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China best Industrial Electric Screw Type Air Compressor Silent Oil Free with CE Certificate mini air compressor

Product Description

 Industrial Electric  Screw Type Air Compressor Silent Oil Free with CE Certificate

After-sales Service: Online
Warranty: 1 Year
Lubrication Style: Oil-free
Cooling System: Air Cooling
Cylinder Arrangement: Duplex Arrangement
Cylinder Position: Angular
Samples:
US$ 500/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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air compressor

Can Oil-Free Air Compressors Handle High-Pressure Applications?

Yes, oil-free air compressors are capable of handling high-pressure applications, but certain considerations need to be taken into account. Here’s a detailed explanation of the capabilities and considerations regarding the use of oil-free air compressors in high-pressure applications:

1. Compressor Design:

Oil-free air compressors are designed to deliver oil-free compressed air, and some models are specifically engineered to handle high-pressure requirements. These compressors incorporate robust components, such as high-strength materials, reinforced valves, and advanced sealing technologies, to withstand the higher pressures generated during compression. They are typically designed to operate within specific pressure ranges, and their performance and reliability are optimized for those ranges.

2. Pressure Rating:

When selecting an oil-free air compressor for a high-pressure application, it is crucial to consider the compressor’s pressure rating. The pressure rating indicates the maximum pressure that the compressor can reliably generate and maintain. Oil-free compressors suitable for high-pressure applications are available with varying pressure ratings, ranging from several hundred PSI (pounds per square inch) to several thousand PSI, depending on the specific model and manufacturer. It’s important to choose a compressor with a pressure rating that meets or exceeds the requirements of the intended application.

3. Operating Efficiency:

Operating efficiency is an important consideration when using oil-free air compressors for high-pressure applications. As the pressure requirement increases, the compressor may consume more energy to achieve and maintain the desired pressure. It’s advisable to select a compressor that is optimized for energy efficiency, as it can help reduce operating costs and minimize environmental impact. Compressors equipped with advanced control systems, variable speed drives, and efficient motor designs can enhance overall energy efficiency in high-pressure applications.

4. Air Treatment and Filtration:

High-pressure applications often require dry and clean compressed air. In addition to the oil-free operation, it is important to ensure that the compressed air is adequately treated and filtered to remove moisture, particulates, and other contaminants. The use of appropriate air dryers, filters, and separators in the compressed air system is necessary to maintain the desired air quality and protect downstream equipment in high-pressure applications.

5. System Safety and Regulations:

High-pressure applications present additional safety considerations. It is essential to ensure that the entire compressed air system, including the compressor, storage tanks, piping, and safety devices, is designed, installed, and operated in compliance with relevant safety regulations and standards. Pressure relief valves, pressure gauges, and other safety devices should be appropriately sized and configured to handle the high-pressure conditions. Regular inspections, maintenance, and adherence to safety protocols are crucial to ensure the safe operation of the high-pressure oil-free air compressor system.

It’s important to consult with compressor manufacturers or industry experts to determine the suitability of specific oil-free compressors for high-pressure applications. They can provide guidance on selecting the right compressor model, assessing system requirements, and ensuring compliance with safety standards.

By considering the design, pressure rating, operating efficiency, air treatment, and system safety, oil-free air compressors can successfully handle high-pressure applications in various industries, including manufacturing, automotive, aerospace, and energy.

air compressor

What Are the Key Components of an Oil-Free Compressor System?

An oil-free compressor system consists of several key components that work together to compress air without the use of oil. Here’s a detailed explanation of the main components:

1. Air Intake:

The air intake is the entry point where ambient air is drawn into the compressor system. It typically includes a filter to prevent dust, debris, and other contaminants from entering the compressor and ensures clean air for compression.

2. Air Compressor Unit:

The air compressor unit is the core component responsible for compressing the incoming air. In an oil-free compressor system, this unit is designed to operate without the need for lubricating oil. It generally consists of one or more compression stages, each comprising a cylinder, piston, valves, and seals. The compression process raises the pressure of the air, resulting in compressed air output.

3. Compression Cooling System:

During the compression process, the air temperature increases significantly. To prevent overheating and ensure efficient operation, oil-free compressor systems employ cooling systems. These cooling systems can include air cooling or water cooling mechanisms, which help dissipate the heat generated during compression and maintain optimal operating temperatures.

4. Air/Oil Separation System:

An oil-free compressor system employs an air/oil separation system to ensure that no oil is carried over into the compressed air. This system typically consists of specialized filters or separators that remove any residual oil or oil mist from the compressed air before it leaves the compressor system. This separation process ensures that the compressed air remains oil-free.

5. Control and Monitoring Systems:

Modern oil-free compressor systems are equipped with advanced control and monitoring systems. These systems enable precise control of various parameters, such as pressure, temperature, and compressor speed. They also provide real-time monitoring of performance, efficiency, and potential issues. Control and monitoring systems allow for optimized operation, energy efficiency, and proactive maintenance.

6. Air Receiver Tank:

An air receiver tank, also known as a compressed air storage tank, is often included in oil-free compressor systems. The tank serves as a storage reservoir for the compressed air, providing a buffer to meet fluctuating air demand. It helps stabilize the pressure, reduces pressure fluctuations, and allows for more efficient usage of the compressed air in downstream applications.

7. Air Treatment Components:

Depending on the specific application requirements, oil-free compressor systems may include additional air treatment components. These components can include filters, dryers, and condensate management systems. Filters remove particulates and contaminants from the compressed air, while dryers remove moisture to ensure the production of clean, dry, and high-quality compressed air. Condensate management systems handle the separation and disposal of liquid condensate produced during the compression process.

8. Piping and Distribution System:

The piping and distribution system transports the compressed air from the compressor unit to the desired application points. It includes pipes, fittings, valves, and connectors that ensure proper airflow and distribution of the compressed air throughout the system. The piping system should be designed and sized appropriately to minimize pressure drops and optimize efficiency.

These are the fundamental components found in oil-free compressor systems. However, it’s important to note that the specific configuration and additional components may vary depending on the design, capacity, and intended application of the compressor 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 best Industrial Electric Screw Type Air Compressor Silent Oil Free with CE Certificate   mini air compressorChina best Industrial Electric Screw Type Air Compressor Silent Oil Free with CE Certificate   mini air compressor
editor by CX 2023-11-06

China supplier Electric Stationary Screw Type Air Compressor Stationary Screw Air Compressor 12v air compressor

Product Description

Application of Electric Stationary Screw Air Compressor

Electric Stationary Screw Air Compressor is widely used for drilling platforms, offshore oil platforms, refineries, chemical plants, gas station soil tanks, tunnel, ship and other inflammable and explosive places and ship building industries use.zmwm02

Main Parameter of Electric Stationary Screw Air Compressor

Flow rate (M3/min) 3.5/4.5/5.8/6.1/6.4
Pressure (MPa) 0.8/0.6/0.8/1.0/0.8
 compressor stage single stage
cooling type air cool
exhaust temperature (ºC) <+15
driven type belt driven
motor power (Kw) 22-55

Figure Photos of Electric Stationary Screw Air Compressor

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

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air compressor

Can air compressors be used for cleaning and blowing dust?

Yes, air compressors can be effectively used for cleaning and blowing dust in various applications. Here’s how air compressors are utilized for these purposes:

1. Cleaning Machinery and Equipment:

Air compressors are commonly used for cleaning machinery and equipment in industries such as manufacturing, automotive, and construction. Compressed air is directed through a nozzle or blowgun attachment to blow away dust, debris, and other contaminants from surfaces, crevices, and hard-to-reach areas. The high-pressure air effectively dislodges and removes accumulated dust, helping to maintain equipment performance and cleanliness.

2. Dusting Surfaces:

Air compressors are also employed for dusting surfaces in various settings, including homes, offices, and workshops. The compressed air can be used to blow dust off furniture, shelves, electronic equipment, and other objects. It provides a quick and efficient method of dusting, especially for intricate or delicate items where traditional dusting methods may be challenging.

3. Cleaning HVAC Systems:

Air compressors are utilized for cleaning HVAC (Heating, Ventilation, and Air Conditioning) systems. The compressed air can be used to blow dust, dirt, and debris from air ducts, vents, and cooling coils. This helps improve the efficiency and air quality of HVAC systems, preventing the buildup of contaminants that can affect indoor air quality.

4. Blowing Dust in Workshops:

In workshops and garages, air compressors are often used to blow dust and debris from workbenches, power tools, and work areas. Compressed air is directed to blow away loose particles and maintain a clean and safe work environment. This is particularly useful in woodworking, metalworking, and other trades where dust and debris can accumulate during the manufacturing or fabrication processes.

5. Cleaning Electronics and Computer Equipment:

Air compressors are employed for cleaning electronics and computer equipment. The compressed air is used to blow dust and debris from keyboards, computer cases, circuit boards, and other electronic components. It helps in preventing overheating and maintaining the proper functioning of sensitive electronic devices.

6. Industrial Cleaning Applications:

Air compressors find extensive use in industrial cleaning applications. They are employed in industrial settings, such as factories and warehouses, for cleaning large surfaces, production lines, and equipment. Compressed air is directed through specialized cleaning attachments or air-operated cleaning systems to remove dust, dirt, and contaminants efficiently.

When using air compressors for cleaning and blowing dust, it is important to follow safety precautions and guidelines. The high-pressure air can cause injury if directed towards the body or sensitive equipment. It is advisable to wear appropriate personal protective equipment, such as safety glasses and gloves, and ensure that the air pressure is regulated to prevent excessive force.

Overall, air compressors provide a versatile and effective solution for cleaning and blowing dust in various applications, offering a convenient alternative to traditional cleaning methods.

air compressor

Can air compressors be integrated into automated systems?

Yes, air compressors can be integrated into automated systems, providing a reliable and versatile source of compressed air for various applications. Here’s a detailed explanation of how air compressors can be integrated into automated systems:

Pneumatic Automation:

Air compressors are commonly used in pneumatic automation systems, where compressed air is utilized to power and control automated machinery and equipment. Pneumatic systems rely on the controlled release of compressed air to generate linear or rotational motion, actuating valves, cylinders, and other pneumatic components. By integrating an air compressor into the system, a continuous supply of compressed air is available to power the automation process.

Control and Regulation:

In automated systems, air compressors are often connected to a control and regulation system to manage the compressed air supply. This system includes components such as pressure regulators, valves, and sensors to monitor and adjust the air pressure, flow, and distribution. The control system ensures that the air compressor operates within the desired parameters and provides the appropriate amount of compressed air to different parts of the automated system as needed.

Sequential Operations:

Integration of air compressors into automated systems enables sequential operations to be carried out efficiently. Compressed air can be used to control the timing and sequencing of different pneumatic components, ensuring that the automated system performs tasks in the desired order and with precise timing. This is particularly useful in manufacturing and assembly processes where precise coordination of pneumatic actuators is required.

Energy Efficiency:

Air compressors can contribute to energy-efficient automation systems. By incorporating energy-saving features such as Variable Speed Drive (VSD) technology, air compressors can adjust their power output according to the demand, reducing energy consumption during periods of low activity. Additionally, efficient control and regulation systems help optimize the use of compressed air, minimizing waste and improving overall energy efficiency.

Monitoring and Diagnostics:

Integration of air compressors into automated systems often includes monitoring and diagnostic capabilities. Sensors and monitoring devices can be installed to collect data on parameters such as air pressure, temperature, and system performance. This information can be used for real-time monitoring, preventive maintenance, and troubleshooting, ensuring the reliable operation of the automated system.

When integrating air compressors into automated systems, it is crucial to consider factors such as the specific requirements of the automation process, the desired air pressure and volume, and the compatibility of the compressor with the control and regulation system. Consulting with experts in automation and compressed air systems can help in designing an efficient and reliable integration.

In summary, air compressors can be seamlessly integrated into automated systems, providing the necessary compressed air to power and control pneumatic components, enabling sequential operations, and contributing to energy-efficient automation processes.

air compressor

How do oil-lubricated and oil-free air compressors differ?

Oil-lubricated and oil-free air compressors differ in terms of their lubrication systems and the presence of oil in their operation. Here are the key differences:

Oil-Lubricated Air Compressors:

1. Lubrication: Oil-lubricated air compressors use oil for lubricating the moving parts, such as pistons, cylinders, and bearings. The oil forms a protective film that reduces friction and wear, enhancing the compressor’s efficiency and lifespan.

2. Performance: Oil-lubricated compressors are known for their smooth and quiet operation. The oil lubrication helps reduce noise levels and vibration, resulting in a more comfortable working environment.

3. Maintenance: These compressors require regular oil changes and maintenance to ensure the proper functioning of the lubrication system. The oil filter may need replacement, and the oil level should be regularly checked and topped up.

4. Applications: Oil-lubricated compressors are commonly used in applications that demand high air quality and continuous operation, such as industrial settings, workshops, and manufacturing facilities.

Oil-Free Air Compressors:

1. Lubrication: Oil-free air compressors do not use oil for lubrication. Instead, they utilize alternative materials, such as specialized coatings, self-lubricating materials, or water-based lubricants, to reduce friction and wear.

2. Performance: Oil-free compressors generally have a higher airflow capacity, making them suitable for applications where a large volume of compressed air is required. However, they may produce slightly more noise and vibration compared to oil-lubricated compressors.

3. Maintenance: Oil-free compressors typically require less maintenance compared to oil-lubricated ones. They do not need regular oil changes or oil filter replacements. However, it is still important to perform routine maintenance tasks such as air filter cleaning or replacement.

4. Applications: Oil-free compressors are commonly used in applications where air quality is crucial, such as medical and dental facilities, laboratories, electronics manufacturing, and painting applications. They are also favored for portable and consumer-grade compressors.

When selecting between oil-lubricated and oil-free air compressors, consider the specific requirements of your application, including air quality, noise levels, maintenance needs, and expected usage. It’s important to follow the manufacturer’s recommendations for maintenance and lubrication to ensure the optimal performance and longevity of the air compressor.

China supplier Electric Stationary Screw Type Air Compressor Stationary Screw Air Compressor   12v air compressorChina supplier Electric Stationary Screw Type Air Compressor Stationary Screw Air Compressor   12v air compressor
editor by CX 2023-10-02

China 100% Oil Free Electric Driven Screw Type Air Compressor Factory with Best Sales

Solution Description

Industrial Silent/Mute Health care Dry Oil Totally free Oilless Immediate Drive Rotary Double Screw Kind Air Compressor Advantages

1.Cleanse air 1, China
Our factory is positioned in No. 366, YangzhuangBang Road, Pingxing Rd., Xindai Town, HangZhou, ZHangZhoug Province, China

Q3: Warranty conditions of your machine? 
A3: Two a long time warranty for the equipment and technological support according to your requirements.

This autumn: Will you provide some spare elements of the machines? 
A4: Yes, of program.

Q5: How prolonged will you take to prepare manufacturing? 
A5: 380V 50HZ we can delivery the merchandise inside of 10 days. Other electrical energy or other coloration we will supply within 22 days

Q6: Can you settle for OEM orders? 
A6: Yes, with skilled style crew, OEM orders are very welcome


/ Piece
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1 Piece

(Min. Order)

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Lubrication Style: Oil-free
Cooling System: Air Cooling and Water Cooling
Power Source: AC Power
Cylinder Position: Vertical
Structure Type: Closed Type
Installation Type: Stationary Type

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Customization:
Available

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Model Maximum working pressure Capacity(FAD)* Installed motor power Cooling
Method
Noise Level** Dimensions (mm) Weight Air Outlet
Pipe Diameter
50 Hz 60 Hz
bar(g) psig m³/min cfm m³/min cfm kW hp dB(A) L W H kG
DWW-45 7 102 7.07 250 7.16 253 45 60 Air
Cooling
W-water
Cooling
80 2100 1500 1790 2630 R1-1/2"
8 116 7.03 248 6.48 229 45 60 80 2100 1500 1790 2630 R1-1/2"
10 145 5.51 194 5.37 189 45 60 80 2100 1500 1790 2630 R1-1/2"
DWW-55 7 102 9.37 331 8.87 313 45 75 80 2100 1500 1790 2650 R1-1/2"
8 116 9.34 330 8.25 291 55 75 80 2100 1500 1790 2650 R1-1/2"
10 145 8.11 286 7.1 251 55 75 80 2100 1500 1790 2650 R1-1/2"
DWW-75 7 102 12.72 449 12.6 445 75 100 82 2300 1600 1790 2850 DN50
8 116 12.69 448 11.69 413 75 100 82 2300 1600 1790 2850 DN50
10 145 11.58 409 10.43 368 75 100 82 2300 1600 1790 2850 DN50
DWW-75W 7 102 12.72 449 12.6 445 75 100 82 2300 1600 1790 2850 DN50
8 116 12.69 448 11.69 413 75 100 82 2300 1600 1790 2850 DN50
10 145 11.58 409 10.43 368 75 100 82 2300 1600 1790 2850 DN50
DWW-90 7 102 13.66 482 14.62 516 90 120 82 2300 1600 1790 2850 DN50
8 116 13.64 482 14.6 515 90 120 82 2300 1600 1790 2850 DN50
10 145 12.64 446 12.86 454 90 120 82 2300 1600 1790 2850 DN50
DWW-90W 7 102 13.66 482 14.62 516 90 120 82 2300 1600 1790 2850 DN50
8 116 13.64 482 14.6 515 90 120 82 2300 1600 1790 2850 DN50
10 145 12.64 446 12.86 451 90 120 82 2300 1600 1790 2850 DN50
DWW-110 7 102 19.16 676 17.5 618 110 150 85 2800 1800 1860 3050 DN65
8 116 19.13 675 17.47 617 110 150 85 2800 1800 1860 3050 DN65
10 145 16.72 590 15.41 544 110 150 85 2800 1800 1860 3050 DN65
DWW-110W 7 102 19.16 676 17.5 618 110 150 85 2800 1800 1860 3050 DN65
8 116 19.13 675 17.47 617 110 150 85 2800 1800 1860 3050 DN65
10 145 16.72 590 15.41 544 110 150 85 2800 1800 1860 3050 DN65
DWW-132 7 102 22.63 799 23.29 822 132 175 85 2800 1800 1860 3385 DN65
8 116 22.6 798 23.27 822 132 175 85 2800 1800 1860 3385 DN65
10 145 20.28 716 20.46 723 132 175 85 2800 1800 1860 3385 DN65
DWW-132W 7 102 22.63 799 23.29 822 132 175 85 2800 1800 1860 3385 DN65
8 116 22.6 798 23.27 822 132 175 85 2800 1800 1860 3385 DN65
10 145 20.28 716 20.46 723 132 175 85 2800 1800 1860 3385 DN65
DWW-160 7 102 27.4 967 27.28 963 160 215 85 2800 1800 1860 3385 DN65
8 116 27.38 967 27.26 962 160 215 85 2800 1800 1860 3385 DN65
10 145 23.98 847 26.38 931 160 215 85 2800 1800 1860 3385 DN65
DWW-160W 7 102 27.4 967 27.28 963 160 215 85 2800 1800 1860 3385 DN65
8 116 27.38 967 27.26 962 160 215 85 2800 1800 1860 3385 DN65
10 145 23.98 847 26.38 931 160 215 85 2800 1800 1860 3385 DN65
DWW-185 7 102 30.37 1072 31.2 1102 185 250 85 2800 1800 1860 3685 DN65
8 116 30.34 1071 31.04 1096 185 250 85 2800 1800 1860 3685 DN65
10 145 27.34 965 29.16 1030 185 250 85 2800 1800 1860 3685 DN65
DWW-185W 7 102 30.37 1072 31.2 1102 185 250 85 2800 1800 1860 3685 DN65
8 116 30.34 1071 31.04 1096 185 250 85 2800 1800 1860 3685 DN65
10 145 27.34 965 29.16 1030 185 250 85 2800 1800 1860 3685 DN65
DWW-200W 7 102 34.17 1206 34.82 1229 200 270 88 3100 2150 2200 4500 DN100
8 116 34.14 1205 34.78 1228 200 270 88 3100 2150 2200 4500 DN100
10 145 30.55 1079 28.42 1004 200 270 88 3100 2150 2200 4500 DN100
DWW-220W 7 102 36.71 1296 37.35 1319 220 300 88 3100 2150 2200 4750 DN100
8 116 36.66 1295 37.3 1317 220 300 88 3100 2150 2200 4750 DN100
10 145 34.03 1202 31.3 1105 220 300 88 3100 2150 2200 4750 DN100
DWW-250W 7 102 43.71 1543 44.27 1563 250 350 90 3100 2150 2200 4950 DN100
8 116 43.66 1542 44.24 1562 250 350 90 3100 2150 2200 4950 DN100
10 145 39.16 1383 37.2 1314 250 350 90 3100 2150 2200 4950 DN100
DWW-280W 7 102 47.65 1683 47.25 1668 280 375 92 3400 2400 2200 5100 DN100
8 116 47.61 1681 47.21 1667 280 375 92 3400 2400 2200 5100 DN100
10 145 43.58 1539 41.23 1456 280 375 92 3400 2400 2200 5100 DN100
DWW-315W 7 102 52.44 1852 52.3 1847 315 425 92 3400 2400 2200 5150 DN100
8 116 52.4 1850 52.27 1846 315 425 92 3400 2400 2200 5150 DN100
10 145 47.53 1678 46.6 1645 315 425 92 3400 2400 2200 5150 DN100
DWW-355W 7 102 70.38 2485 71.97 2541 355 475 92 3800 2350 2400 6800 DN125
8 116 69.56 2456 59.6 2104 355 475 92 3800 2350 2400 6800 DN125
10 145 58.66 2071 58.65 2070 355 475 92 3800 2350 2400 6800 DN125
DWW-400W 7 102 80.75 2851 77.36 2731 400 535 92 3800 2350 2400 7200 DN125
8 116 71.55 2526 71.75 2533 400 535 92 3800 2350 2400 7200 DN125
10 145 69.43 2451 62.87 2219 400 535 92 3800 2350 2400 7200 DN125
*) FAD in accordance with ISO 1217 : 2009, Annex C: Absolute intake pressure 1 bar (a), cooling and air intake temperature 20 °C
**) Noise level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance: ± 3 dB(A)
***) N/A-Not Available
****) W-Water cooling

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Model Maximum working pressure Capacity(FAD)* Installed motor power Cooling
Method
Noise Level** Dimensions (mm) Weight Air Outlet Pipe Diameter
50 Hz 60 Hz
bar(g) psig m³/min cfm m³/min cfm kW hp dB(A) L W H kG
DWL-55-2 2.5 37 15.33 541 14.44 510 55 75 Air
Cooling
W-water Cooling
69 2400 1800 1700 2500 DN80
DWL-55-3 3.5 51 12.78 451 10.85 383 55 75 69 2400 1800 1700 2500 DN80
DWL-75-2 2.5 37 19.92 703 20.35 719 75 100 69 2400 1800 1700 2650 DN80
DWL-75-3 3.5 51 16.3 575 15.87 560 75 100 69 2400 1800 1700 2650 DN80
DWL-90-2 2.5 37 26.07 921 26.45 934 90 120 72 2400 1800 1700 2750 DN80
DWL-90-3 3.5 51 19.54 690 19.49 688 90 120 72 2400 1800 1700 2750 DN80
DWL-110(W)-2 2.5 37 33.16 1171 29.9 1056 110 150 72 3000 2000 2000 3500 DN125
DWL-110(W)-3 3.5 51 25.6 904 23.92 845 110 150 72 2400 1800 1700 3000 DN80
DWL-132(W)-2 2.5 37 40.24 1421 40.98 1447 132 175 72 3000 2000 2000 3600 DN125
DWL-132(W)-3 3.5 51 27.23 961 29.43 1039 132 175 72 2400 1800 1700 3100 DN80
DWL-160(W)-2 2.5 37 49.42 1745 49.21 1738 160 215 76 3000 2000 2000 3900 DN125
DWL-160(W)-3 3.5 51 35.75 1262 34.98 1235 160 215 76 3000 2000 2000 3800 DN125
DWL-185(W)-2 2.5 37 56.02 1989 57.17 2019 185 250 79 3000 2000 2000 4100 DN125
DWL-185(W)-3 3.5 51 42.21 1490 44.16 1559 185 250 79 3000 2000 2000 4000 DN125
*) FAD in accordance with ISO 1217:2009, Annex C: Ansolute intake pressure 1 bar (a), cooling and air intake temperature 20ºC
**) Nosie level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance:±3 dB(A)
Specifications are subject to change without prior notice

/ Piece
|
1 Piece

(Min. Order)

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Lubrication Style: Oil-free
Cooling System: Air Cooling and Water Cooling
Power Source: AC Power
Cylinder Position: Vertical
Structure Type: Closed Type
Installation Type: Stationary Type

###

Customization:
Available

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Model Maximum working pressure Capacity(FAD)* Installed motor power Cooling
Method
Noise Level** Dimensions (mm) Weight Air Outlet
Pipe Diameter
50 Hz 60 Hz
bar(g) psig m³/min cfm m³/min cfm kW hp dB(A) L W H kG
DWW-45 7 102 7.07 250 7.16 253 45 60 Air
Cooling
W-water
Cooling
80 2100 1500 1790 2630 R1-1/2"
8 116 7.03 248 6.48 229 45 60 80 2100 1500 1790 2630 R1-1/2"
10 145 5.51 194 5.37 189 45 60 80 2100 1500 1790 2630 R1-1/2"
DWW-55 7 102 9.37 331 8.87 313 45 75 80 2100 1500 1790 2650 R1-1/2"
8 116 9.34 330 8.25 291 55 75 80 2100 1500 1790 2650 R1-1/2"
10 145 8.11 286 7.1 251 55 75 80 2100 1500 1790 2650 R1-1/2"
DWW-75 7 102 12.72 449 12.6 445 75 100 82 2300 1600 1790 2850 DN50
8 116 12.69 448 11.69 413 75 100 82 2300 1600 1790 2850 DN50
10 145 11.58 409 10.43 368 75 100 82 2300 1600 1790 2850 DN50
DWW-75W 7 102 12.72 449 12.6 445 75 100 82 2300 1600 1790 2850 DN50
8 116 12.69 448 11.69 413 75 100 82 2300 1600 1790 2850 DN50
10 145 11.58 409 10.43 368 75 100 82 2300 1600 1790 2850 DN50
DWW-90 7 102 13.66 482 14.62 516 90 120 82 2300 1600 1790 2850 DN50
8 116 13.64 482 14.6 515 90 120 82 2300 1600 1790 2850 DN50
10 145 12.64 446 12.86 454 90 120 82 2300 1600 1790 2850 DN50
DWW-90W 7 102 13.66 482 14.62 516 90 120 82 2300 1600 1790 2850 DN50
8 116 13.64 482 14.6 515 90 120 82 2300 1600 1790 2850 DN50
10 145 12.64 446 12.86 451 90 120 82 2300 1600 1790 2850 DN50
DWW-110 7 102 19.16 676 17.5 618 110 150 85 2800 1800 1860 3050 DN65
8 116 19.13 675 17.47 617 110 150 85 2800 1800 1860 3050 DN65
10 145 16.72 590 15.41 544 110 150 85 2800 1800 1860 3050 DN65
DWW-110W 7 102 19.16 676 17.5 618 110 150 85 2800 1800 1860 3050 DN65
8 116 19.13 675 17.47 617 110 150 85 2800 1800 1860 3050 DN65
10 145 16.72 590 15.41 544 110 150 85 2800 1800 1860 3050 DN65
DWW-132 7 102 22.63 799 23.29 822 132 175 85 2800 1800 1860 3385 DN65
8 116 22.6 798 23.27 822 132 175 85 2800 1800 1860 3385 DN65
10 145 20.28 716 20.46 723 132 175 85 2800 1800 1860 3385 DN65
DWW-132W 7 102 22.63 799 23.29 822 132 175 85 2800 1800 1860 3385 DN65
8 116 22.6 798 23.27 822 132 175 85 2800 1800 1860 3385 DN65
10 145 20.28 716 20.46 723 132 175 85 2800 1800 1860 3385 DN65
DWW-160 7 102 27.4 967 27.28 963 160 215 85 2800 1800 1860 3385 DN65
8 116 27.38 967 27.26 962 160 215 85 2800 1800 1860 3385 DN65
10 145 23.98 847 26.38 931 160 215 85 2800 1800 1860 3385 DN65
DWW-160W 7 102 27.4 967 27.28 963 160 215 85 2800 1800 1860 3385 DN65
8 116 27.38 967 27.26 962 160 215 85 2800 1800 1860 3385 DN65
10 145 23.98 847 26.38 931 160 215 85 2800 1800 1860 3385 DN65
DWW-185 7 102 30.37 1072 31.2 1102 185 250 85 2800 1800 1860 3685 DN65
8 116 30.34 1071 31.04 1096 185 250 85 2800 1800 1860 3685 DN65
10 145 27.34 965 29.16 1030 185 250 85 2800 1800 1860 3685 DN65
DWW-185W 7 102 30.37 1072 31.2 1102 185 250 85 2800 1800 1860 3685 DN65
8 116 30.34 1071 31.04 1096 185 250 85 2800 1800 1860 3685 DN65
10 145 27.34 965 29.16 1030 185 250 85 2800 1800 1860 3685 DN65
DWW-200W 7 102 34.17 1206 34.82 1229 200 270 88 3100 2150 2200 4500 DN100
8 116 34.14 1205 34.78 1228 200 270 88 3100 2150 2200 4500 DN100
10 145 30.55 1079 28.42 1004 200 270 88 3100 2150 2200 4500 DN100
DWW-220W 7 102 36.71 1296 37.35 1319 220 300 88 3100 2150 2200 4750 DN100
8 116 36.66 1295 37.3 1317 220 300 88 3100 2150 2200 4750 DN100
10 145 34.03 1202 31.3 1105 220 300 88 3100 2150 2200 4750 DN100
DWW-250W 7 102 43.71 1543 44.27 1563 250 350 90 3100 2150 2200 4950 DN100
8 116 43.66 1542 44.24 1562 250 350 90 3100 2150 2200 4950 DN100
10 145 39.16 1383 37.2 1314 250 350 90 3100 2150 2200 4950 DN100
DWW-280W 7 102 47.65 1683 47.25 1668 280 375 92 3400 2400 2200 5100 DN100
8 116 47.61 1681 47.21 1667 280 375 92 3400 2400 2200 5100 DN100
10 145 43.58 1539 41.23 1456 280 375 92 3400 2400 2200 5100 DN100
DWW-315W 7 102 52.44 1852 52.3 1847 315 425 92 3400 2400 2200 5150 DN100
8 116 52.4 1850 52.27 1846 315 425 92 3400 2400 2200 5150 DN100
10 145 47.53 1678 46.6 1645 315 425 92 3400 2400 2200 5150 DN100
DWW-355W 7 102 70.38 2485 71.97 2541 355 475 92 3800 2350 2400 6800 DN125
8 116 69.56 2456 59.6 2104 355 475 92 3800 2350 2400 6800 DN125
10 145 58.66 2071 58.65 2070 355 475 92 3800 2350 2400 6800 DN125
DWW-400W 7 102 80.75 2851 77.36 2731 400 535 92 3800 2350 2400 7200 DN125
8 116 71.55 2526 71.75 2533 400 535 92 3800 2350 2400 7200 DN125
10 145 69.43 2451 62.87 2219 400 535 92 3800 2350 2400 7200 DN125
*) FAD in accordance with ISO 1217 : 2009, Annex C: Absolute intake pressure 1 bar (a), cooling and air intake temperature 20 °C
**) Noise level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance: ± 3 dB(A)
***) N/A-Not Available
****) W-Water cooling

###

Model Maximum working pressure Capacity(FAD)* Installed motor power Cooling
Method
Noise Level** Dimensions (mm) Weight Air Outlet Pipe Diameter
50 Hz 60 Hz
bar(g) psig m³/min cfm m³/min cfm kW hp dB(A) L W H kG
DWL-55-2 2.5 37 15.33 541 14.44 510 55 75 Air
Cooling
W-water Cooling
69 2400 1800 1700 2500 DN80
DWL-55-3 3.5 51 12.78 451 10.85 383 55 75 69 2400 1800 1700 2500 DN80
DWL-75-2 2.5 37 19.92 703 20.35 719 75 100 69 2400 1800 1700 2650 DN80
DWL-75-3 3.5 51 16.3 575 15.87 560 75 100 69 2400 1800 1700 2650 DN80
DWL-90-2 2.5 37 26.07 921 26.45 934 90 120 72 2400 1800 1700 2750 DN80
DWL-90-3 3.5 51 19.54 690 19.49 688 90 120 72 2400 1800 1700 2750 DN80
DWL-110(W)-2 2.5 37 33.16 1171 29.9 1056 110 150 72 3000 2000 2000 3500 DN125
DWL-110(W)-3 3.5 51 25.6 904 23.92 845 110 150 72 2400 1800 1700 3000 DN80
DWL-132(W)-2 2.5 37 40.24 1421 40.98 1447 132 175 72 3000 2000 2000 3600 DN125
DWL-132(W)-3 3.5 51 27.23 961 29.43 1039 132 175 72 2400 1800 1700 3100 DN80
DWL-160(W)-2 2.5 37 49.42 1745 49.21 1738 160 215 76 3000 2000 2000 3900 DN125
DWL-160(W)-3 3.5 51 35.75 1262 34.98 1235 160 215 76 3000 2000 2000 3800 DN125
DWL-185(W)-2 2.5 37 56.02 1989 57.17 2019 185 250 79 3000 2000 2000 4100 DN125
DWL-185(W)-3 3.5 51 42.21 1490 44.16 1559 185 250 79 3000 2000 2000 4000 DN125
*) FAD in accordance with ISO 1217:2009, Annex C: Ansolute intake pressure 1 bar (a), cooling and air intake temperature 20ºC
**) Nosie level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance:±3 dB(A)
Specifications are subject to change without prior notice

Choosing the Right Air Compressor For Your Home

You will find that air compressors are indispensable tools for a variety of situations, including garages, home workshops, and basements. These tools can power a variety of tools, and each model is sized to suit the job at hand. Because air compressors have only one motor, they are lightweight, compact, and easy to handle. Using one air compressor to power several tools will also reduce the wear and tear on individual components. This article will introduce some important characteristics to look for when choosing the right air compressor for your home.

Positive displacement

A positive displacement compressor applies pressure to a fluid, whereas a centrifugal one does the opposite. A positive displacement compressor creates the desired pressure by trapping air and increasing its volume. Its discharge valve releases the high-pressure gas. These compressors are used in industrial applications and nuclear power plants. The difference between a positive and negative displacement compressor is that a positive displacement compressor can compress and release air at a consistent rate.
A positive displacement air compressor uses a reciprocating piston to compress air. This reduces the volume of the air in the compression chamber, and a discharge valve opens when the pressure reaches the desired level. These compressors are used in bicycle pumps and other pneumatic tools. Positive displacement air compressors have multiple inlet ports and have several configurations. Positive displacement air compressors have a single-acting and double-acting piston, and can be oil-lubricated or oil-free.
A positive displacement air compressor is different from a dynamic compressor. It draws air into the compression chambers and then releases the pressure when the valve is opened. Positive displacement compressors are common in industrial applications and are available in single-acting, double-acting, and oil-lubricated models. Large piston compressors have ventilated intermediate pieces and crossheads on gudgeon pins. Smaller models have permanently sealed crankcases with bearings.
air-compressor

Oil-free

Oil-free air compressors have some advantages over their oil-lubricated counterparts. They do not require lubrication oil because they are coated with Teflon. The material has one of the lowest coefficients of friction and is layered, so it slides past other layers with little effort. Because of this, oil-free compressors tend to be cheaper and still deliver comparable performance. Oil-free compressors are a good choice for industrial applications.
The life of an oil-free air compressor is significantly longer than an oil-lubricated counterpart. These models can operate up to 2,000 hours, four times longer than the average oil-lubed compressor. Oil-free compressors also have a significantly lower operating noise than their oil-lubricated counterparts. And because they don’t need oil changes, they are quieter. Some even last up to 2,000 hours.
An oil-free air compressor is a good choice if your application requires high levels of purity. Several applications require ultra-pure air, and even a drop of oil can cause product spoilage or damage to production equipment. In addition to the health risks, an oil-free air compressor reduces the costs associated with oil contamination and minimizes leaks. It also eliminates the need for oil collection, disposal, and treatment.
A typical oil-free air compressor is very efficient, requiring only about 18% of the full load horsepower. However, oil-free compressors have a higher risk of premature failure and are not recommended for large-scale industrial applications. They may also use up to 18% of the compressor’s full capacity. They may sound appealing, but you must make sure you understand the benefits of an oil-free air compressor before choosing one for your industrial applications.

Single-stage

A single-stage air compressor is designed to provide the power for a single pneumatic tool or device. These machines are generally smaller than two-stage compressors and produce less heat and energy. These machines aren’t designed for heavy-duty industries, but they are still highly effective for a variety of applications, including auto shops, gas stations, and various manufacturing plants. They can also be used in borewells, as they are suitable for small spaces with low air flow requirements.
A single-stage air compressor has one cylinder and two valves – the inlet and the delivery valves. Both of these valves function mechanically, with the inlet valve controlling torque and the delivery one controlling air pressure. Generally, single-stage compressors are powered by a gas engine, but there are also electric models available. The single-stage air compressor is the most common type of air compressor. It has a single cylinder, one piston, and one air cylinder.
The single-stage air compressors are used for small projects or personal use. A two-stage air compressor is more effective for industrial projects. Its longer air end life makes it more efficient. It is also more efficient for use in the automotive industry, where the engine has many cylinders. In general, single-stage compressors require a higher power level. The single-stage model is ideal for small projects, while a two-stage one is suitable for larger-scale arsenals.
air-compressor

CFM

The cubic foot-per-minute (CFM) of an air compressor is the output of the machine. In order to calculate the CFM level, start by looking at the compressor’s specifications. You should know how many cubic feet the unit can hold and how many pounds per square inch it can compress. Once you have these information, you can calculate the CFM. Now you can use these numbers to select an appropriate air compressor for your needs.
The most common way to increase the CFM of an air compressor is to turn the regulator down. By turning the dial down, the air compressor will produce more than 10 CFM. You can also try connecting two output valves. Make sure that the settings are adjusted properly before you begin. This will ensure that your air compressor is functioning at its maximum efficiency and lifespan. To increase the CFM of your air compressor, first check that your regulator is calibrated for the desired pressure level.
To calculate the CFM of an air compressor, first determine the tank volume of the machine. Then, multiply this volume by the time it takes to fill the tank. Then, divide the result by 60 seconds to calculate the CFM. Once you know how much air your machine can hold, you can choose a suitable air compressor. If you’re working in a confined area, you should buy a tool with a large tank.

PSI

The PSI of an air compressor is the pressure that it can output. A typical air compressor has a gauge connected to the airline at the bottom, next to it, or between the two. The gauge tells the actual pressure of the air compressor, while the cut-out pressure is determined by the manufacturer. The manufacturer recommends that you set the cut-out pressure twenty to forty PSI higher than the factory recommended pressure. If you want to set the pressure for your nail gun, you can use the cut-in and cut-out pressures on your compressor, and the tank won’t exceed this range.
The PSI of an air compressor measures the force that it can deliver, which is often in pounds per square inch. For most air tools, you need at least forty to 90 psi. In general, reciprocating air compressors work on an on/off basis. This relationship is known as the duty cycle. All air compressors are rated for a particular duty cycle, such as fifty percent on and twenty-five percent off.
The Psig of an air compressor is not free, as many people believe. The PSI of an air compressor is not free, but it is essential to maintain it for safe operations. If you’re having trouble maintaining a consistent pressure, consider turning down the PSI of your compressor by 2 psig. This will determine the critical pressure for the machine. You’ll also increase the amount of energy in the system by one percent.
air-compressor

Power source

The power source for an air compressor is crucial in its operation. Without the correct voltage and amperage, air compressors will not function properly. The power source must be close to the compressor so that it can plug into an electrical outlet. If it is too far from the outlet, the compressor may not be able to build enough pressure. When this happens, the fuse inside the air compressor will turn off to protect the user. The power source should be a safe distance from the compressor.
Most manufacturers do not specify the power source for an air compressor. Depending on the horsepower, the compressor will require approximately four amps of power. A one-horsepower compressor would draw about twelve amps. If it were powered by a typical 120-volt household supply, its motor would exceed the 15-amp breaker capacity. A larger air compressor, however, will require a separate 15-amp power source, making it impossible to use it with this type of power source.
The power source for an air compressor is typically electrical alternating current (AC) that is equivalent to the voltage on a standard wall outlet. A three-phase air compressor, on the other hand, requires a special AC supply with three electrical offset pulses. Regardless of the type of air compressor, the power source must be compatible with the incoming power service. One of the most common problems when attempting to connect an air compressor to an AC power source is undersized wire. This results in low voltage and high amperes, tripping of over-load relays and blown fuses.

China 100% Oil Free Electric Driven Screw Type Air Compressor Factory     with Best SalesChina 100% Oil Free Electric Driven Screw Type Air Compressor Factory     with Best Sales
editor by CX 2023-04-03