantageous for applications where mobility is required, such as construction sites, workshops, and on-site maintenance tasks.

5. Quiet Operation:

Oil-free compressors tend to operate at lower noise levels compared to oil-lubricated compressors. The absence of oil lubrication reduces the friction and mechanical noise, resulting in quieter operation. This makes oil-free compressors more suitable for noise-sensitive environments or applications where reduced noise levels are desired.

6. Environmental Considerations:

Oil-free air compressors are environmentally friendly due to the absence of oil. They eliminate the risk of oil spills or leaks that can harm the environment. Furthermore, oil-free compressors may require less energy consumption compared to oil-lubricated compressors, contributing to energy efficiency and reduced carbon footprint.

7. Lower Initial Cost:

In general, oil-free compressors tend to have a lower initial cost compared to oil-lubricated compressors. This can be advantageous for applications with budget constraints or when the specific requirements of the application align with the capabilities of oil-free compressors.

It’s important to note that oil-free air compressors may have certain limitations compared to oil-lubricated compressors. They may have lower maximum operating pressures and higher operating temperatures. Additionally, the absence of oil lubrication may result in slightly reduced efficiency and increased wear on certain components over time.

By considering these advantages, users can determine whether oil-free air compressors are suitable for their specific application and requirements.

China factory 380-420V CHINAMFG Zr Series High Quality Hermetic Scroll Compressor Air Compressor for Refrigeration Condensing Unit Cold Room for AC with R407c/R404A   arb air compressorChina factory 380-420V CHINAMFG Zr Series High Quality Hermetic Scroll Compressor Air Compressor for Refrigeration Condensing Unit Cold Room for AC with R407c/R404A   arb air compressor
editor by CX 2023-11-10

China factory Electric Portable Air Compressor, 12V Tire Inflator, Portable Silent Mini Air Compressor arb air compressor

Product Description

Features:
1.1 Heavy duty, gearless, direct drive and powerful motor.
1.2 Oil-less design.
1.3 Stainless steel flapper valve.
1.4 High performance PTFE piston ring.
1.5 Anodized aluminum alloy cylinder with heat sink
1.6 3ft heavy duty rubber hose with universal thumb-latch valve adapter.
1.7 16ft power cord with battery clamps with 40-amp inline fuse holder
1.8 Automatic reset thermal overload protector.

Specifications:

Voltage

DC-12V

Max. Ampere Draw

30A

195*70*R14 Tire Inflation Rate

 (0-2.1kg/cm²)

1Min.40Sec

Max. Pressure

180psi/12.4BAR

Flow Rate

2.50CFM@0psi 

70.0LPM@1psi 

Max Continuous Use
(@30psi & 23C)

60Min.

Noise

67 dB

Power Cord Length

5M

Air Hose Length

0.92M

Net Weight(kg)

4.4Kg(9.7Lbs)

Unit Dimensions  
(L * W * H, mm

255*150*260mm

Quick Details
Certification:CE
Voltage:12V 
Max Pressure:101-150Psi
Size:178*83*152mm
Place of Origin:HangZhou , China
Brand Name:ALITAAIR
Model Number:A3
Warranty:3 Years
Commodity:portable tire inflator
Duty cycle:25 min @ 30 psi
195*70*R14 tire inflation rate:1 min 55 sec
Flow rate:1.91 cfm @ 0 psi
Working pressure:120 psi
Amp:15A
Color:grey
Material:ABS, metal
N.W.:2.4KG
Certificate:CE, RoHS

Packaging & Delivery
Selling Units:Single item
Single package size: 27X16X19 cm
Single gross weight:3.5 kg
Package Type:Common package, 3 boxes in 1 carton 
OEM package available
Lead Time :

Quantity(Set) 1 – 500 >500
Est. Time(days) 7 To be negotiated

Model Number A3B Item Name Portable tire inflator
195*70*R14 tire inflation rate (0~2.1kg/cm²) 1 min 40 sec Certificate CE, RoHS
Voltage DC 12V Power Cord Length 3.1m
Max Amp Draw 15A Air Hose Length 1.1m
Max Pressure 120psi (8.4kg/cm²) Net Weight 2.4KG
Flow Rate 1.91 cfm @ 0 psi     Dimension 252.6*81.2*165.9mm
Operation Duration 25 min @ 30 psi  MOQ 1 sets
Noise 71dB Port HangZhou CHINA

Certification: RoHS, CE
Voltage: 12V
Max Pressure: 101-150Psi
Transport Package: Carton Pallets
Specification: 252.6×81.2×165.9mm
Trademark: ALITA PNEUMATIC
Samples:
US$ 54/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

air compressor

How are air compressors utilized in the aerospace industry?

Air compressors play a crucial role in various applications within the aerospace industry. They are utilized for a wide range of tasks that require compressed air or gas. Here are some key uses of air compressors in the aerospace industry:

1. Aircraft Systems:

Air compressors are used in aircraft systems to provide compressed air for various functions. They supply compressed air for pneumatic systems, such as landing gear operation, braking systems, wing flap control, and flight control surfaces. Compressed air is also utilized for starting aircraft engines and for cabin pressurization and air conditioning systems.

2. Ground Support Equipment:

Air compressors are employed in ground support equipment used in the aerospace industry. They provide compressed air for tasks such as inflating aircraft tires, operating pneumatic tools for maintenance and repair, and powering air-driven systems for fueling, lubrication, and hydraulic operations.

3. Component Testing:

Air compressors are utilized in component testing within the aerospace industry. They supply compressed air for testing and calibrating various aircraft components, such as valves, actuators, pressure sensors, pneumatic switches, and control systems. Compressed air is used to simulate operating conditions and evaluate the performance and reliability of these components.

4. Airborne Systems:

In certain aircraft, air compressors are employed for specific airborne systems. For example, in military aircraft, air compressors are used for air-to-air refueling systems, where compressed air is utilized to transfer fuel between aircraft in mid-air. Compressed air is also employed in aircraft de-icing systems, where it is used to inflate inflatable de-icing boots on the wing surfaces to remove ice accumulation during flight.

5. Environmental Control Systems:

Air compressors play a critical role in the environmental control systems of aircraft. They supply compressed air for air conditioning, ventilation, and pressurization systems, ensuring a comfortable and controlled environment inside the aircraft cabin. Compressed air is used to cool and circulate air, maintain desired cabin pressure, and control humidity levels.

6. Engine Testing:

In the aerospace industry, air compressors are utilized for engine testing purposes. They provide compressed air for engine test cells, where aircraft engines are tested for performance, efficiency, and durability. Compressed air is used to simulate different operating conditions and loads on the engine, allowing engineers to assess its performance and make necessary adjustments or improvements.

7. Oxygen Systems:

In aircraft, air compressors are involved in the production of medical-grade oxygen for onboard oxygen systems. Compressed air is passed through molecular sieve beds or other oxygen concentrator systems to separate oxygen from other components of air. The generated oxygen is then supplied to the onboard oxygen systems, ensuring a sufficient and continuous supply of breathable oxygen for passengers and crew at high altitudes.

It is important to note that air compressors used in the aerospace industry must meet stringent quality and safety standards. They need to be reliable, efficient, and capable of operating under demanding conditions to ensure the safety and performance of aircraft systems.

air compressor

Are there differences between single-stage and two-stage air compressors?

Yes, there are differences between single-stage and two-stage air compressors. Here’s an in-depth explanation of their distinctions:

Compression Stages:

The primary difference between single-stage and two-stage air compressors lies in the number of compression stages they have. A single-stage compressor has only one compression stage, while a two-stage compressor has two sequential compression stages.

Compression Process:

In a single-stage compressor, the entire compression process occurs in a single cylinder. The air is drawn into the cylinder, compressed in a single stroke, and then discharged. On the other hand, a two-stage compressor utilizes two cylinders or chambers. In the first stage, air is compressed to an intermediate pressure in the first cylinder. Then, the partially compressed air is sent to the second cylinder where it undergoes further compression to reach the desired final pressure.

Pressure Output:

The number of compression stages directly affects the pressure output of the air compressor. Single-stage compressors typically provide lower maximum pressure levels compared to two-stage compressors. Single-stage compressors are suitable for applications that require moderate to low air pressure, while two-stage compressors are capable of delivering higher pressures, making them suitable for demanding applications that require greater air pressure.

Efficiency:

Two-stage compressors generally offer higher efficiency compared to single-stage compressors. The two-stage compression process allows for better heat dissipation between stages, reducing the chances of overheating and improving overall efficiency. Additionally, the two-stage design allows the compressor to achieve higher compression ratios while minimizing the work done by each stage, resulting in improved energy efficiency.

Intercooling:

Intercooling is a feature specific to two-stage compressors. Intercoolers are heat exchangers placed between the first and second compression stages. They cool down the partially compressed air before it enters the second stage, reducing the temperature and improving compression efficiency. The intercooling process helps to minimize heat buildup and reduces the potential for moisture condensation within the compressor system.

Applications:

The choice between a single-stage and two-stage compressor depends on the intended application. Single-stage compressors are commonly used for light-duty applications such as powering pneumatic tools, small-scale workshops, and DIY projects. Two-stage compressors are more suitable for heavy-duty applications that require higher pressures, such as industrial manufacturing, automotive service, and large-scale construction.

It is important to consider the specific requirements of the application, including required pressure levels, duty cycle, and anticipated air demand, when selecting between a single-stage and two-stage air compressor.

In summary, the main differences between single-stage and two-stage air compressors lie in the number of compression stages, pressure output, efficiency, intercooling capability, and application suitability.

air compressor

Can you explain the basics of air compressor terminology?

Understanding the basic terminology related to air compressors can help in better comprehension of their operation and discussions related to them. Here are some essential terms related to air compressors:

1. CFM (Cubic Feet per Minute): CFM is a unit of measurement that denotes the volumetric flow rate of compressed air. It indicates the amount of air a compressor can deliver within a minute and is a crucial factor in determining the compressor’s capacity.

2. PSI (Pounds per Square Inch): PSI is a unit of measurement used to quantify pressure. It represents the force exerted by the compressed air on a specific area. PSI is a vital specification for understanding the pressure capabilities of an air compressor and determining its suitability for various applications.

3. Duty Cycle: Duty cycle refers to the percentage of time an air compressor can operate in a given time period. It indicates the compressor’s ability to handle continuous operation without overheating or experiencing performance issues. For instance, a compressor with a 50% duty cycle can run for half the time in a given hour or cycle.

4. Horsepower (HP): Horsepower is a unit used to measure the power output of a compressor motor. It indicates the motor’s capacity to drive the compressor pump and is often used as a reference for comparing different compressor models.

5. Receiver Tank: The receiver tank, also known as an air tank, is a storage vessel that holds the compressed air delivered by the compressor. It helps in stabilizing pressure fluctuations, allowing for a more consistent supply of compressed air during peak demand periods.

6. Single-Stage vs. Two-Stage: These terms refer to the number of compression stages in a reciprocating air compressor. In a single-stage compressor, air is compressed in a single stroke of the piston, while in a two-stage compressor, it undergoes initial compression in one stage and further compression in a second stage, resulting in higher pressures.

7. Oil-Free vs. Oil-Lubricated: These terms describe the lubrication method used in air compressors. Oil-free compressors have internal components that do not require oil lubrication, making them suitable for applications where oil contamination is a concern. Oil-lubricated compressors use oil for lubrication, enhancing durability and performance but requiring regular oil changes and maintenance.

8. Pressure Switch: A pressure switch is an electrical component that automatically starts and stops the compressor motor based on the pre-set pressure levels. It helps maintain the desired pressure range in the receiver tank and protects the compressor from over-pressurization.

9. Regulator: A regulator is a device used to control and adjust the output pressure of the compressed air. It allows users to set the desired pressure level for specific applications and ensures a consistent and safe supply of compressed air.

These are some of the fundamental terms associated with air compressors. Familiarizing yourself with these terms will aid in understanding and effectively communicating about air compressors and their functionality.

China factory Electric Portable Air Compressor, 12V Tire Inflator, Portable Silent Mini Air Compressor   arb air compressorChina factory Electric Portable Air Compressor, 12V Tire Inflator, Portable Silent Mini Air Compressor   arb air compressor
editor by CX 2023-10-07

China 1500W 280LPM AC oil free silent air compressor head piston air compressor for industrial motor 220V 50HZ arb air compressor

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air-compressor

How to Repair and Maintain an Air Compressor

A compressor is a device used to move air from one place to another. Air enters the air compressor through the intake valve. Inside the compressor, the vanes on the inner rotor rotate within an eccentric cavity. The self-adjusting length arm divides the space into multiple cavities of different sizes. As the rotor rotates, air fills the cavity. As air flows around the cavity, it builds pressure and is squeezed out of the compressor output.

Positive displacement

Positive displacement air compressors use reciprocating pistons to compress air. Gas is drawn in during the suction stroke and compressed by moving the piston in the opposite direction. It then discharges the compressed air by moving it in the opposite direction. This type of air compressor is most commonly found in automobiles, refrigerators, and other applications that require high pressure. However, it is not as efficient as a centrifugal compressor.
Most modern air compressors use positive displacement. Positive displacement models capture a volume of air in the compression chamber and distribute it when the pump is operating at maximum capacity. They are more economical than their negative displacement counterparts. Reciprocating screw air compressors are the most common positive displacement compressors. The reciprocating screw air compressor adopts a water jacket around the cylinder and is often used in processes such as oil drilling.
A bicycle pump is an example of positive displacement compression. Air is drawn into the cylinder and compressed by the moving piston. A piston compressor works on the same principle, but it uses a rotating crankshaft or connecting rod to complete the movement of the pistons. There are two types of positive displacement compressors: single-acting and double-acting. Both types work on the same principle, both are positive displacement compressors. The difference between the two types is the pressure ratio.
In air compression, positive displacement compression reduces the volume of the fluid and reduces its viscosity. This results in higher pressure ratios and is used in centrifugal, axial, and scroll compressors. Positive displacement is a common feature of most air compressors. Positive displacement compressors offer the same benefits and are more energy-efficient when applied to oil-free and gas applications. This type of compression is usually the best choice for low-pressure applications.

oil free

If you’re looking for an air compressor for your business, consider an oil-free air compressor. These models offer cleaner, quieter operation than traditional air compressors and require less maintenance. They also meet ISO Class 0 or Class 1 air purity requirements. Oil-free air compressors are also quieter, with fewer moving parts and less noise. These advantages make oil-free air compressors an ideal solution for many commercial applications.
Air purity is critical in many industries. Even the tiniest drop of oil can damage production equipment or damage products. The best way to find an oil-free air compressor for your business is to consider the process and end product. As air quality improves, more and more businesses are turning to oil-free compressors. Some of the advantages and disadvantages of these air compressors are:
When choosing an oil-free air compressor, it is important to understand the terminology used in the industry. Knowing these terms will make it easier for you to choose the right compressor for your needs. ACTFM, or actual cubic feet per minute, is an industry term for measuring the amount of air pumped in one minute under rated conditions. Although a simple number, it can be very useful in determining which type of air compressor is best for your application.
The ISO 8573-1 international standard defines air quality and provides air purity classifications. The strictest classification is air purity class 0. Many manufacturers claim that oil-free air compressors meet this standard. However, a class 0 oil-free air compressor does not necessarily mean that the air is free of contaminants. In fact, Class 0 is the benchmark for air purity. While zero air quality is the highest level, that doesn’t mean it’s completely oil-free.
air-compressor

double acting

A double-acting air compressor is a device that uses compressed air to generate electricity. Its working principle is based on piston and connecting rod. The connecting rod connects the crankshaft to the piston through pins and caps. The piston moves as the piston moves. Rods are usually made of forged carbon steel. In terms of service and maintenance, double-acting compressors require regular vise maintenance and proper cleaning.
The displacement of the compressor is a measure of the displacement that the piston can produce in a certain period of time. Displacement is usually expressed in actual cubic feet per minute. The exact calculation depends on the type of cylinder and the configuration of the compressor. Single-acting cylinders can have head-end or crank-end displacement, both of which can be measured using the displacement equation. A double-acting air compressor will use this equation. 4 and 6 calculate the displacement.
Double-acting air compressors have multiple cylinders and are made of cast iron. They are water-cooled and have a mechanical connection between the piston and connecting rod. A double-acting compressor compresses air twice per revolution of the motor. One cylinder moves up, while the other cylinder moves down. The piston moves down, allowing air to enter through valve #1. During the operation of the compressor, the temperature of the air and gas increases.
Double-acting air compressors typically have high pressure and are considered workhorses. Double-acting compressors also feature intercooling and double compression. As a result, these machines tend to last longer than single-acting compressors. Its low speed and dual compression make it a workhorse in the compressor industry. Double-acting air compressors are workhorses and versatile devices.
air-compressor

fuel tank pressure switch

You can adjust the pressure in the air compressor tank by adjusting the differential pressure. You can turn the mainspring clockwise or counterclockwise to increase or decrease the pressure. This valve will open when the pressure is low enough to start the compressor. If the pressure is too low, the valve should be closed. The cut-in and cut-out pressures should be set to appropriate values. After adjusting the tank pressure, check the hysteresis of the tank pressure switch and set the desired shutoff pressure.
If the pressure in the tank falls below the cut-in level, the tank pressure switch must be replaced. You can test the switch with a multimeter. Make sure the switch is not damaged. If you can’t find the switch, you can look at the other sections. If you find any damaged or missing parts, you should replace them. Otherwise, it may be time to check the tank pressure switch. You may need to disassemble the compressor and remove the switch.
The fuel tank pressure switch is an important part of the air compressor. It keeps you informed of the amount of air delivered by the compressor. If your tank or tank is damaged, your readings will be wrong. If the pressure switch is damaged, it will not function properly and result in incorrect readings. Fortunately, there are some easy ways to fix this. To prevent this from happening, keep the tank pressure switch in good condition.
When the air pressure in the tank drops to the cut-in pressure setting, the switch allows power to flow through it. This will start the motor and pump of the air compressor. Then, if the pressure in the tank rises above the cut-off level, the switch will trip and stop the compressor. This will prevent it from being over-pressurized. Power flow will continue to flow to the motor. Depending on your compressor model, you can change the cut-in and cut-out pressures as needed.

energy source

The power supply of the air compressor is very important. Most air compressors run on 12 VDC, which is ideal for automotive use. Alternatively, you can buy a switching power supply for around $20. No matter which power supply you choose, you must ensure that it can support the maximum current of the compressor. You can find power supplies in all sizes, from quarter-horsepower to five-horsepower.
The voltage required for a three-phase air compressor will vary. Three-phase air compressors require three separate power cords and a three-phase electrical service panel. This is because a standard 120/240-volt electrical service panel is not sufficient to power a three-phase compressor. Additionally, three-phase compressors require three separate isolated wires for the engine and motor circuits. Three-phase compressors do not require a neutral wire.

China 1500W 280LPM AC oil free silent air compressor head piston air compressor for industrial motor 220V 50HZ     arb air compressorChina 1500W 280LPM AC oil free silent air compressor head piston air compressor for industrial motor 220V 50HZ     arb air compressor
editor by CX 2023-04-27

China Oil-Less Silent High-Pressure Compact Air Compressor, Industrial Air Compressor, 3.0 HP 50L Air Compressor arb air compressor

Item Description

  Spec.
 

Parameters
Model TAT-3050N Energy 3.0HP
Noise(DB) seventy two Max Pressure ten.0BAR
Revolution 1400 RPMRPM Tank 50L/13GAL
Max delivery 320L/Min N.W. (KG) 56
Packing (mm) 750*335*910 G.W. (KG) 71

Product Featured:

1. Built-in controller 
two. Sturdy rubber wheel and common wheel for straightforward traveling 
three.4pole industrial motor with 2X more time life time
4. Oil-significantly less silent pump
five. Specialist class with higher pressure,
6. Far more air shipping and delivery

Item view

Company overviewOur exhibition

 


/ FCL
|
350 FCL

(Min. Order)

###

After-sales Service: 1 Year Limited Warranty
Warranty: 1 Year Limited Warranty
Lubrication Style: Oil-free
Cooling System: Air Cooling
Cylinder Position: Vertical
Structure Type: Closed Type

###

Customization:
Available

|


###

Parameters
Model TAT-3050N Power 3.0HP
Noise(DB) 72 Max Pressure 10.0BAR
Revolution 1400 RPMRPM Tank 50L/13GAL
Max delivery 320L/Min N.W. (KG) 56
Packing (mm) 750*335*910 G.W. (KG) 71

/ FCL
|
350 FCL

(Min. Order)

###

After-sales Service: 1 Year Limited Warranty
Warranty: 1 Year Limited Warranty
Lubrication Style: Oil-free
Cooling System: Air Cooling
Cylinder Position: Vertical
Structure Type: Closed Type

###

Customization:
Available

|


###

Parameters
Model TAT-3050N Power 3.0HP
Noise(DB) 72 Max Pressure 10.0BAR
Revolution 1400 RPMRPM Tank 50L/13GAL
Max delivery 320L/Min N.W. (KG) 56
Packing (mm) 750*335*910 G.W. (KG) 71

How to Repair and Maintain an Air Compressor

A compressor is a device used to move air from one place to another. Air enters the air compressor through the intake valve. Inside the compressor, the vanes on the inner rotor rotate within an eccentric cavity. The self-adjusting length arm divides the space into multiple cavities of different sizes. As the rotor rotates, air fills the cavity. As air flows around the cavity, it builds pressure and is squeezed out of the compressor output.

Positive displacement

Positive displacement air compressors use reciprocating pistons to compress air. Gas is drawn in during the suction stroke and compressed by moving the piston in the opposite direction. It then discharges the compressed air by moving it in the opposite direction. This type of air compressor is most commonly found in automobiles, refrigerators, and other applications that require high pressure. However, it is not as efficient as a centrifugal compressor.
Most modern air compressors use positive displacement. Positive displacement models capture a volume of air in the compression chamber and distribute it when the pump is operating at maximum capacity. They are more economical than their negative displacement counterparts. Reciprocating screw air compressors are the most common positive displacement compressors. The reciprocating screw air compressor adopts a water jacket around the cylinder and is often used in processes such as oil drilling.
A bicycle pump is an example of positive displacement compression. Air is drawn into the cylinder and compressed by the moving piston. A piston compressor works on the same principle, but it uses a rotating crankshaft or connecting rod to complete the movement of the pistons. There are two types of positive displacement compressors: single-acting and double-acting. Both types work on the same principle, both are positive displacement compressors. The difference between the two types is the pressure ratio.
In air compression, positive displacement compression reduces the volume of the fluid and reduces its viscosity. This results in higher pressure ratios and is used in centrifugal, axial, and scroll compressors. Positive displacement is a common feature of most air compressors. Positive displacement compressors offer the same benefits and are more energy-efficient when applied to oil-free and gas applications. This type of compression is usually the best choice for low-pressure applications.
air-compressor

oil free

If you’re looking for an air compressor for your business, consider an oil-free air compressor. These models offer cleaner, quieter operation than traditional air compressors and require less maintenance. They also meet ISO Class 0 or Class 1 air purity requirements. Oil-free air compressors are also quieter, with fewer moving parts and less noise. These advantages make oil-free air compressors an ideal solution for many commercial applications.
Air purity is critical in many industries. Even the tiniest drop of oil can damage production equipment or damage products. The best way to find an oil-free air compressor for your business is to consider the process and end product. As air quality improves, more and more businesses are turning to oil-free compressors. Some of the advantages and disadvantages of these air compressors are:
When choosing an oil-free air compressor, it is important to understand the terminology used in the industry. Knowing these terms will make it easier for you to choose the right compressor for your needs. ACTFM, or actual cubic feet per minute, is an industry term for measuring the amount of air pumped in one minute under rated conditions. Although a simple number, it can be very useful in determining which type of air compressor is best for your application.
The ISO 8573-1 international standard defines air quality and provides air purity classifications. The strictest classification is air purity class 0. Many manufacturers claim that oil-free air compressors meet this standard. However, a class 0 oil-free air compressor does not necessarily mean that the air is free of contaminants. In fact, Class 0 is the benchmark for air purity. While zero air quality is the highest level, that doesn’t mean it’s completely oil-free.
air-compressor

double acting

A double-acting air compressor is a device that uses compressed air to generate electricity. Its working principle is based on piston and connecting rod. The connecting rod connects the crankshaft to the piston through pins and caps. The piston moves as the piston moves. Rods are usually made of forged carbon steel. In terms of service and maintenance, double-acting compressors require regular vise maintenance and proper cleaning.
The displacement of the compressor is a measure of the displacement that the piston can produce in a certain period of time. Displacement is usually expressed in actual cubic feet per minute. The exact calculation depends on the type of cylinder and the configuration of the compressor. Single-acting cylinders can have head-end or crank-end displacement, both of which can be measured using the displacement equation. A double-acting air compressor will use this equation. 4 and 6 calculate the displacement.
Double-acting air compressors have multiple cylinders and are made of cast iron. They are water-cooled and have a mechanical connection between the piston and connecting rod. A double-acting compressor compresses air twice per revolution of the motor. One cylinder moves up, while the other cylinder moves down. The piston moves down, allowing air to enter through valve #1. During the operation of the compressor, the temperature of the air and gas increases.
Double-acting air compressors typically have high pressure and are considered workhorses. Double-acting compressors also feature intercooling and double compression. As a result, these machines tend to last longer than single-acting compressors. Its low speed and dual compression make it a workhorse in the compressor industry. Double-acting air compressors are workhorses and versatile devices.
air-compressor

fuel tank pressure switch

You can adjust the pressure in the air compressor tank by adjusting the differential pressure. You can turn the mainspring clockwise or counterclockwise to increase or decrease the pressure. This valve will open when the pressure is low enough to start the compressor. If the pressure is too low, the valve should be closed. The cut-in and cut-out pressures should be set to appropriate values. After adjusting the tank pressure, check the hysteresis of the tank pressure switch and set the desired shutoff pressure.
If the pressure in the tank falls below the cut-in level, the tank pressure switch must be replaced. You can test the switch with a multimeter. Make sure the switch is not damaged. If you can’t find the switch, you can look at the other sections. If you find any damaged or missing parts, you should replace them. Otherwise, it may be time to check the tank pressure switch. You may need to disassemble the compressor and remove the switch.
The fuel tank pressure switch is an important part of the air compressor. It keeps you informed of the amount of air delivered by the compressor. If your tank or tank is damaged, your readings will be wrong. If the pressure switch is damaged, it will not function properly and result in incorrect readings. Fortunately, there are some easy ways to fix this. To prevent this from happening, keep the tank pressure switch in good condition.
When the air pressure in the tank drops to the cut-in pressure setting, the switch allows power to flow through it. This will start the motor and pump of the air compressor. Then, if the pressure in the tank rises above the cut-off level, the switch will trip and stop the compressor. This will prevent it from being over-pressurized. Power flow will continue to flow to the motor. Depending on your compressor model, you can change the cut-in and cut-out pressures as needed.

energy source

The power supply of the air compressor is very important. Most air compressors run on 12 VDC, which is ideal for automotive use. Alternatively, you can buy a switching power supply for around $20. No matter which power supply you choose, you must ensure that it can support the maximum current of the compressor. You can find power supplies in all sizes, from quarter-horsepower to five-horsepower.
The voltage required for a three-phase air compressor will vary. Three-phase air compressors require three separate power cords and a three-phase electrical service panel. This is because a standard 120/240-volt electrical service panel is not sufficient to power a three-phase compressor. Additionally, three-phase compressors require three separate isolated wires for the engine and motor circuits. Three-phase compressors do not require a neutral wire.

China Oil-Less Silent High-Pressure Compact Air Compressor, Industrial Air Compressor, 3.0 HP 50L Air Compressor     arb air compressorChina Oil-Less Silent High-Pressure Compact Air Compressor, Industrial Air Compressor, 3.0 HP 50L Air Compressor     arb air compressor
editor by CX 2023-03-30

arb air compressor

Solution Description

Specification:

740 H47 Double 50 5.50  345-415Δ 600-720Y thirteen.3Δ/7.7Y 500 -240 260 seventy four 69
60 six.30  380-480Δ 660-720Y 13.3Δ/7.7Y 600 -210 two hundred seventy eight

The advantages of Rexchip blowers: 
one. 100% oil free, Insulation class is F, Protection class is IP55.
two. Dual frequency 50HZ and 60HZ are available
3. Made of die cast aluminum ADC12.
four. Dual usage: compressor and vacuum (suction and blow).
five. Virtually maintenance free, with sealed long life bearings.
6. Smart design and low noise
7. ATEX explosion proof motor is available for all the blowers. We are the only manufacturer of blower which has the authorization to produce ATEX explosion proof motor. 
8. IE2 and IE3 motor are offered for some blowers. 
9. Good quality and competitive prices. 
10. Quick delivery date. 

Application of Rexchip blowers/pumps:
Our blowers are broadly utilised in the pursuing applications.
1. CZPT (fish and prawn pong aeration)
two. Squander drinking water treatment method, sewage treatment technique.
3. Pneumatic conveying techniques.
four. Pharmaceutical machinery
5. Garment machinery
6. Wood operating machinery
seven. Plastic equipment
8. Printing machinery
nine. Textile machinery
ten. Packaging equipment
11. Garment equipment
twelve. Paper processing.
13. Industrial cleaning equipment
fourteen. Air knives
fifteen. Dental suction equipment / dental vacuum pump

Our workshop: 

Our Exhibition: 

Our certification: (CE, ISO & CCC)

The instruction for Rexchip blowers:
The team of Rexchip has centered on this kind of blower for more than 15 many years. We only generate aspect channel blowers, it’s also called ring blower, regenerative blower, air blower, vacuum pump etc.. We also offer belt travel blowers and all the parts for this sort of blower. The selection of the power for our blowers is from .12kw to 30kw. 

Each creation treatment is operated in our own workshop, tooling making, die casting, stamping, large precision machining, assembling and automated spraying, so we could manage the good quality, cost and delivery date far better.

 

Material: Aluminum
Usage: for Manufacture, for Aeration, for Compress and Vacuum Suction
Flow Direction: Centrifugal
Pressure: High Pressure
Certification: ISO, CE, CCC
Protection Class: IP55

###

Samples:
US$ 644/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

740 H47 Double 50 5.50  345-415Δ 600-720Y 13.3Δ/7.7Y 500 -240 260 74 69
60 6.30  380-480Δ 660-720Y 13.3Δ/7.7Y 600 -210 200 78
Material: Aluminum
Usage: for Manufacture, for Aeration, for Compress and Vacuum Suction
Flow Direction: Centrifugal
Pressure: High Pressure
Certification: ISO, CE, CCC
Protection Class: IP55

###

Samples:
US$ 644/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

740 H47 Double 50 5.50  345-415Δ 600-720Y 13.3Δ/7.7Y 500 -240 260 74 69
60 6.30  380-480Δ 660-720Y 13.3Δ/7.7Y 600 -210 200 78

How to Repair and Maintain an Air Compressor

A compressor is a device used to move air from one place to another. Air enters the air compressor through the intake valve. Inside the compressor, the vanes on the inner rotor rotate within an eccentric cavity. The self-adjusting length arm divides the space into multiple cavities of different sizes. As the rotor rotates, air fills the cavity. As air flows around the cavity, it builds pressure and is squeezed out of the compressor output.

Positive displacement

Positive displacement air compressors use reciprocating pistons to compress air. Gas is drawn in during the suction stroke and compressed by moving the piston in the opposite direction. It then discharges the compressed air by moving it in the opposite direction. This type of air compressor is most commonly found in automobiles, refrigerators, and other applications that require high pressure. However, it is not as efficient as a centrifugal compressor.
Most modern air compressors use positive displacement. Positive displacement models capture a volume of air in the compression chamber and distribute it when the pump is operating at maximum capacity. They are more economical than their negative displacement counterparts. Reciprocating screw air compressors are the most common positive displacement compressors. The reciprocating screw air compressor adopts a water jacket around the cylinder and is often used in processes such as oil drilling.
A bicycle pump is an example of positive displacement compression. Air is drawn into the cylinder and compressed by the moving piston. A piston compressor works on the same principle, but it uses a rotating crankshaft or connecting rod to complete the movement of the pistons. There are two types of positive displacement compressors: single-acting and double-acting. Both types work on the same principle, both are positive displacement compressors. The difference between the two types is the pressure ratio.
In air compression, positive displacement compression reduces the volume of the fluid and reduces its viscosity. This results in higher pressure ratios and is used in centrifugal, axial, and scroll compressors. Positive displacement is a common feature of most air compressors. Positive displacement compressors offer the same benefits and are more energy-efficient when applied to oil-free and gas applications. This type of compression is usually the best choice for low-pressure applications.
air-compressor

oil free

If you’re looking for an air compressor for your business, consider an oil-free air compressor. These models offer cleaner, quieter operation than traditional air compressors and require less maintenance. They also meet ISO Class 0 or Class 1 air purity requirements. Oil-free air compressors are also quieter, with fewer moving parts and less noise. These advantages make oil-free air compressors an ideal solution for many commercial applications.
Air purity is critical in many industries. Even the tiniest drop of oil can damage production equipment or damage products. The best way to find an oil-free air compressor for your business is to consider the process and end product. As air quality improves, more and more businesses are turning to oil-free compressors. Some of the advantages and disadvantages of these air compressors are:
When choosing an oil-free air compressor, it is important to understand the terminology used in the industry. Knowing these terms will make it easier for you to choose the right compressor for your needs. ACTFM, or actual cubic feet per minute, is an industry term for measuring the amount of air pumped in one minute under rated conditions. Although a simple number, it can be very useful in determining which type of air compressor is best for your application.
The ISO 8573-1 international standard defines air quality and provides air purity classifications. The strictest classification is air purity class 0. Many manufacturers claim that oil-free air compressors meet this standard. However, a class 0 oil-free air compressor does not necessarily mean that the air is free of contaminants. In fact, Class 0 is the benchmark for air purity. While zero air quality is the highest level, that doesn’t mean it’s completely oil-free.
air-compressor

double acting

A double-acting air compressor is a device that uses compressed air to generate electricity. Its working principle is based on piston and connecting rod. The connecting rod connects the crankshaft to the piston through pins and caps. The piston moves as the piston moves. Rods are usually made of forged carbon steel. In terms of service and maintenance, double-acting compressors require regular vise maintenance and proper cleaning.
The displacement of the compressor is a measure of the displacement that the piston can produce in a certain period of time. Displacement is usually expressed in actual cubic feet per minute. The exact calculation depends on the type of cylinder and the configuration of the compressor. Single-acting cylinders can have head-end or crank-end displacement, both of which can be measured using the displacement equation. A double-acting air compressor will use this equation. 4 and 6 calculate the displacement.
Double-acting air compressors have multiple cylinders and are made of cast iron. They are water-cooled and have a mechanical connection between the piston and connecting rod. A double-acting compressor compresses air twice per revolution of the motor. One cylinder moves up, while the other cylinder moves down. The piston moves down, allowing air to enter through valve #1. During the operation of the compressor, the temperature of the air and gas increases.
Double-acting air compressors typically have high pressure and are considered workhorses. Double-acting compressors also feature intercooling and double compression. As a result, these machines tend to last longer than single-acting compressors. Its low speed and dual compression make it a workhorse in the compressor industry. Double-acting air compressors are workhorses and versatile devices.
air-compressor

fuel tank pressure switch

You can adjust the pressure in the air compressor tank by adjusting the differential pressure. You can turn the mainspring clockwise or counterclockwise to increase or decrease the pressure. This valve will open when the pressure is low enough to start the compressor. If the pressure is too low, the valve should be closed. The cut-in and cut-out pressures should be set to appropriate values. After adjusting the tank pressure, check the hysteresis of the tank pressure switch and set the desired shutoff pressure.
If the pressure in the tank falls below the cut-in level, the tank pressure switch must be replaced. You can test the switch with a multimeter. Make sure the switch is not damaged. If you can’t find the switch, you can look at the other sections. If you find any damaged or missing parts, you should replace them. Otherwise, it may be time to check the tank pressure switch. You may need to disassemble the compressor and remove the switch.
The fuel tank pressure switch is an important part of the air compressor. It keeps you informed of the amount of air delivered by the compressor. If your tank or tank is damaged, your readings will be wrong. If the pressure switch is damaged, it will not function properly and result in incorrect readings. Fortunately, there are some easy ways to fix this. To prevent this from happening, keep the tank pressure switch in good condition.
When the air pressure in the tank drops to the cut-in pressure setting, the switch allows power to flow through it. This will start the motor and pump of the air compressor. Then, if the pressure in the tank rises above the cut-off level, the switch will trip and stop the compressor. This will prevent it from being over-pressurized. Power flow will continue to flow to the motor. Depending on your compressor model, you can change the cut-in and cut-out pressures as needed.

energy source

The power supply of the air compressor is very important. Most air compressors run on 12 VDC, which is ideal for automotive use. Alternatively, you can buy a switching power supply for around $20. No matter which power supply you choose, you must ensure that it can support the maximum current of the compressor. You can find power supplies in all sizes, from quarter-horsepower to five-horsepower.
The voltage required for a three-phase air compressor will vary. Three-phase air compressors require three separate power cords and a three-phase electrical service panel. This is because a standard 120/240-volt electrical service panel is not sufficient to power a three-phase compressor. Additionally, three-phase compressors require three separate isolated wires for the engine and motor circuits. Three-phase compressors do not require a neutral wire.

 arb air compressor arb air compressor
editor by czh 2023-02-01

China China Top Quality Oil Free Industrial Air Compressor arb air compressor

Item Description

Quite very good top quality for your choice ! a lot more particulars ,please speak to us 
Oil totally free / oil considerably less dental Air compressor is largely dental area, medical place and so on
Features
1. Both 100 % copper and aluminium coil wire are available.
2. Compact, light-weight, east to have. Suit for cell,
3. Oil free of charge oilless silent sequence, get 100% purity pressed air

complex information as follows:

Design Air delivery Working pressure Pace Noise Energy Outlet tank/L dimension 
(Nm3/min) (Mpa) (r.p.m) (dB) (kw) (inch) (L*W*H)CM
ZW-.1/seven .1 .7  980 ≤78 1.5(220v) G1/4″ forty 75*35*75
ZW-.24/seven .24 .7  950 ≤81 two.2(380v) G1/2″ 80 114*40*90
ZW-.3/seven .three .7  950 ≤81 2.2(380v) G1/2″ 80 114*forty*90
VW-.45/seven .45 .7  920 ≤83 four(380v) G1/2″ one hundred twenty 130*46*ninety six
VW-.6/7 .6 .7  950 ≤84 five.5(380v) G1/2″ a hundred and twenty one hundred thirty*46*96
VW-.42/10 .forty two 1.0  920 ≤84 4(380v) G1/2″ one hundred twenty 130*forty six*ninety six
VW-.5/fourteen .five 1.4  670 ≤84 5.5(380v) G1/2″ one hundred eighty a hundred forty five*50*110
WW-.6/10 .six one.0  740 ≤84 5.5(380v) G1/2″ 180 145*fifty*one hundred ten
WW-.9/7 .9 .7  810 ≤84 seven.5(380v) G1/2″ one hundred eighty 145*50*110
WW-.9/ten .9 1.0  810 ≤84 seven.5(380v) G1/2″ one hundred eighty a hundred forty five*50*a hundred and ten
WW-.7/twelve.5 .7 1.3  740 ≤84 seven.5(380v) G1/2″ a hundred and eighty 145*50*a hundred and ten
WW-1.25/7 one..25 .7  860 ≤85 eleven(380v) G3/4″ 280 one hundred sixty*65*120
WW-1.25/10 1.twenty five one.0  770 ≤85 eleven(380v) G3/4″ 280 a hundred and sixty*65*a hundred and twenty
WW-1.6/ten 1.six one.0  820 ≤85 fifteen(380v) G3/4″ 320 166*sixty five*122
WW-1.8/10  1.eight one.0  900 ≤86 fifteen(380v) G3/4″ 320 166*65*122
WW-1.2/10 1.two one.0  740 ≤84 five.5*2(380v) G1″ three hundred 185*a hundred twenty five*a hundred and forty
WW-1.8/seven one.eight .7  810 ≤84 seven.5*2(380v) G1″ 300 185*one hundred twenty five*one hundred forty
WW-1.8/10 one.8 one.0  810 ≤84 seven.5*2(380v) G1″ 300 185*125*a hundred and forty
WW-1.4/12.five one.four one.3  740 ≤84 7.5*2(380v) G1″ three hundred 185*a hundred twenty five*140
WW-2.5/seven 2.five .7  860 ≤86 eleven*2(380v) G1″ 300 185*125*one hundred forty
WW-2.5/10 2.five one.0  770 ≤86 eleven*2(380v) G1″ three hundred 185*a hundred twenty five*a hundred and forty
WW-3./seven 3 .7  770 ≤86 11*2(380v) G1″ 320 185*125*one hundred forty
WW-3./10 3 1.0  810 ≤86 eleven*2(380v) G1″ 320 185*one hundred twenty five*140
WW-3.2/7 three.two .7  820 ≤86 fifteen*2(380v) G1″ 320 a hundred ninety*one hundred fifty*150
WW-3.2/10 3.two one.0  820 ≤86 fifteen*2(380v) G1″ 320 one hundred ninety*150*a hundred and fifty
WW.3.6/7 3.6 .7  900 ≤86 fifteen*2(380v) G1″ 320 a hundred ninety*150*a hundred and fifty
WW-3.6/10 three.6 1.0  900 ≤86 15*2(380v) G1″ 320 a hundred ninety*150*one hundred fifty
WW.4.8/10 4.eight one.0  900 ≤86 fifteen*2(380v) 11*1(380v) G11/2″ / 221*136*one zero five
WW-5.4/ten five.four one.0  900 ≤86 15kw*three G11/2″ / 221*136*100
SW-6.5/8 6.5 .8  640 ≤86 55kw DN50FL / one hundred eighty*130*160

Hs: 8414809090
Packing Material: Plywood
Voltage: 380V 50Hz;460V 60Hz;220 60Hz
Port: Shanghai or Ningbo
Type: Piston
Performance: Low Noise

###

Customization:

###

Model Air delivery Working pressure Speed Noise Power Outlet tank/L dimension 
(Nm3/min) (Mpa) (r.p.m) (dB) (kw) (inch) (L*W*H)CM
ZW-0.1/7 0.1 0.7  980 ≤78 1.5(220v) G1/4" 40 75*35*75
ZW-0.24/7 0.24 0.7  950 ≤81 2.2(380v) G1/2" 80 114*40*90
ZW-0.3/7 0.3 0.7  950 ≤81 2.2(380v) G1/2" 80 114*40*90
VW-0.45/7 0.45 0.7  920 ≤83 4(380v) G1/2" 120 130*46*96
VW-0.6/7 0.6 0.7  950 ≤84 5.5(380v) G1/2" 120 130*46*96
VW-0.42/10 0.42 1.0  920 ≤84 4(380v) G1/2" 120 130*46*96
VW-0.5/14 0.5 1.4  670 ≤84 5.5(380v) G1/2" 180 145*50*110
WW-0.6/10 0.6 1.0  740 ≤84 5.5(380v) G1/2" 180 145*50*110
WW-0.9/7 0.9 0.7  810 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-0.9/10 0.9 1.0  810 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-0.7/12.5 0.7 1.3  740 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-1.25/7 1..25 0.7  860 ≤85 11(380v) G3/4" 280 160*65*120
WW-1.25/10 1.25 1.0  770 ≤85 11(380v) G3/4" 280 160*65*120
WW-1.6/10 1.6 1.0  820 ≤85 15(380v) G3/4" 320 166*65*122
WW-1.8/10  1.8 1.0  900 ≤86 15(380v) G3/4" 320 166*65*122
WW-1.2/10 1.2 1.0  740 ≤84 5.5*2(380v) G1" 300 185*125*140
WW-1.8/7 1.8 0.7  810 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-1.8/10 1.8 1.0  810 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-1.4/12.5 1.4 1.3  740 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-2.5/7 2.5 0.7  860 ≤86 11*2(380v) G1" 300 185*125*140
WW-2.5/10 2.5 1.0  770 ≤86 11*2(380v) G1" 300 185*125*140
WW-3.0/7 3 0.7  770 ≤86 11*2(380v) G1" 320 185*125*140
WW-3.0/10 3 1.0  810 ≤86 11*2(380v) G1" 320 185*125*140
WW-3.2/7 3.2 0.7  820 ≤86 15*2(380v) G1" 320 190*150*150
WW-3.2/10 3.2 1.0  820 ≤86 15*2(380v) G1" 320 190*150*150
WW.3.6/7 3.6 0.7  900 ≤86 15*2(380v) G1" 320 190*150*150
WW-3.6/10 3.6 1.0  900 ≤86 15*2(380v) G1" 320 190*150*150
WW.4.8/10 4.8 1.0  900 ≤86 15*2(380v) 11*1(380v) G11/2" / 221*136*105
WW-5.4/10 5.4 1.0  900 ≤86 15kw*3 G11/2" / 221*136*100
SW-6.5/8 6.5 0.8  640 ≤86 55kw DN50FL / 180*130*160
Hs: 8414809090
Packing Material: Plywood
Voltage: 380V 50Hz;460V 60Hz;220 60Hz
Port: Shanghai or Ningbo
Type: Piston
Performance: Low Noise

###

Customization:

###

Model Air delivery Working pressure Speed Noise Power Outlet tank/L dimension 
(Nm3/min) (Mpa) (r.p.m) (dB) (kw) (inch) (L*W*H)CM
ZW-0.1/7 0.1 0.7  980 ≤78 1.5(220v) G1/4" 40 75*35*75
ZW-0.24/7 0.24 0.7  950 ≤81 2.2(380v) G1/2" 80 114*40*90
ZW-0.3/7 0.3 0.7  950 ≤81 2.2(380v) G1/2" 80 114*40*90
VW-0.45/7 0.45 0.7  920 ≤83 4(380v) G1/2" 120 130*46*96
VW-0.6/7 0.6 0.7  950 ≤84 5.5(380v) G1/2" 120 130*46*96
VW-0.42/10 0.42 1.0  920 ≤84 4(380v) G1/2" 120 130*46*96
VW-0.5/14 0.5 1.4  670 ≤84 5.5(380v) G1/2" 180 145*50*110
WW-0.6/10 0.6 1.0  740 ≤84 5.5(380v) G1/2" 180 145*50*110
WW-0.9/7 0.9 0.7  810 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-0.9/10 0.9 1.0  810 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-0.7/12.5 0.7 1.3  740 ≤84 7.5(380v) G1/2" 180 145*50*110
WW-1.25/7 1..25 0.7  860 ≤85 11(380v) G3/4" 280 160*65*120
WW-1.25/10 1.25 1.0  770 ≤85 11(380v) G3/4" 280 160*65*120
WW-1.6/10 1.6 1.0  820 ≤85 15(380v) G3/4" 320 166*65*122
WW-1.8/10  1.8 1.0  900 ≤86 15(380v) G3/4" 320 166*65*122
WW-1.2/10 1.2 1.0  740 ≤84 5.5*2(380v) G1" 300 185*125*140
WW-1.8/7 1.8 0.7  810 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-1.8/10 1.8 1.0  810 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-1.4/12.5 1.4 1.3  740 ≤84 7.5*2(380v) G1" 300 185*125*140
WW-2.5/7 2.5 0.7  860 ≤86 11*2(380v) G1" 300 185*125*140
WW-2.5/10 2.5 1.0  770 ≤86 11*2(380v) G1" 300 185*125*140
WW-3.0/7 3 0.7  770 ≤86 11*2(380v) G1" 320 185*125*140
WW-3.0/10 3 1.0  810 ≤86 11*2(380v) G1" 320 185*125*140
WW-3.2/7 3.2 0.7  820 ≤86 15*2(380v) G1" 320 190*150*150
WW-3.2/10 3.2 1.0  820 ≤86 15*2(380v) G1" 320 190*150*150
WW.3.6/7 3.6 0.7  900 ≤86 15*2(380v) G1" 320 190*150*150
WW-3.6/10 3.6 1.0  900 ≤86 15*2(380v) G1" 320 190*150*150
WW.4.8/10 4.8 1.0  900 ≤86 15*2(380v) 11*1(380v) G11/2" / 221*136*105
WW-5.4/10 5.4 1.0  900 ≤86 15kw*3 G11/2" / 221*136*100
SW-6.5/8 6.5 0.8  640 ≤86 55kw DN50FL / 180*130*160

Choose an Air Compressor for Your Business

There are several factors to consider when choosing an air compressor for your business. One factor to consider is the type of compressor you are looking for, which may include single-stage, low noise, and positive displacement. Hope this article helps you make the right decision. After all, your business success will depend on this device! Let’s take a closer look at these factors. Also, consider what compressor manufacturers say about their products.
air-compressor

Positive displacement

Positive displacement air compressors compress air by drawing in a volume from an inlet and extruding it out of a chamber. This increases the pressure at which the gas can be pumped at rates that cannot be pumped through the outlet at lower pressures at higher mass flow rates. These types of compressors are available in single-acting and double-acting configurations. They are classified by the number of cylinders.
There are two different types of air compressors: reciprocating air compressors and screw compressors. Both are roll machines. Positive displacement air compressors use pistons and cylinders to compress air. The resulting air pressure builds up within the compressor housing, increasing the potential energy of the compressed air. Screw air compressors are the most popular positive displacement air compressors, which can be either single-stage screw-blade air compressors or multi-stage screw-blade oil-immersed screw air compressors.
Positive displacement flowmeters use a rotating measuring chamber to divide the fluid into discrete quantities. The number of times the chamber was refilled and emptied was used to estimate the total flow. However, positive displacement flow meters are prone to leaks, reducing the accuracy of the estimates. If a leak occurs, it can cause false readings and damage the compressor. However, leaks in positive displacement air compressors can reduce pressure.
The most common types of positive displacement air compressors are screw, reciprocating, and vane. Rotary positive displacement air compressors are also available as well as many other air compressors. Positive displacement air compressors are most commonly used in large manufacturing facilities. If you are considering an air compressor for commercial or industrial applications, it is imperative to understand how the components of the unit work. Please read the information below to learn more before deciding which application is best for you.
Positive displacement air compressors use a piston to force air into a chamber, compressing the air in the process. The piston moves in the opposite direction, thereby reducing the volume of the chamber. When the amount of air in the chamber reaches its maximum value, the valve opens, allowing it to escape at higher pressure. Positive displacement air compressors are generally less efficient than centrifugal compressors. However, they are still an excellent choice for a variety of applications.
air-compressor

Single-stage

The discharge pressure of the single-stage air compressor is used to control the operation of the compressor. Properly designed load/unload controls allow the air compressor to operate at its most efficient point while minimizing stress on the main engine bearings. Single-stage air compressors can approach variable speed efficiency with appropriate storage capacity. However, improper storage can cause premature bearing wear on the main unit. If this is the case, a single-stage air compressor may not be ideal.
A single-stage air compressor has only one cylinder, which means one stroke is required to move air from one cylinder to another. Pressure is measured in cubic feet per minute or CFM. Tank size is also important as a large single-stage air compressor may be required to operate multiple air tools. Single-stage air compressors can be used in a variety of applications and can last for years.
For the most common uses, single-stage air compressors are the most practical option. These devices work with most hand tools, from hammers to grinders. Single-stage air compressors are lightweight and easy to move. However, two-stage air compressors provide more CFM, making them a better choice for industrial or commercial use. However, two-stage compressors are not suitable for private use. Therefore, if your main purpose is DIY and craft projects, it is better to choose a single-stage air compressor.
Compared with two-stage air compressors, single-stage screw air compressors are cheaper. They come from a variety of manufacturers and range in power from 3 to 600 horsepower. Single-stage air compressors are a cost-effective solution for a variety of air compressor needs. They offer flexibility and multiple control methods, making them an excellent choice for many different applications. Therefore, when choosing an air compressor for your business, choose the one with the most suitable functions.
Single-stage air compressors are the most affordable and easy-to-use air compressors for small to medium jobs. They also have higher compression ratios. The compression ratio is the ratio of absolute discharge pressure to absolute inlet pressure. When calculating the ratio, it takes into account atmospheric pressure and gauge pressure. The compression ratio pushes the surface area of ​​the rotor, which increases the thrust load.
Single-stage air compressors are smaller and easier to transport than two-stage units. Single-stage air compressors have one air intake, and two-stage air compressors have two air intakes. The difference between single-stage and two-stage air compressors largely depends on the number of times the air is compressed. A single-stage air compressor compresses the air once, while a dual-stage air compressor compresses the same amount of air twice.
air-compressor

low noise

Low noise air compressors are ideal for a variety of applications. While no air compressor is completely silent, some models are much quieter than others. For the Hitachi EC28M portable compressor, the noise level is 59 decibels. The compressor features steel rollers that protect the internal components and give it a sleek, modern look. It also has a one-gallon fuel tank and a half-horsepower drive.
Noise from air compressors can be distracting and reduce productivity. It is important to choose low-noise air compressors to keep employees healthy and happy at work. While noise is an unfortunate aspect of working on the shop floor, reducing it can improve productivity. By reducing distracting noise, employees can focus on their work and communicate more effectively. That means higher quality work and happier clients. If you’re looking for a low-noise air compressor, be sure to read the tips below.
Low noise air compressors are an excellent choice for businesses of all sizes. These powerful tools can run multiple tools simultaneously. The two water tanks are made of rust-resistant aluminum and are stackable. This air compressor is heavier and can handle large jobs with ease. It costs more than other air compressors, but it can handle a lot of work efficiently. CZPT Air Tools air compressors come with a one-year warranty and are highly recommended by contractors.
Noiseless air compressors are generally more expensive than comparable products, but they are worth the extra cost. Noiseless compressors are a good option for businesses that need to avoid disturbing nearby people. For example, you might want to consider a low-noise air compressor for a dental office, which cannot tolerate noise. Fortunately, this problem can be solved by relocating the compressor to a location that is more isolated from your workspace.
One brand of low-noise air compressors offers two models. The CZPT Air Tools 2010A features a large cast aluminum can, regulating pressure gauge, and two universal quick-connects. It produces 68 decibels of noise when it works. It has a large 8-gallon fuel tank capacity and has wheels and handles for easy transport. Its powerful engine produces a low noise level of 68 decibels.
Another popular low noise air compressor is the Makita MAC210Q Quiet Series. This model is capable of producing up to 71.5 decibels of sound, which is the amount of air it produces at 90PSI. The MAC210Q features a durable oil-free pump and weighs just 36 pounds with a handle and wheels. These compressors are easy to move and ideal for indoor work.
China China Top Quality Oil Free Industrial Air Compressor     arb air compressorChina China Top Quality Oil Free Industrial Air Compressor     arb air compressor
editor by czh 2023-01-14

China Fruit Vegetabe Meat Seafood Medicine Air Cooling Scroll Compressor Refrigeration Condensing 18HP arb air compressor

Item Description

SOME Project LIST 
 

Task TIME EQUIPMENTS Quantity Project Area
2019 50000 Units FOR Complete SALSE  Projects
2571 70000 UNITS  FOR Complete Tasks
2571 80000 UNITS  FOR Whole SALSE PROJECTS 

1. Monoblock Kind: Space SAVING      Effortless Set up
– 1 supporter motor or 2 supporter motors, offered for .5HP~5HP
– Air condenser with hydrophilic film coating, higner corrosion resistance
– Interior spiral copper pipes, higner heat exchange region and heat exchange effectiveness
–  Thickened shell made from expert air conditioner maker
2. Box Type: Perfect FOR OUTDOOR       WATERPROOF
– 1 enthusiast motor or 2 supporter motors, available for 1HP~12HP
– U shape, V form or L form condenser
– Offered for the entire sequence
– Effortless to ship, put in and preserve

Temperature Parameters

 

Temp. Assortment&Software
Higher Temp. 
Medium Temp.  Lower Temp. 
0ºC~10ºC -18ºC~0ºC -25ºC~-18ºC
Chilly Storage Friuit&Vegetable Cold Storage Ice Bag&Vaccine Chilly Storage  Fish&Meat

 

US $300-1,500
/ Piece
|
1 Piece

(Min. Order)

###

After-sales Service: Video Technical Support, Online Support
Warranty: 1year
Type: Air-Cooled
Cooling Water: Air-Cooled
System Type: Open System
Fans Species: Single-speed Fan

###

PROJECT TIME EQUIPMENTS QUANTITY PROJECT LOCATION
2019 50000 UNITS FOR TOTAL SALSE  PROJECTS
2020 70000 UNITS  FOR TOTAL PROJECTS
2021 80000 UNITS  FOR TOTAL SALSE PROJECTS 

###

Temp. Range&Application
High Temp. 
US $300-1,500
/ Piece
|
1 Piece

(Min. Order)

###

After-sales Service: Video Technical Support, Online Support
Warranty: 1year
Type: Air-Cooled
Cooling Water: Air-Cooled
System Type: Open System
Fans Species: Single-speed Fan

###

PROJECT TIME EQUIPMENTS QUANTITY PROJECT LOCATION
2019 50000 UNITS FOR TOTAL SALSE  PROJECTS
2020 70000 UNITS  FOR TOTAL PROJECTS
2021 80000 UNITS  FOR TOTAL SALSE PROJECTS 

###

Temp. Range&Application
High Temp. 

Choosing an Air Compressor

Considering a new Air Compressor? Here are some tips to make the decision easier. Learn the pros and cons of each type, including the differences between oil-injected and oil-free models, single stage and positive displacement. In addition, learn more about the different technologies that are available for your air compressor. It is important to choose an appropriate unit for the type of work you do. Here are some of the best compressors available today.
air-compressor

Positive displacement

There are several different types of air compressors, but most are positive displacement air compressors. They use a rotary or reciprocating component to compress air. The reciprocating component compresses air by reducing the volume of the chamber. Positive displacement compressors are used in bicycle pumps, chemical plants, and refrigerators. Positive displacement air compressors use multiple inlet ports. Despite the various types, the principle of operation remains the same.
Another type of positive displacement air compressor is a reciprocating piston. The piston inside a cylinder moves up and down, causing the compressed air to fill the upper part of the cylinder. These air compressors are used in a variety of different applications, including blowing bottles and gas pipelines. These air compressors can be water-cooled, lubricated, or non-lubricated. Different types have different capacities and air pressures.
A positive displacement flowmeter uses a rotating chamber that divides continuous fluid into discrete portions. The number of times the chamber is filled and discharged can be used to estimate the flow rate. The rotation speed of the measuring chamber is directly proportional to the flow rate. The drawbacks of this type of positive displacement flowmeter are that it is prone to jamming. If the fluid contains particles, it may be too thick for the meter to determine flow rate.
A negative displacement air compressor was invented in 1860 and is the oldest type of compressor. It uses two lobes positioned in a circular cavity. One rotor is connected to an engine, while the other pushes the other one to spin in the opposite direction. Negative displacement compressors are low-maintenance, but they do require more precision. They are often used in nuclear power plants because they use the kinetic energy of the rotating elements to produce pressure.

Oil-injected

Oil-flooded or oil-injected air compressors use liquid to seal and lubricate moving parts and reduce noise. Oil-flooded air compressors are effective for a variety of pneumatic tools and accessories. Some models have a thermostat that controls the amount of oil used during operation. Other types of oil-flooded air compressors are piston-type models. Here is an overview of the basic differences between these two air compressors.
An oil-injected air compressor is more expensive than a comparable oil-free air compressor, but its advantages far outweigh its disadvantages. An oil-free compressor is quieter, requires less maintenance, and has a lower price tag. It also offers a greater degree of air purity. A number of other advantages may also make this type of air compressor the better choice for many industrial settings. If you need a high-pressure compressor in a tight space, consider the benefits of an oil-free system.
Oil-injected air compressors require more maintenance than oil-free models. Both types of air compressors offer similar capacity and ISO 8573-1 Class 0 and 1-2 purity, but the oil-injected systems require more air-treatment components. They require an activated carbon filter and coalescing filter. Oil-injected air compressors will likely remain the standard for industrial air compressors for many years. And since their performance and efficiency are comparable, it may be worthwhile to invest in some point-of-use air treatment.
Both types of air compressors have their benefits. However, choosing between oil-free and oil-injected air compressors is not as straightforward as you might think. Whichever type you choose, make sure it will meet your needs. The benefits of an oil-injected air compressor outweigh their disadvantages. In general, oil-injected air compressors are more durable and can last longer than oil-free models. The only downside is their higher price.
air-compressor

Oil-free

When choosing an air compressor for your company, you’ll need to determine what it is going to be used for. For example, if you’re planning on using it to power multiple workers, you should consider getting an oil-free compressor. An oil-free compressor, on the other hand, is quieter and can power several workers at a time. If you’re a contractor, the most important consideration will be the type of jobs you’ll be doing. Higher air pressure means greater demand for air flow, and more pressure can damage the equipment.
Oil-free compressed air is certified 100% free of contaminants. Technically, oil-free air is not completely free of foreign matter, but it is extremely low within the limits of practical air quality. A technically oil-free air compressor might have a total oil level of 0.003 mg/m3. If you’re in need of a technically oil-free air compressor, you must install an air treatment equipment after your current compressor.
If you’re in the manufacturing industry, a good oil-free air compressor will save you money and reduce your environmental impact. Many of these tools require air compressors to work, and this equipment will ensure that they don’t get contaminated. To buy the best oil-free compressor, you should learn a bit about the different terms used by compressor repair companies. ACFM, for example, is the amount of air that can be compressed in one minute at rated conditions.
When you’re using an oil-free air compressor, you should know that the overall life of the device will be much shorter. Compared to an oil-flooded rotary screw air compressor, an oil-free compressor typically has a lifespan of 50 thousand hours. But it’s important to understand that this type of compressor can still cause damage to piping and processes. Therefore, you should choose an oil-free compressor when you need to clean air for your business.

Single-stage

A single-stage air compressor, also known as a piston air compressor, compresses air only once before storing it in a cylinder. This stored air has enough energy to power a variety of pneumatic tools, such as screwdrivers, chisels, and wrenches. These units are also ideally suited for low-flow applications and are widely used in gas stations, auto shops, and various manufacturing plants.
A single-stage air compressor uses two valves – one for inlet and one for outlet – to transfer compressed air. Both valves are actuated by springs. The inlet valve has a slight curvature to provide protection from damage. The compressor’s outlet valve opens when the pressure in the cylinder is higher than the pressure in the storage tank. The piston moves very quickly inside the cylinder, exerting a high amount of force throughout the compression process. This high piston speed is a common cause of compressor wear and tear.
A single-stage air compressor is ideal for smaller tradesmen and small construction crews. Its lightweight and compact design make it easier to transport and store. While it may be tempting to buy the first cheap air compressor you see, it’s important to balance the price against performance to choose the right air compressor for your needs. The best single-stage air compressor is one that provides excellent performance and durability. Its two-stage counterpart is designed for larger construction teams and large applications.
The main difference between a single-stage and a two-stage air compressor lies in their capacity. A single-stage air compressor compresses air only once and delivers it into the storage tank, while a two-stage compressor compresses it twice, creating double the pressure. Because of this, single-stage air compressors are cheaper and versatile than their counterparts, which means that they can be used for multiple purposes.
air-compressor

Low-noise

A low-noise air compressor is a type of industrial compressor that is less noisy than regular air compressors. These are generally smaller machines designed for smaller factories and workshops with a few to several employees. They are designed to handle mid-weight volumes of compressed air per day. This type of compressor is especially useful for smaller manufacturing businesses that need to produce compressed air for medical applications. Small breweries can also benefit from the low-noise capabilities of these compressors.
Low-noise air compressors come in various sizes and features. For smaller jobs, you can purchase a one-gallon model that is lightweight and portable. For larger jobs, you can purchase one with a larger tank that can provide more pressure for longer jobs. However, a larger tank will make the compressor heavier and harder to transport. To avoid this, make sure to check the size of the tank and how much power it can handle.
Considering a low-noise air compressor for your business? If so, you’ve come to the right place. There are a variety of affordable and dependable low-noise options to choose from. A CAT 10020C, for example, is designed to provide high-volume air to many outlets at once. A CAT 10020C comes with a 10-gallon tank, wheels, and a carrying handle.
Noise levels can also affect the productivity of employees. When employees work with air compressors in close proximity to each other, they may develop tinnitus. If employees are free from tinnitus because of the loud noise, they are likely to work more efficiently. Moreover, it will be easier for them to focus and communicate efficiently. If you need a compressor, a low-noise one is an excellent choice.

China Fruit Vegetabe Meat Seafood Medicine Air Cooling Scroll Compressor Refrigeration Condensing 18HP     arb air compressorChina Fruit Vegetabe Meat Seafood Medicine Air Cooling Scroll Compressor Refrigeration Condensing 18HP     arb air compressor
editor by czh 2023-01-06

China German Technology 8-12.5bar 0.8-1.25MPa 4.65-20.2m3/Min 100% Oilfree Energy Saving Low Pressure Screw Air Compressor (TR-110VA/W) arb air compressor

Item Description

Guide Time

Solution Description

TR-110VA/W .8-1.25Mpa 8-twelve.5Bar 4.65-twenty.2m3/min 110KW 1.4) optimized style, massive rotor, lower rotary pace (in 3000r/min), with no the gearbox.

immediate link drive, it has a decrease rotary velocity and longer existence in comparison with dry oil-free screw air compressor(10000r/min-20000r/min).

twelve. Automated Cleansing Technique

The purpose of automatic water trade and automatic system cleansing can be realized, and the inside of the compressor is more clear and sanitary.
 

Introduction

Organization Info

Package Supply

 

Again Residence

US $4,900-86,800
/ Set
|
1 Set

(Min. Order)

###

Lubrication Style: Oil-free
Cooling System: Air Cooling
Power Source: AC Power
Structure Type: Closed Type
Installation Type: Stationary Type
Type: Single Screw Compressor

###

Samples:
US$ 86800/set(s)
1 set(s)(Min.Order)

|
Request Sample

###

Customization:

###

Model

Maximum

working

Pressure

FAD

Motor

Power

Noise

Pipe diameters of

cooling water

in and out

Quantity of 
cooling water

Quantity of

lubricating

water

Dimension Weight

Air

outlet

 Inlet water

32ºC 

L*W*H
Mpa M3/min KW DB  T/H L mm KG
TR-37VA/W 0.8 1.91-6.50 37 66 1 1/2" 9 40 1500*1150*1500 1200 1 1/2"
1 1.60-5.33
1.25 1.42-4.77
TR-45VA/W 0.8 2.50-8.30 45 68 1 1/2" 10 90 1800*1300*1750 1490 2"
1 1.91-6.30
1.25 1.70-5.56
TR-55VA/W 0.8 3.0-10.3 55 69 1 1/2" 12 100 1800*1300*1750 1570 2"
1 2.60-8.55
1.25 2.30-7.67
TR-75VA/W 0.8 3.95-13.00 75 72 1 1/2" 18 100 1800*1300*1750 1750 2"
1 3.40-11.50
1.25 3.0-9.70
TR-90VA/W 0.8 5.0-16.60 90 73 1 1/2" 20 120 2200*1550*1800 2450 2 1/2"
1 4.30-14.66
1.25 3.72-12.60
TR-110VA/W 0.8 6.0-20.2 110 77 2" 24 120 2200*1550*1800 2580 2 1/2"
1 5.0-16.66
1.25 4.65-15.56
US $4,900-86,800
/ Set
|
1 Set

(Min. Order)

###

Lubrication Style: Oil-free
Cooling System: Air Cooling
Power Source: AC Power
Structure Type: Closed Type
Installation Type: Stationary Type
Type: Single Screw Compressor

###

Samples:
US$ 86800/set(s)
1 set(s)(Min.Order)

|
Request Sample

###

Customization:

###

Model

Maximum

working

Pressure

FAD

Motor

Power

Noise

Pipe diameters of

cooling water

in and out

Quantity of 
cooling water

Quantity of

lubricating

water

Dimension Weight

Air

outlet

 Inlet water

32ºC 

L*W*H
Mpa M3/min KW DB  T/H L mm KG
TR-37VA/W 0.8 1.91-6.50 37 66 1 1/2" 9 40 1500*1150*1500 1200 1 1/2"
1 1.60-5.33
1.25 1.42-4.77
TR-45VA/W 0.8 2.50-8.30 45 68 1 1/2" 10 90 1800*1300*1750 1490 2"
1 1.91-6.30
1.25 1.70-5.56
TR-55VA/W 0.8 3.0-10.3 55 69 1 1/2" 12 100 1800*1300*1750 1570 2"
1 2.60-8.55
1.25 2.30-7.67
TR-75VA/W 0.8 3.95-13.00 75 72 1 1/2" 18 100 1800*1300*1750 1750 2"
1 3.40-11.50
1.25 3.0-9.70
TR-90VA/W 0.8 5.0-16.60 90 73 1 1/2" 20 120 2200*1550*1800 2450 2 1/2"
1 4.30-14.66
1.25 3.72-12.60
TR-110VA/W 0.8 6.0-20.2 110 77 2" 24 120 2200*1550*1800 2580 2 1/2"
1 5.0-16.66
1.25 4.65-15.56

Types of Air Compressors

There are many types of Air Compressors available on the market. Learn which one is right for your needs and what makes one better than another. Find out more about Single-stage models, Oil-free models, and Low-noise models. This article will explain these types and help you decide which one you need. You can also learn about Air Compressors that have single-stage compressors. If you are looking for a high-quality compressor, this article will help you choose a unit.
air-compressor

Air Compressors

Air compressors work by forcing atmospheric air through an inlet valve. As the piston moves down, it pulls atmospheric air into the chamber. As the piston rises, it forces the compressed air out of the cylinder through an exhaust valve. One of the most common types of air compressor is the reciprocating type. Another type of compressor is a single-stage piston. These types of compressors compress air in one stroke – equivalent to the complete rotation of the piston’s crankshaft.
These devices change electrical or mechanical energy into pressurized air. When air is compressed, its volume decreases, increasing its pressure. Air compressors typically have a minimum pressure of 30 bars. The lower pressure band is the range of air pressure. Most compressors are controlled separately, but network controls can be used to interconnect multiple compressors. This type of controller will not work for all types of compressors. There are other types of air compressors that can communicate with each other.
Compressed air has multiple applications in all kinds of industries. In agriculture, it can power pneumatically powered material handling machines for irrigation and crop spraying. Dairy equipments also use compressed air. Compressors are also used in the pharmaceutical industry for mixing tanks, packaging, and conveyor systems. Portable air compressors, which can be powered by diesel fuel, are frequently used at remote drilling sites. Portable air compressors are also commonly used in oil and gas. They can be used to remotely control valves and install reactor rods.
Whether you use an air compressor for agricultural purposes or in a manufacturing setting, there are some features to consider when choosing an air compressor for your needs. A good compressor will have a safety device. It will automatically shut off the input air and output air once sufficient compressing has been achieved. These features will help your air compressor remain efficient and protect your equipment. The safety device is an important feature of any air compressor to increase its overall efficiency.
Vane air compressors are the most common type. They are generally smaller and less powerful than reciprocating piston compressors, so you can use one of these for applications that are under 100 horsepower. The vane air compressors have low compression ratios and high capacities, but they are generally limited to low-power applications. Vane compressors tend to run hot, and they typically have a low compression ratio. It is important to choose the correct oil viscosity for your compressor.
air-compressor

Single-stage models

When comparing single-stage air compressors, look for the term “stages.” Multi-stage compressors use two stages and can handle more capacity and pressure. One stage involves pressurizing air using a piston and a lower-pressure cylinder. This compressed air is then moved to a storage tank. Single-stage models tend to be more energy-efficient than their two-stage counterparts. But if you don’t need a high-pressure cylinder, a single-stage air compressor can be the best choice.
Although single-stage air compressors produce less power, they can produce enough air to power pneumatic tools and other pneumatic equipment. These single-stage units are most useful for smaller-scale home projects and DIY projects. For more industrial purposes, a dual-stage model is the best choice. But if you’re in a hurry, a single-stage unit may be sufficient. Ultimately, it depends on what you plan to do with the air compressor.
Single-stage air compressors feature a single cylinder, one piston stroke for each revolution of pressurized air. Single-stage compressors are typically smaller and more compact, making them a good choice for smaller work environments. Their cfm capacity (cubic feet per minute) is an important indicator of operating capacity. If you plan to use multiple pneumatic tools, you will probably need a higher cfm model. Similarly, the horsepower of single-stage compressors indicates its working capacity. One horsepower moves 550 pounds per foot per minute.
Multi-stage air compressors are generally more expensive and more energy-efficient than single-stage units, but they can offer higher air flow rates. While they may be more complex, they can lower general operating expenses. If you plan on using your air compressor for industrial or commercial use, a dual-stage model might be the best choice. However, if you’re planning to use the air compressor for mass production, a single-stage model may be the best choice.
Single-stage air compressors have the same piston size and number of inlets, while dual-stage models have a smaller first piston and a much longer second piston. Both have a cooling tube in between the two pistons to reduce the air temperature before the second round of compression. The single-stage model is typically small and portable, while the double-stage air compressor is stationary. These compressors can both be stationary and large.

Low-noise models

Despite its name, low-noise models of air compressors are not all the same. The noise level of a compressor can be affected by several factors, including the power source and proximity to the machine. Reciprocal compressors are generally louder than electric ones because of their many moving parts. By contrast, rotary-screw and scroll compressors have fewer moving parts and are quieter.
The noise level of a gas-powered air compressor can be extremely high, making it unsuitable for use indoors. To combat this problem, you can choose an electric model. The noise level of a compressor is primarily caused by motor friction. The cover of a piston is also a major factor in noise, as pistons with minimal covers will produce a lot of noise. Previously, oil was required for a quiet compressor. However, this has changed thanks to the medical industry’s demand for oil-free models.
The CZPT EC28M Quiet Air Compressor is another model that features quiet operation. This air compressor makes 59dB of noise. This level is low enough to allow you to carry on normal conversations while it cycles. In addition, this compressor has an industrial oil-free pump and a 2.8 Amp direct-drive induction motor. These two features make it a great choice for businesses.
Low-noise models of air compressors are available for the construction industry. However, these compressors are not necessarily low-quality, which is why you should consider the noise level of your air tool before purchasing one. The specialists at CZPT can recommend the low-noise models for your particular application and space. Noise can distract people who work near the air compressor. That is why many businesses now opt for these models.
air-compressor

Oil-free models

A number of oil-free models of air compressors are available, but what makes them special? Oil-free compressors don’t contain oil, so they’re lubricated by grease instead. They’re a good choice if you’re working with a small compressor and don’t want to risk damaging it. On the other hand, oil-free models do generate significant amounts of heat, which can damage the compressor. Higher pressure can grind the compressor against itself, or even warp it.
A few words of knowledge can help you choose the best oil-free air compressor for your needs. For example, a compressor’s horsepower is a measurement of how powerful the motor is. Higher horsepower means a higher PSI or ACFM. You can also use the ACFM to compare the two. Scroll technology is a modern air compression system that uses a stationary and mobile spiral. This reduces the volume of air in the compressor by directing it to the center.
Purchasing an oil-free air compressor doesn’t have to be a daunting task, though. A good distributor can advise you on what type of oil-free air compressor is right for you. This way, you can save money and enjoy peace of mind while using your air compressor. And, of course, the best way to get a great deal on an air compressor is to speak to a distributor who is knowledgeable about the products available.
An oil-free air compressor is a great option for businesses that are sensitive to the contamination of air. For example, in the pharmaceutical and food industry, a minuscule oil could spoil a product or even damage production equipment. Oil-free air compressors generally have lower maintenance costs than oil-flooded models because there are fewer moving parts. Because of this, oilless air compressors require fewer maintenance and may still need to be replaced occasionally.
A few advantages of an oil-free air compressor over an oil-lubricated one include lower noise levels. Oil-free air compressors tend to be less noisy and run more quietly than oil-injected ones, but you should still carefully weigh the pros and cons before making a decision. Also, consider how much you use your air compressor before choosing a model. The pros outweigh the cons. In the end, you’ll be glad you chose an oil-free air compressor.

China German Technology 8-12.5bar 0.8-1.25MPa 4.65-20.2m3/Min 100% Oilfree Energy Saving Low Pressure Screw Air Compressor (TR-110VA/W)     arb air compressorChina German Technology 8-12.5bar 0.8-1.25MPa 4.65-20.2m3/Min 100% Oilfree Energy Saving Low Pressure Screw Air Compressor (TR-110VA/W)     arb air compressor
editor by czh 2022-12-25