Product Description
Stationary AC Oil Free Scroll Compressor Advantages:
1.Clean Air 100% Oil-Free
Oil-free type compressors can supply clean air.
2.Low noise & Low Vibration
Silent operation and low vibration assure comfortable and quiet work space.
3.Safe Backup Function
Even if 1 air end fails, another air end automatically replaces it by jump control. Unmanned operation at night has become easy.
4.Easy to Control
High quality microcomputer is mounted. Digital maintenance monitor displays operating conditions, warnings and cautions. Automatic power failures and reset function can be dealt with easily.
5.Compact and Smart Design
There are no extruding handles on the back of machine. Its simple design and reduced installation space required allow it to fit well in any office.
6.Designed especially for medical, pharmacy, laboratory, instrument, coating, chemical industry and food processing, etc.
Oil Free Scroll Air Compressor Description:
♦ Mute,Clean,Energy Saving,High Efficiency!
♦ Provide you with 100% oil-free compressed air!
♦ Oil-free scroll air compressor produces oil free,High quality and pure compressed air, which iswidely and Food , Medicine , Electronics , Printings , Chemicals , Precision Spraying and Golf Course etc.industries.
Technical Parameters Of Stationary AC Oil Free Scroll Compressor:
| Model | Maximum working pressure | Capacity(FAD) | Installed motor power | No of air end | Outlet Diameter | Noise Level** | Dimensions (mm) | Weight | |||||||
| 50 Hz | 60 Hz | ||||||||||||||
| bar(e) | psig | m³/min | cfm | m³/min | cfm | kW | hp | Units | inch | dB(A) | L | W | H | kg | |
| DWW-2 | 7.5 | 109 | 0.25 | 9 | 0.24 | 8 | 2.2 | 3 | 1 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 |
| 8.5 | 123 | 0.24 | 9 | 0.23 | 8 | 2.2 | 3 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 | ||
| 10.5 | 152 | 0.22 | 8 | 0.21 | 7 | 2.2 | 3 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 | ||
| DWW-3 | 7.5 | 109 | 0.4 | 14 | 0.43 | 15 | 3.7 | 5 | 1 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 |
| 8.5 | 123 | 0.39 | 14 | 0.4 | 14 | 3.7 | 5 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 | ||
| 10.5 | 152 | 0.37 | 13 | 0.37 | 13 | 3.7 | 5 | Rc1/2″ | 65 | 840 | 780 | 1066 | 230 | ||
| DWW-5 | 7.5 | 109 | 0.51 | 18 | 0.47 | 16 | 5.5 | 7.5 | 2 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 |
| 8.5 | 123 | 0.48 | 17 | 0.46 | 16 | 5.5 | 7.5 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 | ||
| 10.5 | 152 | 0.44 | 16 | 0.42 | 15 | 5.5 | 7.5 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 | ||
| DWW-7 | 7.5 | 109 | 0.8 | 28 | 0.86 | 30 | 7.5 | 10 | 2 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 |
| 8.5 | 123 | 0.78 | 28 | 0.8 | 28 | 7.5 | 10 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 | ||
| 10.5 | 152 | 0.74 | 26 | 0.74 | 26 | 7.5 | 10 | Rc1″ | 68 | 930 | 1200 | 1230 | 360 | ||
| DWW-11 | 7.5 | 109 | 1.2 | 42 | 1.26 | 44 | 11 | 15 | 3 | Rc1″ | 70 | 1400 | 910 | 1320 | 500 |
| 8.5 | 123 | 1.17 | 41 | 1.2 | 42 | 11 | 15 | Rc1″ | 70 | 1400 | 910 | 1320 | 500 | ||
| 10.5 | 152 | 1.11 | 39 | 1.1 | 39 | 11 | 15 | Rc1″ | 70 | 1400 | 910 | 1320 | 500 | ||
| DWW-15 | 7.5 | 109 | 1.6 | 56 | 1.73 | 61 | 15 | 20 | 4 | Rc1″ | 70 | 1930 | 1270 | 1340 | 720 |
| 8.5 | 123 | 1.56 | 55 | 1.61 | 57 | 15 | 20 | Rc1″ | 70 | 1930 | 1270 | 1340 | 720 | ||
| 10.5 | 152 | 1.47 | 52 | 1.47 | 52 | 15 | 20 | Rc1″ | 70 | 1930 | 1270 | 1340 | 720 | ||
| DWW-18 | 7.5 | 109 | 2 | 71 | 2.07 | 73 | 18 | 25 | 5 | Rc1″ | 72 | 1930 | 1270 | 1340 | 860 |
| 8.5 | 123 | 1.95 | 69 | 1.97 | 70 | 18 | 25 | Rc1″ | 72 | 1930 | 1270 | 1340 | 860 | ||
| 10.5 | 152 | 1.84 | 65 | 1.81 | 64 | 18 | 25 | Rc1″ | 72 | 1930 | 1270 | 1340 | 860 | ||
| DWW-22 | 7.5 | 109 | 2.4 | 85 | 2.53 | 89 | 22 | 30 | 6 | Rc1″ | 72 | 1930 | 1270 | 1340 | 900 |
| 8.5 | 123 | 2.34 | 83 | 2.41 | 85 | 22 | 30 | Rc1″ | 72 | 1930 | 1270 | 1340 | 900 | ||
| 10.5 | 152 | 2.21 | 78 | 2.21 | 78 | 22 | 30 | Rc1″ | 72 | 1930 | 1270 | 1340 | 900 | ||
| DWW-30 | 7.5 | 109 | 3.2 | 113 | 3.44 | 121 | 30 | 40 | 8 | Rc1-1/4″ | 75 | 2030 | 1260 | 1720 | 1200 |
| 8.5 | 123 | 3.12 | 110 | 3.28 | 116 | 30 | 40 | Rc1-1/4″ | 75 | 2030 | 1260 | 1720 | 1200 | ||
| 10.5 | 152 | 2.95 | 104 | 3.01 | 106 | 30 | 40 | Rc1-1/4″ | 75 | 2030 | 1260 | 1720 | 1200 | ||
| DWW-37 | 7.5 | 109 | 4 | 141 | 4.25 | 150 | 37 | 50 | 10 | Rc1-1/2″ | 75 | 2030 | 1260 | 2100 | 1420 |
| 8.5 | 123 | 3.89 | 138 | 4.05 | 143 | 37 | 50 | Rc1-1/2″ | 75 | 2030 | 1260 | 2100 | 1420 | ||
| 10.5 | 152 | 3.68 | 130 | 3.72 | 131 | 37 | 50 | Rc1-1/2″ | 75 | 2030 | 1260 | 2100 | 1420 | ||
| *) 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 |
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DENAIR Certificates:
DENAIR Factory:
At DENAIR, we earn our customers’ trust and satisfaction by manufacturing the superior quality compressed air products for all industries. All of our products are designed for reliable performance, easy maintenance, and maximum energy efficiency. CHINAMFG has been exporting to more than 90 countries across the globe. We have sales representatives who can speak English, Spanish, French, Russian and Arabic, which makes it easier for our clients from all over the world to interact and negotiate with us.
Why Choose DENAIR ?
1.Original Germany AERZEN/DENAIR air end,larger air delivery,lower noise.
2. Pass CE, ISO9001 Quality Certification
3. One of 3 biggest mobile air compressor manufacturer in China
4. Complete before-on-after sales service
5. Immediate reply or solution by email or call
6.Special oil gas separator with patents
7.High efficiency motor, up to 96%
DENAIR Overseas Sales Team
DENAIR Exhibitions:
DENAIR Global Customers:
Oil Free Scroll Air Compressor Packaging:
FAQ:
Q1: Are you factory or trade company?
A1: We are factory.
Q2: What the exactly address of your factory?
A2: Our company is located in No. 6767, Tingfeng Rd. Xihu (West Lake) Dis.n District, ZheJiang 201502, China
And our factory is located in No. 366, YangzhuangBang Street, Pingxing Rd., Xindai Town, HangZhou, ZHangZhoug Province, China
Q3: Warranty terms of your machine?
A3: One year warranty for the machine and technical support according to your needs.
Q4: Will you provide some spare parts of the machines?
A4: Yes, of course.
Q5: How long will you take to arrange production?
A5: 380V 50HZ we can delivery the goods within 10 days. Other electricity or other color we will delivery within 22 days
Q6: Can you accept OEM orders?
A6: Yes, with professional design team, OEM orders are highly welcome.
| Lubrication Style: | Lubricated |
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| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can Water-Lubricated Air Compressors Be Used in Cold Climates?
Water-lubricated air compressors can be used in cold climates, but there are certain considerations and precautions to keep in mind. Here’s a detailed explanation of using water-lubricated air compressors in cold climates:
Freezing of Water:
- Potential for Freezing: In cold climates, the water used for lubrication in water-lubricated compressors can freeze, which can cause operational issues and damage to the equipment. Freezing can occur in the water supply lines, lubrication system, or water jackets if the temperature drops below the freezing point of water.
- Water Temperature: It is important to ensure that the water temperature remains above freezing throughout the compressor system. This can be achieved by using insulation, heat tracing, or heaters to maintain adequate water temperature. Monitoring the water temperature and implementing appropriate heating measures are crucial to prevent freezing-related problems.
Protection and Insulation:
- Protecting External Components: External components of water-lubricated compressors, such as valves, fittings, and pipes, may be exposed to cold temperatures. Insulating these components can help prevent freezing and ensure their proper functioning. Insulation materials, such as foam wraps or heat tapes, can be used to provide thermal protection.
- Water Supply Lines: Water supply lines that feed the compressor should be properly insulated and protected from freezing temperatures. Insulation can help maintain the water temperature and prevent freezing within the supply lines. Additionally, measures such as burying the supply lines below the frost line or using heat tracing cables can offer further protection against freezing.
Alternative Lubrication Methods:
- Oil-Lubricated Compressors: In extremely cold climates, where freezing is a significant concern, using oil-lubricated compressors instead of water-lubricated ones may be a more practical option. Oil-based lubrication systems are less prone to freezing and can provide reliable operation in colder temperatures. However, it is important to consider the specific requirements and limitations of oil-lubricated compressors for the intended application.
Manufacturer Recommendations:
- Consulting the Manufacturer: It is crucial to consult the manufacturer’s guidelines and recommendations regarding the use of water-lubricated compressors in cold climates. Manufacturers may provide specific instructions, modifications, or alternative solutions to ensure the safe and efficient operation of their equipment under cold weather conditions.
By implementing proper insulation, heating measures, and following the manufacturer’s guidance, water-lubricated air compressors can be used effectively in cold climates. It is important to assess the specific requirements of the application and consider the potential challenges associated with freezing temperatures to ensure the reliable and safe operation of the water-lubricated compressor system.
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What Are the Considerations for Choosing Water-Lubricated vs. Oil-Lubricated Compressors?
When selecting between water-lubricated and oil-lubricated compressors, several considerations come into play. Here’s a detailed explanation of the key factors to consider when choosing between these two types:
Operating Environment:
- Water Sensitivity: Water-lubricated compressors are well-suited for environments where water is readily available and can be easily supplied to the compressor system. On the other hand, oil-lubricated compressors are more suitable for applications where water is not readily available or where water contamination could pose a problem.
- Cleanliness Requirements: If the application demands a high level of cleanliness, such as in certain manufacturing processes or cleanroom environments, water-lubricated compressors may be preferred. Water is inherently cleaner than oil and reduces the risk of oil contamination in sensitive operations.
Maintenance and Service:
- Lubricant Replacement: Oil-lubricated compressors require regular oil changes and maintenance to ensure proper lubrication and performance. Water-lubricated compressors, on the other hand, eliminate the need for oil changes and associated maintenance tasks, simplifying the maintenance requirements.
- Oil Contamination: Oil-lubricated compressors carry the risk of oil contamination in the compressed air system. This can be a concern in certain applications where oil contamination can negatively impact product quality or downstream equipment. Water-lubricated compressors reduce the risk of oil contamination, making them advantageous in such applications.
Environmental Impact:
- Oil Disposal: Oil-lubricated compressors generate used oil that requires proper disposal in accordance with environmental regulations. Water-lubricated compressors eliminate the need for oil disposal, contributing to a reduced environmental impact.
- Energy Efficiency: In terms of energy efficiency, water-lubricated compressors tend to have an advantage. Water has a higher specific heat capacity than oil, meaning it can absorb and dissipate heat more effectively. This can result in improved cooling efficiency and potentially lower energy consumption compared to oil-lubricated compressors.
Application-Specific Factors:
- Operating Pressure: Water-lubricated compressors are generally suitable for lower to moderate operating pressures. Oil-lubricated compressors, on the other hand, can handle higher operating pressures, making them more appropriate for applications that require higher pressure levels.
- Temperature Sensitivity: Water-lubricated compressors may have limitations in applications where low temperatures are encountered. Water freezing or becoming slushy can cause operational issues. Oil-lubricated compressors, with appropriate low-temperature oil formulations, can better handle such temperature-sensitive conditions.
Cost Considerations:
- Initial Cost: Water-lubricated compressors generally have a lower initial cost compared to oil-lubricated compressors. This cost advantage can be attractive for applications with budget constraints.
- Maintenance Cost: Over the long term, water-lubricated compressors may have lower maintenance costs due to the elimination of oil changes and associated maintenance tasks. However, it’s important to consider the specific maintenance requirements and costs associated with each type of compressor.
By considering these factors, including the operating environment, maintenance and service requirements, environmental impact, application-specific factors, and cost considerations, one can make an informed decision when choosing between water-lubricated and oil-lubricated compressors.
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How does a water lubrication system work in air compressors?
A water lubrication system in air compressors is designed to provide lubrication and cooling to the internal components of the compressor using water as the lubricant. This system offers an alternative to traditional oil lubrication systems and has specific advantages in certain applications. Here’s a detailed explanation of how a water lubrication system works in air compressors:
1. Water Injection:
In a water lubrication system, a controlled amount of water is injected into the compression chamber of the air compressor. This can be achieved through various methods, such as direct injection or atomization of water droplets.
2. Lubrication:
As the compressed air is generated, the injected water serves as a lubricant for the internal components of the compressor. The water forms a thin film on the surfaces, reducing friction and wear between the moving parts. This lubrication helps to improve the efficiency and lifespan of the compressor.
3. Cooling:
The water injected into the compression chamber also acts as a cooling medium. As the air is compressed, heat is generated, and the injected water absorbs some of this heat. The water carries away the heat, preventing excessive temperature rise and maintaining optimal operating conditions for the compressor.
4. Separation and Filtration:
After serving its lubrication and cooling purposes, the water needs to be separated from the compressed air. The compressed air and water mixture pass through a separator or filtration system, which separates the water from the compressed air. This can involve mechanisms such as centrifugal force, gravity separation, or filtration media.
5. Water Treatment:
In water lubrication systems, proper water treatment is essential to maintain the quality and performance of the system. Water filtration and purification processes are employed to remove impurities, contaminants, and any solid particles present in the water. This ensures that the injected water is clean and free from any substances that could potentially harm the compressor or the downstream air system.
6. Recirculation or Discharge:
Depending on the specific design of the water lubrication system, the separated water can be recirculated back into the system for reuse or discharged from the compressor. Recirculation systems involve the treatment and filtration of the water before reintroducing it into the compression chamber. Discharge systems, on the other hand, may involve further treatment or disposal of the water in an environmentally responsible manner.
By utilizing a water lubrication system, air compressors can benefit from reduced oil consumption, improved air quality, and enhanced energy efficiency. These systems are commonly employed in industries where oil contamination must be avoided, such as food processing, pharmaceutical manufacturing, and electronics production.
editor by CX 2023-11-01
China Hot selling Oil Free Air Compressor Oilless Industry Single Screw Air Comopressors Tr-110va/W 110kw with Best Sales
Product Description
Lead Time
Product Description
TR-110VA/W 0.8-1.25Mpa 8-12.5Bar 4.65-20.2m3/min 110KW 1.4) optimized design, large rotor, low rotary speed (within 3000r/min), without the gearbox.
direct connection drive, it has a lower rotary speed and longer life compared with dry oil-free screw air compressor(10000r/min-20000r/min).
12. Automatic Cleaning System
The function of automatic water exchange and automatic system cleaning can be realized, and the interior of the compressor is more clean and sanitary.
Introduction
Company Information
Package Delivery
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| Lubrication Style: | Oil-free |
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| 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) | |
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| Customization: |
Available
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What Are the Key Components of a Water-Lubrication System in Compressors?
A water-lubrication system in compressors typically consists of several key components that work together to provide lubrication and cooling to the compressor. Here’s a detailed explanation of the key components of a water-lubrication system in compressors:
Water Supply:
- Water Source: The water-lubrication system requires a water source that provides clean and suitable water for lubrication. The water can be sourced from various places such as municipal water supply, well water, or treated water from a dedicated water treatment system.
- Water Inlet: The water inlet is the entry point where water enters the compressor’s lubrication system. It may include valves, filters, or other components to regulate and control the water flow.
Lubrication System:
- Water Jackets: Water jackets are channels or passages built into the compressor’s housing or cylinder walls. These jackets allow water to circulate and come into direct contact with the compressor’s moving parts, providing lubrication and cooling. The water jackets help dissipate heat generated during compression and prevent excessive temperatures that could damage the compressor.
- Water Pump: The water pump is responsible for circulating water through the water jackets and the entire lubrication system. It provides the necessary pressure to ensure adequate water flow and distribution to the compressor’s components.
- Flow Control Devices: Flow control devices, such as valves or flow restrictors, are often included in the water-lubrication system to regulate and control the water flow rate. These devices help maintain optimal water pressure and flow throughout the system, ensuring effective lubrication and cooling.
- Water Filters: Water filters are used to remove impurities, sediment, or debris from the water before it enters the lubrication system. They help prevent blockages, protect the compressor’s components from damage, and maintain the quality of the water used for lubrication.
- Water Separator: A water separator is a component that removes excess water, moisture, or condensate from the compressed air. It ensures that the compressed air leaving the compressor is dry and free from excess water content, preventing potential issues such as corrosion or contamination downstream.
Control and Monitoring:
- Temperature Sensors: Temperature sensors are used to monitor the temperature of the water and the compressor components. They provide feedback to the control system, allowing for adjustments in water flow or cooling measures if required to maintain optimal operating conditions.
- Pressure Sensors: Pressure sensors are employed to monitor the water pressure within the lubrication system. They help ensure that the water flow and pressure are within the desired range, allowing for proper lubrication and cooling of the compressor.
- Control System: A control system, which may include a combination of sensors, valves, and controllers, is responsible for regulating and maintaining the operation of the water-lubrication system. It can monitor various parameters, such as temperature, pressure, and flow, and make adjustments as needed to ensure efficient and safe operation.
Regular maintenance, inspection, and monitoring of the key components of the water-lubrication system are essential to ensure its proper functioning and to prevent any issues that could affect the performance and longevity of the compressor.
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Are There Any Restrictions on the Type of Water Used in Water-Lubricated Compressors?
When it comes to water-lubricated compressors, there are certain restrictions and considerations regarding the type of water that can be used. Here’s a detailed explanation of the restrictions on the type of water used in water-lubricated compressors:
Water Quality:
- Cleanliness: The water used in water-lubricated compressors should be clean and free from excessive impurities or contaminants. Impurities like sediment, minerals, or debris can cause blockages, wear, or damage to the compressor components. It is important to use water that meets the cleanliness requirements specified by the manufacturer.
- Chemical Composition: The chemical composition of the water can also be a factor to consider. Water with high mineral content or hardness can lead to scale formation, which can affect the performance and lifespan of the compressor. Water treatment methods, such as water softening or filtration, may be necessary to maintain the desired water quality.
Water Temperature:
- Freezing Point: In cold climates, it is important to ensure that the water used in the compressor’s lubrication system does not freeze. Freezing can cause operational issues and damage to the equipment. The water temperature should be maintained above freezing point through insulation, heating, or other suitable methods.
- Temperature Range: Water-lubricated compressors may have specific temperature requirements to ensure optimal operation and lubrication. Operating the compressor with water temperatures outside the recommended range can affect its performance and lifespan. It is important to adhere to the manufacturer’s guidelines regarding the acceptable temperature range for the water used.
Water Treatment:
- Water Treatment Systems: Depending on the quality of the available water supply, it may be necessary to use water treatment systems to ensure the water meets the required standards. Water treatment systems can help remove impurities, control chemical composition, and maintain the desired water quality for effective lubrication and cooling.
- Water Treatment Frequency: Regular maintenance and monitoring of the water treatment systems are essential to ensure their effectiveness. The frequency of water treatment, such as filtration or chemical treatment, may vary depending on the specific conditions and the water quality in the area.
Manufacturer Recommendations:
- Consulting the Manufacturer: It is important to consult the manufacturer’s guidelines and recommendations regarding the type of water to be used in water-lubricated compressors. Manufacturers may specify the acceptable water quality parameters, treatment methods, or restrictions to ensure optimal performance and longevity of the compressor.
By considering the cleanliness, chemical composition, temperature, and appropriate water treatment measures, the type of water used in water-lubricated compressors can be optimized to meet the requirements specified by the manufacturer. Adhering to these restrictions helps ensure efficient and reliable operation of the compressor while minimizing the risk of component damage or performance issues.
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Advantages of Using Water as a Lubricant in Air Compressors
Water can be used as a lubricant in air compressors, offering several advantages over traditional lubricants such as oils or synthetic lubricants. Here are some of the advantages:
- Cost-effective: Water is a readily available and inexpensive resource, making it a cost-effective lubricant option for air compressors. Compared to oils or synthetic lubricants, water is significantly cheaper, which can result in cost savings for businesses and industries that heavily rely on air compressors.
- Environmentally friendly: Water is a non-toxic and environmentally friendly lubricant. It does not contain harmful chemicals or pollutants that can contribute to air or water pollution. Using water as a lubricant in air compressors reduces the risk of contamination and minimizes the environmental impact associated with traditional lubricants.
- Improved heat dissipation: Water has excellent heat transfer properties. It can absorb and dissipate heat more efficiently compared to oils or synthetic lubricants. Air compressors generate heat during operation, and using water as a lubricant helps to dissipate this heat effectively, preventing overheating and prolonging the lifespan of the compressor.
- Reduced fire hazard: Compared to oils or synthetic lubricants, water has a significantly higher flash point, which means it is less likely to ignite or contribute to fire hazards. This fire-resistant property of water makes it a safer lubricant choice, especially in environments where fire safety is a concern.
- Lower maintenance requirements: Water does not leave behind sticky residues or deposits, as some oils or synthetic lubricants might. This characteristic reduces the maintenance requirements of air compressors. It simplifies the cleaning process and reduces the frequency of lubricant changes, resulting in reduced downtime and maintenance costs.
Overall, using water as a lubricant in air compressors can offer significant advantages in terms of cost-effectiveness, environmental friendliness, heat dissipation, fire safety, and maintenance requirements.
editor by CX 2023-10-25