Product Description
Explosive High Pressure Liquefied Petroleum Industrial Gas Compressor (KZW0.6/8-12)
ADEKOM CNG Compressor of the liquefied petroleum gas is high efficiency and energy-saving, which has a whole container structure and has no need to be used with ancillary equipment, and it features simple operation & maintenance, long service life of consumable components and excellent performance. CNG Gas Compressor compared with the same kind of machines in China, it is equivalent to the advanced level of similar imported products.
We have a variety of products with different specifications to make customers choose. Product lubrication methods include pressure type and splashing type. Product structures include single-cylinder vertical type, double-cylinder vertical type and symmetrical balanced type. Product types include fixed, mobile and various marine liquefied petroleum gas compressors. Product gas displacement varies from 0.2m³/min to 10 m³/min and exhaust pressure is from 0.8MPa to 2.6MPa, which can meet the working status of 3 stations, 2 stations, fire tanks, terminals, filling stations, industrial stations, loading and unloading in refineries, transportation, filling, supercharging in different seasons or regions, etc.
The Compressors can also be used for gas / liquid handling of low boiling point, such as ethane, ethylene, propane, propylene, butane, butene, dimethyl ether and difluoroethane. With the latest generation of PLC control system and remote touch screen display and the monitor, the compressor can operate more safely and reliably.
Fields of application:
Loading and unloading of LPG tank truck and vessel.
Bottle filling and tank decanting of LPG and similar media.
Recovery of LPG residual air and liquid.
Tail gas recovery in the process of producing Chemical products.
Vacuuming, etc.
Technical parameters.
Model | KZW 0.2/8-12 |
KZW 0.45/8- 12 |
KZW(CZW) 0.6/8- 12 |
KZW 0.8/8- 12 |
KZW 0.95/8- 12 |
KZW 2.0/10-16 |
KZW 2.5/10-16 |
KZW 3.0/10- 16 |
KZW 3.0/10- 16 |
KZW 4.0/10- 16 |
|
Capacity (m3/min) |
0.2 | 0.45 | 0.6 | 0.8 | 0.95 | 1.5 | 2 | 2.5 | 3 | 4 | |
Suction pressure (Mpa) |
0.8 | 0.8 | 0.8 | 0.8 | 0.8 | 1 | 1 | 1 | 1 | 1 | |
Discharge pressure (Mpa) |
1.2 | 1.2 | 1.2 | 1.2 | 1.2 | 1.6 | 1.6 | 1.6 | 1.6 | 1.6 | |
Inlet temperature (°C) |
≤400 | ||||||||||
Discharge temperature (ºC) |
≤110 | ||||||||||
Speed (rpm) | 400 | 825 | 550 | 700 | 825 | 730 | 750 | 970 | 750 | 950 | |
Oil temperature (°C) |
≤70 | ||||||||||
Motor model | YB100L2 -4 |
YB132S -4 |
YB132M -4 |
YB160M -4 |
YB160M -4 |
YB180L -4 |
YB225L -4 |
YB225M -4 |
YB225M -4 |
YB250M -4 |
|
Power (kW) | 3 | 5.5 | 7.5 | 11 | 11 | 22 | 22 | 37 | 45 | 45 | |
Explosion-proof | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | DIIBT4 | |
Dimensions L*W*H (mm) |
1285*590*900 | 1305*700*900 | 1360*748*1145 | 1470*1196 *940 |
1200*850*1100 | ||||||
Weight (kg) |
290 | 384 | 420 | 437 | 850 | 970 | 1100 | 1200 | |||
For any other requests please contact Adekom.
Adekom Kompressoren (HangZhou) Limited
Web : dgadekom
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Lubrication Style: | Lubricated |
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Cooling System: | Air Cooling |
Cylinder Arrangement: | Parallel Arrangement |
Cylinder Position: | Angular |
Structure Type: | Open Type |
Compress Level: | Multistage |
Customization: |
Available
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How Do You Maintain a Gas Air Compressor?
Maintaining a gas air compressor is essential to ensure its optimal performance, longevity, and safe operation. Regular maintenance helps prevent breakdowns, extends the compressor’s lifespan, and promotes efficient operation. Here are some key maintenance steps for a gas air compressor:
1. Read the Manual:
Before performing any maintenance tasks, thoroughly read the manufacturer’s manual specific to your gas air compressor model. The manual provides important instructions and guidelines for maintenance procedures, including recommended intervals and specific maintenance requirements.
2. Check and Change the Oil:
Gas air compressors typically require regular oil changes to maintain proper lubrication and prevent excessive wear. Check the oil level regularly and change it according to the manufacturer’s recommendations. Use the recommended grade of oil suitable for your compressor model.
3. Inspect and Replace Air Filters:
Inspect the air filters regularly and clean or replace them as needed. Air filters prevent dust, debris, and contaminants from entering the compressor’s internal components. Clogged or dirty filters can restrict airflow and reduce performance. Follow the manufacturer’s guidelines for filter cleaning or replacement.
4. Drain Moisture from the Tank:
Gas air compressors accumulate moisture in the compressed air, which can lead to corrosion and damage to the tank and internal components. Drain the moisture from the tank regularly to prevent excessive moisture buildup. Refer to the manual for instructions on how to properly drain the moisture.
5. Check and Tighten Connections:
Regularly inspect all connections, fittings, and hoses for any signs of leaks or loose connections. Tighten any loose fittings and repair or replace damaged hoses or connectors. Leaks can lead to reduced performance and inefficiency.
6. Inspect Belts and Pulleys:
If your gas air compressor has belts and pulleys, inspect them for wear, tension, and proper alignment. Replace any worn or damaged belts and ensure proper tension to maintain optimal performance.
7. Clean the Exterior and Cooling Fins:
Keep the exterior of the gas air compressor clean from dirt, dust, and debris. Use a soft cloth or brush to clean the surfaces. Additionally, clean the cooling fins regularly to remove any accumulated debris that can impede airflow and cause overheating.
8. Schedule Professional Servicing:
While regular maintenance can be performed by the user, it is also important to schedule professional servicing at recommended intervals. Professional technicians can perform thorough inspections, conduct more complex maintenance tasks, and identify any potential issues that may require attention.
9. Follow Safety Precautions:
When performing maintenance tasks on a gas air compressor, always follow safety precautions outlined in the manual. This may include wearing protective gear, disconnecting the power source, and ensuring proper ventilation in confined spaces.
By following these maintenance steps and adhering to the manufacturer’s guidelines, you can keep your gas air compressor in optimal condition, prolong its lifespan, and ensure safe and efficient operation.
Can Gas Air Compressors Be Used for Natural Gas Compression?
Gas air compressors are not typically used for natural gas compression. Here’s a detailed explanation:
1. Different Compressed Gases:
Gas air compressors are specifically designed to compress atmospheric air. They are not typically designed or suitable for compressing natural gas. Natural gas, which is primarily composed of methane, requires specialized compressors designed to handle the unique properties and characteristics of the gas.
2. Safety Considerations:
Natural gas compression involves handling a flammable and potentially hazardous substance. Compressing natural gas requires specialized equipment that meets stringent safety standards to prevent leaks, minimize the risk of ignition or explosion, and ensure the safe handling of the gas. Gas air compressors may not have the necessary safety features or materials to handle natural gas safely.
3. Equipment Compatibility:
Natural gas compression systems typically include components such as gas compressors, gas coolers, separators, and control systems that are specifically designed and engineered for the compression and handling of natural gas. These components are built to withstand the specific demands and conditions associated with natural gas compression, including the high pressures and potential presence of impurities.
4. Efficiency and Performance:
Compressing natural gas requires specialized compressors that can handle the high-pressure ratios and volumetric flow rates associated with the gas. Gas air compressors are generally not designed to achieve the same compression ratios and performance levels required for natural gas compression. Using gas air compressors for natural gas compression would likely result in inefficient operation and suboptimal performance.
5. Regulatory Compliance:
Compressing natural gas is subject to various regulations and standards to ensure safety, environmental protection, and compliance with industry guidelines. These regulations often dictate specific requirements for equipment, materials, and operating procedures in natural gas compression systems. Gas air compressors may not meet these regulatory requirements for natural gas compression.
6. Industry Standards and Practices:
The natural gas industry has well-established standards and best practices for equipment selection, installation, and operation in gas compression systems. These standards are based on the specific requirements and characteristics of natural gas. Gas air compressors do not align with these industry standards and practices, which are essential for safe and efficient natural gas compression.
In summary, gas air compressors are not suitable for natural gas compression. Natural gas compression requires specialized equipment designed to handle the unique properties and safety considerations associated with the gas. Compressors specifically engineered for natural gas compression offer the necessary performance, safety features, and regulatory compliance required for efficient and reliable operation in natural gas compression systems.
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 2024-02-05