Product Description
Product Description
The equipment does not need to add lubricating oil, and the discharged gas does not contain oil and oil vapor, so it can be protected from pollution, eliminating the need for complex filtration and purification systems, saving equipment costs and maintenance costs, and has significant features such as safety, reliability, and easy operation.
Product Name |
Oil-Free Oxygen Booster compressor |
Cooling Method |
Air-cooled or water-cooled |
Range Of Rotation |
300-600r/min |
Power Range |
<55KW |
Flow Range |
Support Customization |
Inspiratory Pressure Range |
0-0.6Mpa |
Exhaust pressure range |
≤25.0Mpa |
Compression stage |
3-4Class |
Working Principle
A booster air compressor or compressed air pressure amplifier operates on the simple principle that within a closed system (non-vacuum), the pressure increases as volume decreases. An air booster compression system comprises a receiver tank, pipework,and discharge tank.The receiver tank has an inlet that receives compressed process air coming from a primary feed and channels it through several compression stages to further increase the pressure. Additionally, the receiver tank serves as a limited storage capacity for when the system is not actively delivering compressed air.After going through a series of compression stages, pressurized air flows through the piping into the discharge tank which contains an outlet that supplies the gas to the site.
Application Field
Company Profile
HangZhou Azbel Technology Co., Ltd. is located in HangZhou, China. The company adopts a separate operation of factories and offices. Our factory is located in Xihu (West Lake) Dis. County, HangZhou City, with the most professional technology and our office is located in CHINAMFG Gongwang Building in HangZhou HangZhou which have a state-of-the-art team. It has a fully automatic casting production workshop with an annual casting of more than 3,000 tons of stainless steel. There are more than 20 engineering and technical personnel, including 8 senior engineers. The company integrates control, casting, research and development, production, and sales.Its products are widely used in petrochemical, electric power, paper-making, metallurgy, energy and other industries. With advanced and prudent design concepts, sophisticated process equipment and complete testing and testing equipment, the company has a high-quality workforce to ensure high product quality and excellent service, and has won unanimous praise and trust from users over the years.
Advantages
* Low production cost
* Low working pressure and safely.
* Good flexibility. The purity and output for oxygen can be easily adjusted.
* Simple Process And Less Equipment,High Automation And Operation Convenience
* Quick Starting And Easy Stopping, The system can provide product gas in 30 minutes after starting and also can be operated
Packaging & Shipping
The equipments will wrapped by the pearl wool and crate,the full sets will download in the container.
FAQ
Q.What are the steps of cryogenic air separation?
A.Cryogenic separation of air into its constituent gases involves various processes. Combination of these processes are needed in a cryogenic air separation plant, of which the fundamental ones are (i) air compression, (ii) air purification, (iii) heat exchanging, (iv) distillation, and (v) product compression
Q;What is cryogenic distillation for air separation unit?
A:Cryogenic air separation processes are routinely used in medium to large scale plants to produce nitrogen, oxygen, and argon as gases and/ or liquid products. Cryogenic air separation is the preferred technology for producing very high purity oxygen and nitrogen.
Q:How much energy does a cryogenic air separation unit use?
A:Designed for production of liquid oxygen, nitrogen and argon under pressure up to 0.3 MPa, with total capacity of 500 up to 6000kg/h. Specific power consumption is 1.5 kWt*h/kg (for small units) up to 0.8 kWt*h/kg.
Usage: | Hydrogen, Nitrogen, Oxygen, Ozone |
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Purpose: | Air Compressor |
Parts: | PLC, Pressure Vessel, Other, Engine, Gear, Motor, |
Application Fields: | Air System |
Noise Level: | Low |
Machine Size: | Medium |
Customization: |
Available
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What Is the Noise Level of Gas Air Compressors?
The noise level of gas air compressors can vary depending on several factors, including the compressor’s design, engine type, operating conditions, and the presence of noise-reducing features. Here’s a detailed explanation:
1. Compressor Design:
The design of the gas air compressor can influence its noise level. Some compressors are engineered with noise reduction in mind, utilizing features such as sound insulation, vibration dampening materials, and mufflers to minimize noise generation. Compressors with enclosed cabinets or acoustic enclosures tend to have lower noise levels compared to open-frame compressors.
2. Engine Type:
The type of engine used in the gas air compressor can impact the noise level. Gas air compressors typically use internal combustion engines powered by gasoline or propane. Gasoline engines tend to produce higher noise levels compared to diesel engines or electric motors. However, advancements in engine technology have led to quieter gasoline engines with improved noise control.
3. Operating Conditions:
The operating conditions of the gas air compressor can affect the noise level. Factors such as the load capacity, speed of operation, and ambient temperature can influence the amount of noise generated. Compressors operating at higher loads or speeds may produce more noise compared to those running at lower levels.
4. Noise-Reducing Features:
Some gas air compressors are equipped with noise-reducing features to minimize sound emissions. These may include built-in silencers, acoustic enclosures, or noise-absorbing materials. Such features help dampen the noise produced by the compressor and reduce its overall noise level.
5. Manufacturer Specifications:
Manufacturers often provide noise level specifications for their gas air compressors. These specifications typically indicate the sound pressure level (SPL) in decibels (dB) at a specific distance from the compressor. It is important to refer to these specifications to get an idea of the expected noise level of a particular compressor model.
6. Distance and Location:
The distance between the gas air compressor and the listener can impact the perceived noise level. As sound waves disperse, the noise level decreases with distance. Locating the compressor in an area that is isolated or distant from occupied spaces can help minimize the impact of noise on the surrounding environment.
It is important to note that gas air compressors, especially those used in industrial or heavy-duty applications, can generate substantial noise levels. Occupational health and safety regulations may require the use of hearing protection for individuals working in close proximity to loud compressors.
Overall, the noise level of gas air compressors can vary, and it is advisable to consult the manufacturer’s specifications and consider noise-reducing features when selecting a compressor. Proper maintenance, such as regular lubrication and inspection of components, can also help minimize noise levels and ensure optimal performance.
Can Gas Air Compressors Be Used in Agriculture?
Yes, gas air compressors can be used in various agricultural applications. Here’s a detailed explanation:
1. Pneumatic Tools and Equipment:
Gas air compressors can power a wide range of pneumatic tools and equipment used in agriculture. These tools include pneumatic drills, impact wrenches, nail guns, staplers, and pneumatic pumps. Gas air compressors provide the necessary compressed air to operate these tools, making various tasks more efficient and convenient on the farm.
2. Irrigation Systems:
Gas air compressors can be used to power irrigation systems in agriculture. They can supply compressed air to operate pneumatic valves, which control the flow of water in irrigation networks. Gas air compressors ensure reliable and efficient operation of irrigation systems, facilitating the distribution of water to crops in a controlled manner.
3. Grain Handling and Storage:
Air compressors play a vital role in grain handling and storage facilities. They are used to power aeration systems that provide airflow to grains stored in silos or bins. Aeration helps control the temperature and moisture levels, preventing spoilage and maintaining grain quality. Gas air compressors provide the airflow necessary for effective aeration in grain storage operations.
4. Cleaning and Maintenance:
In agriculture, gas air compressors are commonly used for cleaning and maintenance tasks. They can power air blowers or air guns to remove dust, debris, or chaff from machinery, equipment, or storage areas. Gas air compressors provide a high-pressure stream of compressed air, facilitating efficient cleaning and maintenance operations.
5. Livestock Operations:
Gas air compressors find applications in livestock operations as well. They can power pneumatic equipment used for animal care, such as pneumatic nail guns for building or repairing livestock enclosures, pneumatic pumps for water distribution, or pneumatic tools for general maintenance tasks.
6. Portable and Versatile:
Gas air compressors are often portable and can be easily transported around the farm, allowing flexibility in agricultural operations. Their versatility makes them suitable for various tasks, from powering tools and equipment in the field to providing compressed air for maintenance or cleaning in different farm locations.
7. Remote Locations:
In agricultural settings where access to electricity may be limited, gas air compressors offer a reliable alternative. They can be powered by gasoline or diesel engines, providing compressed air even in remote areas without electrical infrastructure.
8. Considerations:
When using gas air compressors in agriculture, it is essential to consider factors such as compressor size, capacity, and maintenance requirements. Selecting the right compressor based on the specific needs of the agricultural applications ensures optimal performance and efficiency.
In summary, gas air compressors have various applications in agriculture. They can power pneumatic tools and equipment, operate irrigation systems, facilitate grain handling and storage, assist in cleaning and maintenance tasks, support livestock operations, and offer portability and versatility. Gas air compressors contribute to increased efficiency, convenience, and productivity in agricultural operations.
What Are the Advantages of Using a Gas Air Compressor Over an Electric One?
Using a gas air compressor offers several advantages over an electric air compressor. Gas-powered compressors provide unique benefits in terms of mobility, versatility, power, and convenience. Here’s a detailed explanation of the advantages of using a gas air compressor:
1. Portability and Mobility:
Gas air compressors are typically more portable and mobile compared to electric compressors. They often feature handles, wheels, or trailers, allowing for easy transportation to different locations. This portability is especially advantageous in situations where compressed air is needed at remote job sites, outdoor events, or areas without access to electricity. Gas air compressors can be easily moved and positioned where they are required.
2. Independence from Electricity:
One of the primary advantages of gas air compressors is their independence from electricity. They are powered by gas engines, which means they do not rely on a direct connection to the electrical grid. This makes them suitable for use in areas where electrical power is limited, unreliable, or unavailable. Gas air compressors offer a reliable source of compressed air even in remote locations or during power outages.
3. Versatility in Fuel Options:
Gas air compressors provide versatility in terms of fuel options. They can be powered by various types of combustible gases, including gasoline, diesel, natural gas, or propane. This flexibility allows users to choose the most readily available or cost-effective fuel source based on their specific requirements. It also makes gas compressors adaptable to different environments and fuel availability in various regions.
4. Higher Power Output:
Gas air compressors typically offer higher power output compared to electric compressors. Gas engines can generate more horsepower, allowing gas compressors to deliver greater air pressure and volume. This higher power output is beneficial when operating pneumatic tools or equipment that require a significant amount of compressed air, such as jackhammers, sandblasters, or heavy-duty impact wrenches.
5. Continuous Operation:
Gas air compressors can provide continuous operation without the need for frequent breaks or cooldown periods. Electric compressors may overheat with prolonged use, requiring intermittent rest periods to cool down. Gas compressors, on the other hand, can operate continuously for longer durations without the risk of overheating. This continuous operation capability is particularly advantageous in demanding applications or situations that require extended periods of compressed air usage.
6. Quick Startup and Response:
Gas air compressors offer quick startup and response times. They can be started instantly by simply pulling a cord or pressing a button, whereas electric compressors may require time to power up and reach optimal operating conditions. Gas compressors provide immediate access to compressed air, allowing for efficient and prompt task completion.
7. Durability and Resistance to Voltage Fluctuations:
Gas air compressors are generally more durable and resistant to voltage fluctuations compared to electric compressors. Electric compressors can be affected by voltage drops or surges, which may impact their performance or cause damage. Gas compressors, however, are less susceptible to voltage-related issues, making them reliable in environments where voltage fluctuations are common.
8. Lower Energy Costs:
Gas air compressors can offer lower energy costs compared to electric compressors, depending on the price of the fuel being used. Gasoline or diesel fuel, for example, may be more cost-effective than electricity in certain regions or applications. This cost advantage can result in significant savings over time, especially for high-demand compressed air operations.
Overall, the advantages of using a gas air compressor over an electric one include portability, independence from electricity, fuel versatility, higher power output, continuous operation capability, quick startup and response times, durability, resistance to voltage fluctuations, and potentially lower energy costs. These advantages make gas air compressors a preferred choice in various industries, remote locations, and applications where mobility, power, and reliability are crucial.
editor by CX 2023-10-23