Product Description
Detailed Photos
High Pressure Gas-Condensate Hydrogen Diaphragm Membrane Piston Compressor
Description&Advantages
Product Descriptions:
High-pressure series compressors, medium-to-high pressure compressors for oil fields, general-purpose piston compressors, oil-free compressors of DW, VW, MZD, SF types, liquefied petroleum gas (LPG) circulation compressors, natural gas and gas bottle filling series compressors, and various types of pressure vessels. We can provide compressors with a discharge capacity ranging from 300 to 12000 nm³/h and discharge pressures from 0.2 to 45 MPa, suitable for compressing air, nitrogen, liquefied petroleum gas, coal gas, natural gas, carbon dioxide, propane, ethylene, ammonia, difluoroethane, and other mediem. With over 600 different models, our products are widely used in urban construction, petroleum, coal, geology, chemical, metallurgy, machinery manufacturing, medical, food and beverage, liquefied gas stations, natural gas stations, and other fields
ASC Compressor Factory are oil-free lubrication reciprocating piston compressors developed in collaboration with the German company CHINAMFG DEMAG. These models are known for their low energy consumption, minimal noise, reduced vibration, high reliability, and easy operation.
Each unit primarily consists of the compressor mainframe, electric motor, common base frame, air system, cooling system, lubrication system, instrument control system, drainage system, and electrical system. All components are generally installed on a single common base frame, which is then mounted on a concrete foundation, making it a fixed-type gas station. The connections between the equipment and the fixing points to the base are detachable, making transportation, installation, operation, and maintenance extremely convenient.
Advantages:
Our products, incorporating technology from Germany’s CHINAMFG Demag companies, exhibit high reliability. Wearable parts like gas valves and piston rings use products from Austria’s Hoerbiger company, with a lifespan exceeding 8000 hours. The system supports soft starting, allowing frequent start and stop cycles for the compressor. It features a wide intake range for broad adaptability. The overall skid-mounted structure results in low noise and is easy to install in urban areas, leading to investment savings.
It is equipped with a CHINAMFG PLC control system for high automation, ABB soft start (or variable frequency), and features automatic shutdown with audible and visual alarms in case of faults
Product Parameters
| Medium to High Compressor Parameter Sheet | ||||||||
| No | Model | Medium | Capacity | Inlet Pressure | Outlet Pressure | Rotation | Power | Cooling Method |
| nm3/h | MPa | MPa | r/min | KW | ||||
| 1 | DW-2.4/(18~25)-50 | Raw Gas | 2700 | 1.8~2.5 | 5 | 980 | 160 | Water |
| 2 | DW-5.5/(13-15)-26 | Nitrogen | 4500 | 1.3~1.5 | 2.6 | 740 | 160 | Water |
| 3 | VW-4.6/52 | BOG | 250 | Atmospheric Pressure | 5.2 | 740 | 75 | Closed loop |
| 4 | DWF-7/(2-4)-30 | Wellhead Gas | 2100 | 0.2~0.4 | 3 | 740 | 200 | Air |
| 5 | VWD-3.2/(0-0.2)-40 | Biogas | 200 | 0~0.02 | 4 | 740 | 45 | Closed loop |
| 6 | DW-4/5-41 | Exhaust Gas | 1200 | 0.5 | 4.1 | 980 | 160 | Water |
| 7 | VW-4.1/(36.8-44.7)- (39.9-49.9) |
Regenerated Gas | 8865 | 3.68~4.47 | 3.99~4.99 | 980 | 132 | Water |
| 8 | 2VW-18/0.05-90 | BOG | 1100 | 0.005 | 9 | 980 | 250 | Water |
| 9 | VW-4.8/48-54 | Natural Gas | 12000 | 4.8 | 5.4 | 980 | 132 | Water |
| 10 | VW-2/120 | Carbon Monoxide | 1200 | Atmospheric Pressure | 12 | 740 | 37 | Water |
| 11 | VW-2.5/120 | Carbon Monoxide | 1200 | Atmospheric Pressure | 12 | 740 | 45 | Water |
| High-Pressure Compressor (Pipeline Blowing) Specification Table | ||||||||
| No | Model | Medium | Capacity | Inlet Pressure | Outlet Pressure | Rotation | Power | Cooling Method |
| m3/h | MPa | MPa | r/min | W | ||||
| 1 | SF-10/250 | Air | 600 | Atm | 25 | 1330 | 258.5 (Diesel Motor) | Air |
| 2 | SF-10/150 | Air | 600 | Atm | 15 | 1330 | 258.5 (Diesel Motor) | |
| 3 | SF-7.5/250 | Air | 450 | Atm | 25 | 980 | 160 (Electric Motor) | |
| 4 | SF-7.5/150 | Air | 450 | Atm | 15 | 980 | 132 (Electric Motor) | |
| 5 | SF-8.5/250 | Air | 510 | Atm | 15 | 980 | 200 (Electric Motor) | |
| 6 | W-10/60 | Air | 600 | Atm | 6 | 1330 | 132 (Electric Motor) | |
| High-Pressure Compressor (Oilfield Membrane Nitrogen Generation) Parameter Table | |||||||
| Model | Flow Rate | Outlet Pressure | Air compressor form and series | Form and series of nitrogen booster compressor | Drive parameter | Power | Membrane Module Qty |
| nm3/h | MPa | KW | |||||
| MZD-300/250 | 300 | 25 | Screw type single-stage | V-type piston three-stage | 90KW+55KW | 300 | 4 |
| MZD-300/350 | 300 | 35 | Screw type single-stage | V-type piston four-stage | 90KW+55KW | 300 | 4 |
| MZD-300/250-C | 300 | 25 | Screw type single-stage | V-type piston three-stage | TBD234V6 | / | 4 |
| MZD-300/350-C | 300 | 35 | Screw type single-stage | V-type piston four-stage | TBD234V6 | / | 4 |
| MZD-600/250 | 600 | 25 | Screw type single-stage | V-type piston three-stage | 185KW+132KW | 500 | 8 |
| MZD-600/350 | 600 | 35 | Screw type single-stage | V-type piston four-stage | 185KW+132KW | 500 | 8 |
| MZD-600/250-C | 600 | 25 | Screw type single-stage | V-type piston three-stage | TBD234VB | / | 8 |
| MZD-600/350-C | 600 | 35 | Screw type single-stage | V-type piston four-stage | TBD234VB | / | 8 |
| MZD-900/250 | 900 | 25 | Screw type single-stage | V-type piston three-stage | 250KW+185KW | 800 | 12 |
| MZD-900/350 | 900 | 35 | Screw type single-stage | V-type piston four-stage | 250KW+185KW | 800 | 12 |
| MZD-1200/250 | 1200 | 25 | Screw type single-stage | V-type piston four-stage | 315KW+250KW | 880 | 16 |
| MZD-1200/350 | 1200 | 35 | Screw type single-stage | V-type piston four-stage | 315KW+250KW | 880 | 16 |
| MZD-1500/150 | 1200 | 15 | Screw type single-stage | V-type piston three-stage | 440KW+220KW | 880 | 20 |
Our Factory
Part of Customer Visit
Certifications & Testing
Related Product
FAQ
Q:Are you a factory?
A:Yes, we are indeed a factory. We specialize in manufacturing high-quality Air/Gas Compressors and are proud to be a primary source for these products.
Q:How long is your delivery time?
A:It varies depending on the specific situation. For our standard configuration compressors, the delivery time is around 30 days. For customized compressors, it usually takes about 30-45 days.
Q:What technical support do you offer?
A:We offer comprehensive technical support to our clients, including remote assistance for installation and commissioning processes. Additionally, we have a team of seasoned engineers ready to be deployed to international client locations for meticulous on-site debugging, installation, and post-installation services.
Q:What is your warranty period?
A:Our warranty policy is valid for a period of 18 months from the date of commissioning at the end customer’s site or 21 months from the date of receipt by the purchaser, whichever comes first. This comprehensive coverage is designed to ensure total customer satisfaction and the reliability of our products
Q:How do you package the compressors?
A:For smaller compressors, we utilize robust plywood boxes that conform to export specifications.
For the larger units, we strategically place them in freight containers, implementing secure fastening methods to safeguard against any potential damage during the shipping process.
Q:What are your payment terms?
A:Usually, the payment is made by T/T with a 30% down payment CHINAMFG confirmation of the Proforma Invoice (PI), and the balance is to be paid after inspection and before shipment. We accept both TT and L/C at sight.
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| After-sales Service: | Local Teams |
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| Warranty: | 18 Months |
| Lubrication Style: | Customized |
| Cooling System: | Air Cooling/Water Cooling |
| Cylinder Arrangement: | Balanced Opposed Arrangement |
| Cylinder Position: | Customized |
| Samples: |
US$ 40000/Set
1 Set(Min.Order) | |
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| Customization: |
Available
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Can Gas Air Compressors Be Used for Well Drilling?
Gas air compressors can be used for well drilling, and they are commonly employed in drilling operations. Here’s a detailed explanation:
1. Air Drilling Method:
Gas air compressors are often utilized in the air drilling method, also known as pneumatic drilling. In this drilling technique, compressed air is used to create a high-velocity airflow that carries the drill cuttings to the surface. The high-pressure air also aids in cooling the drill bit and providing additional force for efficient drilling.
2. Benefits of Gas Air Compressors:
Gas air compressors offer several advantages for well drilling:
- Portability: Gas air compressors can be easily transported to remote drilling sites, allowing for flexibility in well location.
- Power: Gas air compressors provide high-pressure air output, which is essential for effective drilling in various geological formations.
- Cost-Effectiveness: Gas air compressors can be more cost-effective compared to other drilling methods, as they eliminate the need for drilling mud and associated disposal costs.
- Environmental Considerations: Air drilling with gas compressors produces minimal waste and does not require the use of potentially harmful drilling fluids, making it an environmentally friendly option.
3. Compressor Selection:
When selecting a gas air compressor for well drilling, several factors should be considered:
- Pressure and Flow Requirements: Evaluate the pressure and flow requirements of the drilling operation to ensure that the gas air compressor can deliver the necessary air output.
- Compressor Size and Power: Choose a compressor with adequate size and power output to match the drilling demands. Factors such as borehole depth, drill bit type, and drilling speed will influence the compressor’s power requirements.
- Portability: Consider the portability features of the gas air compressor, such as its weight, dimensions, and mobility options, to facilitate transportation to drilling sites.
4. Safety Considerations:
It is essential to follow safety guidelines when using gas air compressors for well drilling. These may include proper ventilation to prevent the accumulation of exhaust fumes, adherence to equipment operating limits, and the use of personal protective equipment (PPE) for drilling personnel.
5. Other Considerations:
While gas air compressors are commonly used for well drilling, it is worth noting that the suitability of a gas air compressor for a specific drilling project depends on various factors such as geological conditions, well depth, and drilling objectives. It is recommended to consult with drilling experts and professionals to determine the most suitable drilling method and equipment for a particular project.
In summary, gas air compressors can be effectively used for well drilling, particularly in the air drilling method. They offer portability, power, cost-effectiveness, and environmental advantages. Proper selection, considering pressure and flow requirements, as well as safety precautions, is crucial to ensure successful and safe drilling operations.
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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.
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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 2024-03-27
China Custom Motor Powder 18.5-355kw Displacement Reciprocating Diaphragm Membrane Silane Gas Booster Compressor arb air compressor
Product Description
Company Profile
ZheZheJiang nshine Industrial Technology Co., Ltd., as a professional overseas sales team and sales service team, is committed to providing customers with piston compressor and diaphragm compressor solutions. The company adheres to the concept of one-stop service and provides customers with a complete set of compressor equipment solutions.
Product Parameters
Basic information:Piston compressor model parameters
| Piston compressor model parameters | |||||||||
| Piston force | 800 | 500 | 320 | 250 | 160 | 100 | 65 | 45 | 30 |
| Types of compressed gas | Hydrogen, nitrogen, natural gas, ethylene, propylene, coal gas, hydrogen chloride, hydrogen fluoride, carbon dioxide, methyl chloride, carbon monoxide, acetylene ammonia, hydrogen monochloride, difluoromethane, tetrafluoroethylene, pentafluoroethylene, hexafluoroethylene, etc. | ||||||||
| discharge pressureMPa(G) | <=25 | <=30 | |||||||
| Compression levels | 1-4levels | 2-6levels | 1-3levels | ||||||
| Number of columns | 2–4 | 2–6 | 1–4 | ||||||
| Layout form | M/D | M/D | M/D | M/D | M/D | M/D/P | M/D/P | M/D/P | L/P |
| route(mm) | 280-360 | 240-320 | 180-240 | 200 | |||||
| Rotating speed(rpm) | 300-375 | 333-450 | 375-585 | 420-485 | |||||
| Maximum motor power(KW) | 5600 | 3600 | 3300 | 2700 | 1250 | 800 | 560 | 250 | 75 |
| skid mounted | non-skid mounted | skid mounted/non -skid mounted | |||||||
| Digital Analog Computing | yes | ||||||||
| systolic algorithm | yes | ||||||||
| test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
| Factory inspection | According to the quality standard, carry out no-load mechanical operation test | ||||||||
| Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
| Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power | ||||||||
Product Description
Our products mainly include 2 series: piston compressors and diaphragm compressors, covering more than 30 types of products. These products are widely used in fields such as hydrogen energy, semiconductors, chemicals, petrochemicals, and natural gas transportation. We have over 3000 industrial enterprise users, covering all aspects of the hydrogen energy industry chain, including hydrogen production, filling, and hydrogen refueling station compressors, and providing a complete set of gas compression equipment solutions. As an efficient, energy-saving, environmentally friendly, and reliable compressor type, diaphragm compressors have also achieved great success and have been widely used in various fields.
Piston compressors are a type of positive displacement compressor that are commonly used in the chemical industry for a variety of applications. These compressors work by using a piston and cylinder to compress gas or air, which creates pressure and allows it to be transported through pipelines or used in other processes.
In the chemical industry, piston compressors are used for a variety of functions, including:
Gas compression – Piston compressors are used to compress natural gas, hydrogen, and other gases used in chemical processes. product-list-1.html product-list-1.html
Pneumatic conveying – Piston compressors are used to transport materials in a powdered or granular form through pipelines.
Refrigeration – Piston compressors are used in refrigeration systems to compress refrigerant gases, which are then used to cool industrial processes and equipment.
Process air compression – Piston compressors are used to compress air for use in chemical processes, such as in pneumatic equipment and air-powered tools.
Piston compressors are popular in the chemical industry because they are reliable, efficient, and can handle specific types of gases and air with ease. Additionally, they require minimal maintenance and can operate at high pressures, making them suitable for many applications
When choosing a piston compressor for use in the chemical industry, it is important to consider factors such as:
Type of gas or air being compressed – Different types of gases and air require different types of compression.
Required flow rate and pressure – The capacity and pressure capabilities of the compressor must meet the requirements of the application.
Environmental conditions – Factors such as temperature, humidity, and altitude can affect the performance of the compressor.
Maintenance requirements – The frequency and complexity of maintenance and servicing should be considered when selecting a compressor.
Overall, piston compressors are an important tool in the chemical industry, providing reliable and efficient compression for a variety of applications. Choosing the right compressor for the specific application is critical to ensuring optimal performance and efficiency.
Detailed Photos
After Sales Service
In addition to the high-quality performance of our products, we also attach great importance to providing customers with comprehensive services. We have an independent service operation and maintenance team, providing customers with various support and services, including technical support, debugging services, spare parts supply, renovation and upgrading, and major maintenance. We always adhere to the principle of customer-centrism, ensuring the safe and stable operation of customer equipment. Our service team is committed to providing reliable support for customers’ operations 24/7.
Training plan
Technical training is divided into 2 parts: company training and on-site training.
1)Company training
Before the unit is delivered, that is during the unit assembly period, users will be provided with a one-week on-site training by the company. Provide local accommodation and transportation facilities, and provide free venues, teaching materials, equipment, tools, etc. required for training. The company training content is as follows:
The working principle, structure and technical performance of the unit.
Unit assembly and adjustment, unit testing.
Operation of the unit, remote/local operation, manual/automatic operation, daily operation and management, familiar with the structure of each system of the unit.
Routine maintenance and upkeep of the unit, and precautions for operation and maintenance.
Analysis and troubleshooting of common faults, and emergency handling methods.
2) On-site training
During the installation and trial operation of the unit, on-site training will be conducted to teach the principles, structure, operation, maintenance, troubleshooting of common faults and other knowledge of the unit, so as to further become familiar with the various systems of the unit, so that the purchaser can independently and correctly operate the unit. Operation, maintenance and management.
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| After-sales Service: | 1 Year |
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| Warranty: | 1 Year |
| Lubrication Style: | Lubricated |
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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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How Do You Troubleshoot Common Issues with Gas Air Compressors?
Troubleshooting common issues with gas air compressors involves identifying and addressing potential problems that may arise during operation. Here’s a detailed explanation of the troubleshooting process:
1. Start with Safety Precautions:
Prior to troubleshooting, ensure that the gas air compressor is turned off and disconnected from the power source. Follow proper safety procedures, such as wearing appropriate personal protective equipment (PPE), to avoid accidents or injuries.
2. Check Power Supply and Connections:
Verify that the compressor is receiving power and that all electrical connections are secure. Inspect the power cord, plug, and any switches or controls to ensure they are functioning properly. If the compressor is equipped with a battery, check its charge level and connections.
3. Check Fuel Supply:
For gas air compressors that use gasoline or propane, ensure that there is an adequate fuel supply. Check the fuel tank level and verify that the fuel shut-off valve is open. If the compressor has been sitting idle for an extended period, old or stale fuel may cause starting issues. Consider draining and replacing the fuel if necessary.
4. Inspect Air Filters:
Dirty or clogged air filters can restrict airflow and affect the compressor’s performance. Check the intake air filters and clean or replace them as needed. Clogged filters can be cleaned with compressed air or washed with mild detergent and water, depending on the type of filter.
5. Check Oil Level and Quality:
If the gas air compressor has an engine with an oil reservoir, verify the oil level using the dipstick or oil level indicator. Insufficient oil can lead to engine damage or poor performance. Additionally, check the oil quality to ensure it is clean and within the recommended viscosity range. If needed, change the oil following the manufacturer’s guidelines.
6. Inspect Spark Plug:
If the gas air compressor uses a spark plug ignition system, inspect the spark plug for signs of damage or fouling. Clean or replace the spark plug if necessary, following the manufacturer’s recommendations for gap setting and torque.
7. Check Belts and Pulleys:
Inspect the belts and pulleys that drive the compressor pump. Loose or worn belts can cause slippage and affect the compressor’s performance. Tighten or replace any damaged belts, and ensure that the pulleys are properly aligned.
8. Listen for Unusual Noises:
During operation, listen for any unusual or excessive noises, such as grinding, rattling, or squealing sounds. Unusual noises could indicate mechanical issues, loose components, or improper lubrication. If identified, consult the compressor’s manual or contact a qualified technician for further inspection and repair.
9. Consult the Owner’s Manual:
If troubleshooting steps do not resolve the issue, refer to the compressor’s owner’s manual for specific troubleshooting guidance. The manual may provide additional troubleshooting steps, diagnostic charts, or recommended maintenance procedures.
10. Seek Professional Assistance:
If the issue persists or if you are unsure about performing further troubleshooting steps, it is recommended to seek assistance from a qualified technician or contact the manufacturer’s customer support for guidance.
Remember to always prioritize safety and follow proper maintenance practices to prevent issues and ensure the reliable performance of the gas air compressor.
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How Do Gas Air Compressors Contribute to Energy Savings?
Gas air compressors can contribute to energy savings in several ways. Here’s a detailed explanation:
1. Efficient Power Source:
Gas air compressors are often powered by gasoline or diesel engines. Compared to electric compressors, gas-powered compressors can provide higher power output for a given size, resulting in more efficient compression of air. This efficiency can lead to energy savings, especially in applications where a significant amount of compressed air is required.
2. Reduced Electricity Consumption:
Gas air compressors, as standalone units that don’t rely on electrical power, can help reduce electricity consumption. In situations where the availability of electricity is limited or expensive, using gas air compressors can be a cost-effective alternative. By utilizing fuel-based power sources, gas air compressors can operate independently from the electrical grid and reduce dependence on electricity.
3. Demand-Sensitive Operation:
Gas air compressors can be designed to operate on demand, meaning they start and stop automatically based on the air requirements. This feature helps prevent unnecessary energy consumption during periods of low or no compressed air demand. By avoiding continuous operation, gas air compressors can optimize energy usage and contribute to energy savings.
4. Energy Recovery:
Some gas air compressors are equipped with energy recovery systems. These systems capture and utilize the heat generated during the compression process, which would otherwise be wasted. The recovered heat can be redirected and used for various purposes, such as space heating, water heating, or preheating compressed air. This energy recovery capability improves overall energy efficiency and reduces energy waste.
5. Proper Sizing and System Design:
Selecting the appropriate size and capacity of a gas air compressor is crucial for energy savings. Over-sizing a compressor can lead to excessive energy consumption, while under-sizing can result in inefficient operation and increased energy usage. Properly sizing the compressor based on the specific air demands ensures optimal efficiency and energy savings.
6. Regular Maintenance:
Maintaining gas air compressors in good working condition is essential for energy efficiency. Regular maintenance, including cleaning or replacing air filters, checking and repairing leaks, and ensuring proper lubrication, helps optimize compressor performance. Well-maintained compressors operate more efficiently, consume less energy, and contribute to energy savings.
7. System Optimization:
For larger compressed air systems that involve multiple compressors, implementing system optimization strategies can further enhance energy savings. This may include employing advanced control systems, such as variable speed drives or sequencers, to match compressed air supply with demand, minimizing unnecessary energy usage.
In summary, gas air compressors contribute to energy savings through their efficient power sources, reduced electricity consumption, demand-sensitive operation, energy recovery systems, proper sizing and system design, regular maintenance, and system optimization measures. By utilizing gas-powered compressors and implementing energy-efficient practices, businesses and industries can achieve significant energy savings in their compressed air systems.
What Fuels Are Commonly Used in Gas Air Compressors?
Gas air compressors can be powered by various fuels depending on the specific model and design. The choice of fuel depends on factors such as availability, cost, convenience, and environmental considerations. Here’s a detailed explanation of the fuels commonly used in gas air compressors:
1. Gasoline:
Gasoline is a widely used fuel in gas air compressors, particularly in portable models. Gasoline-powered compressors are popular due to the widespread availability of gasoline and the convenience of refueling. Gasoline engines are generally easy to start, and gasoline is relatively affordable in many regions. However, gasoline-powered compressors may emit more exhaust emissions compared to some other fuel options.
2. Diesel:
Diesel fuel is another common choice for gas air compressors, especially in larger industrial models. Diesel engines are known for their efficiency and durability, making them suitable for heavy-duty applications. Diesel fuel is often more cost-effective than gasoline, and diesel-powered compressors typically offer better fuel efficiency and longer runtime. Diesel compressors are commonly used in construction sites, mining operations, and other industrial settings.
3. Natural Gas:
Natural gas is a clean-burning fuel option for gas air compressors. It is a popular choice in areas where natural gas infrastructure is readily available. Natural gas compressors are often used in natural gas processing plants, pipeline operations, and other applications where natural gas is abundant. Natural gas-powered compressors offer lower emissions compared to gasoline or diesel, making them environmentally friendly.
4. Propane:
Propane, also known as liquefied petroleum gas (LPG), is commonly used as a fuel in gas air compressors. Propane-powered compressors are popular in construction, agriculture, and other industries where propane is used for various applications. Propane is stored in portable tanks, making it convenient for use in portable compressors. Propane-powered compressors are known for their clean combustion, low emissions, and easy availability.
5. Biogas:
In specific applications, gas air compressors can be fueled by biogas, which is produced from the decomposition of organic matter such as agricultural waste, food waste, or wastewater. Biogas compressors are used in biogas production facilities, landfills, and other settings where biogas is generated and utilized as a renewable energy source. The use of biogas as a fuel in compressors contributes to sustainability and reduces dependence on fossil fuels.
It’s important to note that the availability and suitability of these fuel options may vary depending on the region, infrastructure, and specific application requirements. When selecting a gas air compressor, it’s crucial to consider the compatibility of the compressor with the available fuel sources and to follow the manufacturer’s guidelines regarding fuel selection, storage, and safety precautions.
editor by CX 2024-03-06
China Best Sales 45MPa No-Leakage Diaphragm Membrane Hydrogen H2 Gas Compressor for Filling Station wholesaler
Product Description
Company Profile
ZheZheJiang nshine Industrial Technology Co., Ltd., as a professional overseas sales team and sales service team, is committed to providing customers with piston compressor and diaphragm compressor solutions. The company adheres to the concept of one-stop service and provides customers with a complete set of air compressor equipment solutions.
Product Description
Our products mainly include 2 series: piston compressors and diaphragm compressors, covering more than 30 types of products. These products are widely used in fields such as hydrogen energy, semiconductors, chemicals, petrochemicals, and natural gas transportation. We have over 3000 industrial enterprise users, covering all aspects of the hydrogen energy industry chain, including hydrogen production, filling, and hydrogen refueling station compressors, and providing a complete set of gas compression equipment solutions. As an efficient, energy-saving, environmentally friendly, and reliable compressor type, diaphragm compressors have also achieved great success and have been widely used in various fields.
Product Description:
Piston compressors are a type of positive displacement compressor that are commonly used in the chemical industry for a variety of applications. These compressors work by using a piston and cylinder to compress gas or air, which creates pressure and allows it to be transported through pipelines or used in other processes.
Diaphragm compressor :according to the needs of the user, choose the right type of compressor to meet the needs of the user. The diaphragm of the metal diaphragm compressor completely separates the gas from the hydraulic oil system to ensure the purity of the gas and no pollution to the gas. At the same time, advanced manufacturing technology and accurate membrane cavity design technology are adopted to ensure the service life of the diaphragm compressor diaphragm. No pollution: the metal diaphragm group completely separates the process gas from the hydraulic oil and lubricating oil parts to ensure the gas purity.Our compressors can compress ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen chloride, hydrogen sulfide, hydrogen bromide, ethylene, acetylene, etc. (Nitrogen diaphragm compressor, bottle filling compressor, oxygen diaphragm compressor)and especially fit for all kinds of toxic radioactive corrosive compressor
In the chemical industry, piston compressors are used for a variety of functions, including:
Gas compression – Piston compressors are used to compress natural gas, hydrogen, and other gases used in chemical processes. product-list-1.html product-list-1.html
Pneumatic conveying – Piston compressors are used to transport materials in a powdered or granular form through pipelines.
Refrigeration – Piston compressors are used in refrigeration systems to compress refrigerant gases, which are then used to cool industrial processes and equipment.
Process air compression – Piston compressors are used to compress air for use in chemical processes, such as in pneumatic equipment and air-powered tools.
Piston compressors are popular in the chemical industry because they are reliable, efficient, and can handle specific types of gases and air with ease. Additionally, they require minimal maintenance and can operate at high pressures, making them suitable for many applications
When choosing a piston compressor for use in the chemical industry, it is important to consider factors such as:
Type of gas or air being compressed – Different types of gases and air require different types of compression.
Required flow rate and pressure – The capacity and pressure capabilities of the compressor must meet the requirements of the application.
Environmental conditions – Factors such as temperature, humidity, and altitude can affect the performance of the compressor.
Maintenance requirements – The frequency and complexity of maintenance and servicing should be considered when selecting a compressor.
Overall, piston compressors are an important tool in the chemical industry, providing reliable and efficient compression for a variety of applications. Choosing the right compressor for the specific application is critical to ensuring optimal performance and efficiency.
Piston compressor model:
1. Single-stage piston compressor
Single-stage piston compressor is the simplest compressor, mainly composed of cylinder, piston, crankshaft, connecting rod, valve and other components. It has the advantages of simple structure, easy maintenance and low price, so it is widely used in low-pressure air compression, nitrogen and oxygen production and other occasions. Parameters such as air output volume, air outlet pressure, and rotational speed need to be considered when selecting models.
Common models include: W-1.8/5, W-3.6/5, W-4/5, W-6/5, etc.
2. Two-stage piston compressor
A two-stage piston compressor consists of 2 compressors. The first-stage compressor compresses the gas to a higher intermediate pressure, and then is cooled by the cooler and sent to the second-stage compressor to compress it again to the final pressure. Compared with single-stage piston compressors, two-stage piston compressors have higher outlet pressure, higher efficiency, and wider application range.
Common models include: W-1/3-2/3, W-2.5/5-2.5/5, W-3/6-3.6/6, etc.
3. High-pressure piston compressor
High-pressure piston compressors are mainly used to compress high-pressure gases, such as natural gas, hydrogen, helium, etc. It has a complex structure and needs to be equipped with auxiliary equipment such as gas coolers, gas inlet filters, pressure controllers, etc. It also has the advantages of high outlet pressure, low energy consumption, and smooth operation.
Common models include: W-3/20, W-6/30, W-9/30, etc.
Introduction to the meaning of the model number of diaphragm compressor:
For example: 1G3V-300/4-15 AND GV3-310/22-62
1G3V-300/4-15 each represents as follows:
“1” means double first-class product;
“G” indicates diaphragm compressor;
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V” means V-shaped structure.
“3V” means there are main and auxiliary connecting rods, and the crankcase is split.
“300” indicates the amount of gas the compressor handles per hour under standard conditions;
“4” means the inlet pressure is 4kg/cm2 (ie 0.4MPa);
“15” means the exhaust pressure is 15kg/cm2 (ie 1.5MPa).
GV3-310/22-62 each represents as follows:
“G” indicates diaphragm compressor;
“V” means V-shaped structure.
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V3” is another series, indicating a side-by-side structure of connecting rods and a one-piece crankcase.
Basic information:Piston compressor model parameters:
| Piston compressor model parameters | |||||||||
| Piston force | 800 | 500 | 320 | 250 | 160 | 100 | 65 | 45 | 30 |
| Types of compressed gas | Hydrogen, nitrogen, natural gas, ethylene, propylene, coal gas, hydrogen chloride, hydrogen fluoride, carbon dioxide, methyl chloride, carbon monoxide, acetylene ammonia, hydrogen monochloride, difluoromethane, tetrafluoroethylene, pentafluoroethylene, hexafluoroethylene, etc. | ||||||||
| discharge pressureMPa(G) | <=25 | <=30 | |||||||
| Compression levels | 1-4levels | 2-6levels | 1-3levels | ||||||
| Number of columns | 2–4 | 2–6 | 1–4 | ||||||
| Layout form/Type/Model | M/D | M/D | M/D | M/D | M/D | M/D/P | M/D/P | M/D/P | L/P |
| route(mm) | 280-360 | 240-320 | 180-240 | 200 | |||||
| Rotating speed(rpm) | 300-375 | 333-450 | 375-585 | 420-485 | |||||
| Maximum motor power(KW) | 5600 | 3600 | 3300 | 2700 | 1250 | 800 | 560 | 250 | 75 |
| skid mounted | non-skid mounted | skid mounted/non -skid mounted | |||||||
| Digital Analog Computing | yes | ||||||||
| systolic algorithm | yes | ||||||||
| test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
| Factory inspection | According to the quality standard, carry out no-load mechanical operation test | ||||||||
| Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
| Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power | ||||||||
Basic information:Diaphragm compressor model parameters
| Piston force | 250 | 160 | 110 | 80 | 60 | 45 | 35 | 45 | 10 |
| Types of compressed gas | Hydrogen, nitrogen, oxygen, helium, xenon, hydrogen chloride, hydrogen sulfide, nitrogen trifluoride, silicon tetrafluoride, silane | ||||||||
| Discharge pressureMPa(G) | <=100 | ||||||||
| Compression levels | 1-3levels | ||||||||
| Layout form/Type/Model | M/D | D/L | D/L/Z | V/Z | L/Z | L/Z | |||
| Route(mm) | 210 | 210/1/0 | 180 | 180 | 150 | 130 | 130 | 105 | 70 |
| Rotating speed(rpm) | 260 | 360-420 | |||||||
| Maximum motor power(KW) | 355 | 250 | 200 | 160 | 110 | 55 | 30 | 22 | 18.5 |
| Skid mounted | skid mounted | ||||||||
| Digital Analog Computing | yes | ||||||||
| Systolic algorithm | According to demand | ||||||||
| Test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
| Factory inspection | Carry out nitrogen or air full-load mechanical operation test according to quality requirements | ||||||||
| Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
| Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power | ||||||||
Detailed Photos
After Sales Service
We have an independent service operation and maintenance team, providing customers with various support and services, including technical support, debugging services, spare parts supply, renovation and upgrading, and major maintenance. We always adhere to the principle of customer-centrism, ensuring the safe and stable operation of customer equipment. Our service team is committed to providing reliable support for customers’ operations 24/7.
Training plan
1)Company training
Before the unit is delivered, that is during the unit assembly period, users will be provided with a one-week on-site training by the company. Provide local accommodation and transportation facilities, and provide free venues, teaching materials, equipment, tools, etc. required for training. The company training content is as follows:
The working principle, structure and technical performance of the unit.
Unit assembly and adjustment, unit testing.
Operation of the unit, remote/local operation, manual/automatic operation, daily operation and management, familiar with the structure of each system of the unit.
Routine maintenance and upkeep of the unit, and precautions for operation and maintenance.
Analysis and troubleshooting of common faults, and emergency handling methods.
2) On-site training
During the installation and trial operation of the unit, on-site training will be conducted to teach the principles, structure, operation, maintenance, troubleshooting of common faults and other knowledge of the unit, so as to further become familiar with the various systems of the unit, so that the purchaser can independently and correctly operate the unit. Operation, maintenance and management.
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| After-sales Service: | 12 Month |
|---|---|
| Warranty: | 12 Month |
| Lubrication Style: | Lubricated |
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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 Gas Air Compressors Be Used in Construction Projects?
Gas air compressors are widely used in construction projects due to their portability, versatility, and ability to provide the necessary compressed air for various applications. They are an essential tool in the construction industry, enabling the efficient and effective operation of pneumatic tools and equipment. Here’s a detailed explanation of how gas air compressors are used in construction projects:
1. Powering Pneumatic Tools:
Gas air compressors are commonly used to power a wide range of pneumatic tools on construction sites. These tools include jackhammers, nail guns, impact wrenches, concrete breakers, air drills, sanders, grinders, and paint sprayers. The compressed air generated by the gas air compressor provides the necessary force and power for efficient operation of these tools, enabling tasks such as concrete demolition, fastening, surface preparation, and finishing.
2. Air Blow and Cleaning Operations:
In construction projects, there is often a need to clean debris, dust, and dirt from work areas, equipment, and surfaces. Gas air compressors are used to generate high-pressure air for air blow and cleaning operations. This helps maintain cleanliness, remove loose materials, and prepare surfaces for further work, such as painting or coating.
3. Operating Pneumatic Systems:
Gas air compressors are employed to operate various pneumatic systems in construction projects. These systems include pneumatic control devices, pneumatic cylinders, and pneumatic actuators. Compressed air from the gas air compressor is used to control the movement of equipment, such as gates, doors, and barriers, as well as to operate pneumatic lifts, hoists, and other lifting mechanisms.
4. Concrete Spraying and Shotcreting:
Gas air compressors are utilized in concrete spraying and shotcreting applications. Compressed air is used to propel the concrete mixture through a nozzle at high velocity, ensuring proper adhesion and distribution on surfaces. This technique is commonly employed in applications such as tunnel construction, slope stabilization, and repair of concrete structures.
5. Sandblasting and Surface Preparation:
In construction projects that require surface preparation, such as removing old paint, rust, or coatings, gas air compressors are often used in conjunction with sandblasting equipment. Compressed air powers the sandblasting process, propelling abrasive materials such as sand or grit onto the surface to achieve effective cleaning and preparation before applying new coatings or finishes.
6. Tire Inflation and Equipment Maintenance:
Gas air compressors are utilized for tire inflation and equipment maintenance on construction sites. They provide compressed air for inflating and maintaining proper tire pressure in construction vehicles and equipment. Additionally, gas air compressors are used for general equipment maintenance, such as cleaning, lubrication, and powering pneumatic tools for repair and maintenance tasks.
7. Portable and Remote Operations:
Gas air compressors are particularly beneficial in construction projects where electricity may not be readily available or feasible. Portable gas air compressors provide the flexibility to operate in remote locations, allowing construction crews to utilize pneumatic tools and equipment without relying on a fixed power source.
Gas air compressors are an integral part of construction projects, facilitating a wide range of tasks and enhancing productivity. Their ability to power pneumatic tools, operate pneumatic systems, and provide compressed air for various applications makes them essential equipment in the construction industry.
What Are the Key Components of a Gas Air Compressor Control Panel?
A gas air compressor control panel typically consists of several key components. Here’s a detailed explanation:
1. Power Switch:
The power switch allows the operator to turn the compressor on or off. It is usually a toggle switch or a push-button switch located on the control panel.
2. Pressure Gauges:
Pressure gauges display the compressed air pressure at different stages of the compression process. Commonly, there are two pressure gauges: one to measure the incoming air pressure (suction pressure) and another to measure the outgoing compressed air pressure (discharge pressure).
3. Control Knobs or Buttons:
Control knobs or buttons are used to adjust and set various parameters of the compressor operation. These controls may include pressure settings, on/off timers, automatic start/stop functions, and other operational parameters specific to the compressor model.
4. Emergency Stop Button:
An emergency stop button is a critical safety feature that immediately shuts down the compressor in case of an emergency. Pressing the emergency stop button cuts off power to the compressor and stops its operation.
5. Motor Start/Stop Buttons:
Motor start and stop buttons allow the operator to manually start or stop the compressor motor. These buttons are used when manual control of the motor is required, such as during maintenance or troubleshooting.
6. Control Indicators:
Control indicators include various lights or LEDs that provide visual feedback about the compressor’s status and operation. These indicators may include power indicators, motor running indicators, pressure indicators, and fault indicators to signal any malfunctions or abnormal conditions.
7. Control Panel Display:
Some gas air compressors feature a control panel display that provides real-time information and feedback on the compressor’s performance. The display may show parameters such as operating pressure, temperature, maintenance alerts, fault codes, and other relevant information.
8. Start/Stop Control Circuit:
The start/stop control circuit is responsible for initiating and controlling the motor start and stop sequences. It typically includes relays, contactors, and other electrical components that enable the control panel to safely start and stop the compressor motor.
9. Safety and Protection Devices:
Gas air compressor control panels may incorporate safety and protection devices to safeguard the compressor and prevent potential damage or hazardous situations. These devices can include overload relays, thermal protection, pressure relief valves, and other safety features.
10. Control Panel Enclosure:
The control panel enclosure houses and protects the electrical components and wiring of the control panel. It provides insulation, protection from dust and moisture, and ensures the safety of the operator.
In summary, a gas air compressor control panel typically includes a power switch, pressure gauges, control knobs or buttons, emergency stop button, motor start/stop buttons, control indicators, control panel display (if applicable), start/stop control circuit, safety and protection devices, and a control panel enclosure. These components work together to monitor and control the compressor’s operation, ensure safety, and provide essential information to the operator.
What Safety Precautions Should Be Taken When Operating Gas Air Compressors?
Operating gas air compressors safely is essential to prevent accidents, injuries, and equipment damage. It’s important to follow proper safety precautions to ensure a safe working environment. Here’s a detailed explanation of the safety precautions that should be taken when operating gas air compressors:
1. Read and Follow the Manufacturer’s Instructions:
Before operating a gas air compressor, carefully read and understand the manufacturer’s instructions, user manual, and safety guidelines. Follow the recommended procedures, maintenance schedules, and any specific instructions provided by the manufacturer.
2. Provide Adequate Ventilation:
Gas air compressors generate exhaust fumes and heat during operation. Ensure that the operating area is well-ventilated to prevent the accumulation of exhaust gases, which can be harmful or even fatal in high concentrations. If operating indoors, use ventilation systems or open windows and doors to allow fresh air circulation.
3. Wear Personal Protective Equipment (PPE):
Wear appropriate personal protective equipment (PPE) when operating a gas air compressor. This may include safety glasses, hearing protection, gloves, and sturdy footwear. PPE helps protect against potential hazards such as flying debris, noise exposure, and hand injuries.
4. Perform Regular Maintenance:
Maintain the gas air compressor according to the manufacturer’s recommendations. Regularly inspect the compressor for any signs of wear, damage, or leaks. Keep the compressor clean and free from debris. Replace worn-out parts and components as needed to ensure safe and efficient operation.
5. Preventive Measures for Fuel Handling:
If the gas air compressor is powered by fuels such as gasoline, diesel, or propane, take appropriate precautions for fuel handling:
- Store fuel in approved containers and in well-ventilated areas away from ignition sources.
- Refuel the compressor in a well-ventilated outdoor area, following proper refueling procedures and avoiding spills.
- Handle fuel with caution, ensuring that there are no fuel leaks or spills near the compressor.
- Never smoke or use open flames near the compressor or fuel storage areas.
6. Use Proper Electrical Connections:
If the gas air compressor requires electrical power, follow these electrical safety precautions:
- Ensure that the electrical connections and wiring are properly grounded and in compliance with local electrical codes.
- Avoid using extension cords unless recommended by the manufacturer.
- Inspect electrical cords and plugs for damage before use.
- Do not overload electrical circuits or use improper voltage sources.
7. Secure the Compressor:
Ensure that the gas air compressor is securely positioned and stable during operation. Use appropriate mounting or anchoring methods, especially for portable compressors. This helps prevent tipping, vibrations, and movement that could lead to accidents or injuries.
8. Familiarize Yourself with Emergency Procedures:
Be familiar with emergency procedures and know how to shut off the compressor quickly in case of an emergency or malfunction. Have fire extinguishers readily available and know how to use them effectively. Develop an emergency action plan and communicate it to all personnel working with or around the compressor.
It’s crucial to prioritize safety when operating gas air compressors. By following these safety precautions and using common sense, you can minimize the risks associated with compressor operation and create a safer work environment for yourself and others.
editor by CX 2024-02-26
China Standard Vehicle-Mounted Diesel Engine 40MPa Nitrogen Generator Injection System Membrane Nitrogen Production N2 Compressor air compressor CHINAMFG freight
Product Description
Company Profile
The company’s main products include desulfurization, dehydrocarbons, separation, compression, filling, storage and transportation equipment for natural gas extraction in oil and gas fields; complete sets of wellhead gas recovery equipment; complete sets of vented natural gas recovery equipment; complete sets of coalbed methane, shale gas and biogas development and utilization equipment Equipment; CNG filling station complete equipment; LNG complete equipment; BOG compressor; large-displacement screw-piston compound compressor; membrane nitrogen and adsorption nitrogen production complete equipment; in addition, hydrogen, oxygen, nitrogen, argon, carbon monoxide gas, carbon dioxide gas, coal gas, hydrogen sulfide gas, propylene gas, ethylene gas, methyl chloride gas, trifluoropropane gas, liquefied petroleum gas and other special gases, low-temperature gases and air compressors. Among them, the W and V series non-lubricated compressors produced by introducing advanced foreign technology have reached the international advanced level.
Product Description
Membrane nitrogen production
In order to meet the requirements of downhole nitrogen filling, underbalanced drilling technology, pipeline nitrogen replacement and other requirements. Our company has developed a screw low-pressure air compressor + membrane nitrogen production system + high-pressure nitrogen booster and compression system. It can provide users with high-pressure nitrogen with a flow rate of 600-2000Nm3/h and a pressure of 15-40MPa.
The nitrogen production system is designed to be skid-mounted and installed on 2 skids. The system is divided into 3 modules, screw low-pressure air compressor module, membrane nitrogen production system module, and high-pressure nitrogen booster compressor module. The screw low-pressure air compressor module and membrane nitrogen generation system module are installed on 1 skid, and the high-pressure nitrogen booster compressor system is on another skid. The system is air-cooled and driven by a diesel engine. The skid is equipped with a metal cover, which can be easily installed on the chassis of the car and is suitable for field operations.
Adsorption ammonia production
Our company produces various adsorption ammonia production equipment. Among them, adsorption ammonia production, special gas recovery, purification, and purification are our company’s unique technologies. They have the advantages of reasonable configuration, complete functions, high reliability, and easy operation.
Processing capacity: 50-600Nm3/h
Ammonia purity: 95-9939%
Ammonia final outlet pressure: 0.7-40MPa
Recovery, purification and purification of special gases
Medium: ammonia, argon, etc.
Processing capacity: 400-600Nm3/h
Purification purity: can be purified from 75% to 95-99.95%
Purified gas loss rate: ≤5%
After purification, the pressure will be increased to 25-40MPa according to user needs.
Parameters of nitrogen production system
| Nitrogen flow rate: | 600-2000NM3/H |
| Nitrogen purity: | ≥95% (Vol1%) (no oxygen N, Ar content, ) (95%-99.9% continuously adjustable) |
| Nitrogen pressure: | 40Mpa |
| Power: | Motors/ Diesel engine |
| Cooling | Air/water |
| Skid size: | 9500*2500*2400(mm) Adapted to high wind and sand working conditions in the wild, the whole body is skid-mounted on the vehicle. |
| Design altitude: | 2000M |
| Work time: | 24 hours continuously |
| Nitrogen generation time after startup: | 10min |
| Ambient temperature range: | -20ºC-+45ºC |
| Ambient humidity range: | ≤85% |
| Type | Nitrogen production Nm3/h | Exhaust pressure Mpa |
| KZD-600/40 | 600 | 40 |
| KZD-900/40 | 900 | 40 |
| KZD-1200/40 | 1200 | 40 |
| KZD-2000/25 | 2000 | 25 |
| KZD-2000/40 | 2000 | 40 |
Detailed Photos
After Sales Service
In addition to the high-quality performance of our products, we also attach great importance to providing customers with comprehensive services. We have an independent service operation and maintenance team, providing customers with various support and services, including technical support, debugging services, spare parts supply, renovation and upgrading, and major maintenance. We always adhere to the principle of customer-centrism, ensuring the safe and stable operation of customer equipment. Our service team is committed to providing reliable support for customers’ operations 24/7.
Training plan
Technical training is divided into 2 parts: company training and on-site training.
1)Company training
Before the unit is delivered, that is during the unit assembly period, users will be provided with a one-week on-site training by the company. Provide local accommodation and transportation facilities, and provide free venues, teaching materials, equipment, tools, etc. required for training. The company training content is as follows:
The working principle, structure and technical performance of the unit.
Unit assembly and adjustment, unit testing.
Operation of the unit, remote/local operation, manual/automatic operation, daily operation and management, familiar with the structure of each system of the unit.
Routine maintenance and upkeep of the unit, and precautions for operation and maintenance.
Analysis and troubleshooting of common faults, and emergency handling methods.
2) On-site training
During the installation and trial operation of the unit, on-site training will be conducted to teach the principles, structure, operation, maintenance, troubleshooting of common faults and other knowledge of the unit, so as to further become familiar with the various systems of the unit, so that the purchaser can independently and correctly operate the unit. Operation, maintenance and management.
Packaging & Shipping
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| After-sales Service: | 12 Month |
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| Warranty: | 12 Month |
| Lubrication Style: | Lubricated |
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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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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.
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Can Gas Air Compressors Be Used for Gas Line Maintenance?
Gas air compressors can be used for certain aspects of gas line maintenance, primarily for tasks that require compressed air. Here’s a detailed explanation:
1. Clearing Debris and Cleaning:
Gas air compressors can be utilized to clear debris and clean gas lines. Compressed air can be directed through the gas lines to dislodge and remove dirt, dust, rust particles, or other contaminants that may accumulate over time. This helps maintain the integrity and efficiency of the gas lines.
2. Pressure Testing:
Gas line maintenance often involves pressure testing to ensure the lines can withstand the required operating pressures. Gas air compressors can provide the necessary compressed air to pressurize the lines for testing purposes. By pressurizing the gas lines with compressed air, technicians can identify any leaks or weaknesses in the system.
3. Leak Detection:
Gas air compressors can also be used in conjunction with appropriate leak detection equipment to identify and locate gas leaks in the gas lines. Compressed air can be introduced into the lines, and the detection equipment can then identify any areas where the compressed air escapes, indicating a potential gas leak.
4. Valve and Equipment Maintenance:
Gas line maintenance may involve the inspection, maintenance, or replacement of valves and associated equipment. Compressed air can be used to clean and blow out debris from valves, purge lines, or assist in the disassembly and reassembly of components.
5. Pipe Drying:
Gas air compressors can aid in drying gas lines after maintenance or repairs. By blowing compressed air through the lines, any residual moisture can be removed, ensuring the gas lines are dry before being put back into service.
6. Precautions and Regulations:
When using gas air compressors for gas line maintenance, it is essential to follow safety precautions and adhere to relevant regulations. Gas line maintenance often involves working in hazardous environments, and proper training, equipment, and procedures must be followed to ensure the safety of personnel and the integrity of the gas system.
It is important to note that gas air compressors should not be used directly for pressurizing or transporting natural gas or other combustible gases. Gas line maintenance tasks involving gas air compressors primarily focus on using compressed air for specific maintenance and testing purposes, as outlined above.
In summary, gas air compressors can be useful for certain aspects of gas line maintenance, including clearing debris, pressure testing, leak detection, valve and equipment maintenance, and pipe drying. However, it is crucial to follow safety guidelines and regulations when working with gas lines and compressed air to ensure the safety and integrity of the gas system.
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Can Gas Air Compressors Be Used in Remote Locations?
Yes, gas air compressors are well-suited for use in remote locations where access to electricity may be limited or unavailable. Their portability and reliance on gas engines make them an ideal choice for providing a reliable source of compressed air in such environments. Here’s a detailed explanation of how gas air compressors can be used in remote locations:
1. Independence from Electrical Grid:
Gas air compressors do not require a direct connection to the electrical grid, unlike electric air compressors. This independence from the electrical grid allows gas air compressors to be used in remote locations, such as wilderness areas, remote job sites, or off-grid locations, where it may be impractical or cost-prohibitive to establish electrical infrastructure.
2. Mobility and Portability:
Gas air compressors are designed to be portable and easy to transport. They are often equipped with handles, wheels, or trailers, making them suitable for remote locations. The gas engine powering the compressor provides mobility, allowing the compressor to be moved to different areas within the remote location as needed.
3. Fuel Versatility:
Gas air compressors can be fueled by various types of combustible gases, including gasoline, diesel, natural gas, or propane. This fuel versatility ensures that gas air compressors can adapt to the available fuel sources in remote locations. For example, if gasoline or diesel is readily available, the gas air compressor can be fueled with these fuels. Similarly, if natural gas or propane is accessible, the compressor can be configured to run on these gases.
4. On-Site Power Generation:
In remote locations where electricity is limited, gas air compressors can serve as on-site power generators. They can power not only the compressor itself but also other equipment or tools that require electricity for operation. This versatility makes gas air compressors useful for a wide range of applications in remote locations, such as powering lights, tools, communication devices, or small appliances.
5. Off-Grid Operations:
Gas air compressors enable off-grid operations, allowing tasks and activities to be carried out in remote locations without relying on external power sources. This is particularly valuable in industries such as mining, oil and gas exploration, forestry, or construction, where operations may take place in remote and isolated areas. Gas air compressors provide the necessary compressed air for pneumatic tools, drilling equipment, and other machinery required for these operations.
6. Emergency Preparedness:
Gas air compressors are also beneficial for emergency preparedness in remote locations. In situations where natural disasters or emergencies disrupt the power supply, gas air compressors can provide a reliable source of compressed air for essential equipment and systems. They can power emergency lighting, communication devices, medical equipment, or backup generators, ensuring operational continuity in critical situations.
7. Adaptability to Challenging Environments:
Gas air compressors are designed to withstand various environmental conditions, including extreme temperatures, humidity, dust, and vibrations. This adaptability to challenging environments makes them suitable for use in remote locations, where environmental conditions may be harsh or unpredictable.
Overall, gas air compressors can be effectively used in remote locations due to their independence from the electrical grid, mobility, fuel versatility, on-site power generation capabilities, suitability for off-grid operations, emergency preparedness, and adaptability to challenging environments. These compressors provide a reliable source of compressed air, enabling a wide range of applications in remote settings.
editor by CX 2024-02-20
China Standard 22MPa No-Leakage Explosion-Proof Diaphragm Membrane Hydrogen H2 Gas Compressor for Filling Station small air compressor
Product Description
Company Profile
ZheZheJiang nshine Industrial Technology Co., Ltd., as a professional overseas sales team and sales service team, is committed to providing customers with piston compressor and diaphragm compressor solutions. The company adheres to the concept of one-stop service and provides customers with a complete set of air compressor equipment solutions.
Product Description
Our products mainly include 2 series: piston compressors and diaphragm compressors, covering more than 30 types of products. These products are widely used in fields such as hydrogen energy, semiconductors, chemicals, petrochemicals, and natural gas transportation. We have over 3000 industrial enterprise users, covering all aspects of the hydrogen energy industry chain, including hydrogen production, filling, and hydrogen refueling station compressors, and providing a complete set of gas compression equipment solutions. As an efficient, energy-saving, environmentally friendly, and reliable compressor type, diaphragm compressors have also achieved great success and have been widely used in various fields.
Product Description:
Piston compressors are a type of positive displacement compressor that are commonly used in the chemical industry for a variety of applications. These compressors work by using a piston and cylinder to compress gas or air, which creates pressure and allows it to be transported through pipelines or used in other processes.
Diaphragm compressor :according to the needs of the user, choose the right type of compressor to meet the needs of the user. The diaphragm of the metal diaphragm compressor completely separates the gas from the hydraulic oil system to ensure the purity of the gas and no pollution to the gas. At the same time, advanced manufacturing technology and accurate membrane cavity design technology are adopted to ensure the service life of the diaphragm compressor diaphragm. No pollution: the metal diaphragm group completely separates the process gas from the hydraulic oil and lubricating oil parts to ensure the gas purity.Our compressors can compress ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen chloride, hydrogen sulfide, hydrogen bromide, ethylene, acetylene, etc. (Nitrogen diaphragm compressor, bottle filling compressor, oxygen diaphragm compressor)and especially fit for all kinds of toxic radioactive corrosive compressor
In the chemical industry, piston compressors are used for a variety of functions, including:
Gas compression – Piston compressors are used to compress natural gas, hydrogen, and other gases used in chemical processes. product-list-1.html product-list-1.html
Pneumatic conveying – Piston compressors are used to transport materials in a powdered or granular form through pipelines.
Refrigeration – Piston compressors are used in refrigeration systems to compress refrigerant gases, which are then used to cool industrial processes and equipment.
Process air compression – Piston compressors are used to compress air for use in chemical processes, such as in pneumatic equipment and air-powered tools.
Piston compressors are popular in the chemical industry because they are reliable, efficient, and can handle specific types of gases and air with ease. Additionally, they require minimal maintenance and can operate at high pressures, making them suitable for many applications
When choosing a piston compressor for use in the chemical industry, it is important to consider factors such as:
Type of gas or air being compressed – Different types of gases and air require different types of compression.
Required flow rate and pressure – The capacity and pressure capabilities of the compressor must meet the requirements of the application.
Environmental conditions – Factors such as temperature, humidity, and altitude can affect the performance of the compressor.
Maintenance requirements – The frequency and complexity of maintenance and servicing should be considered when selecting a compressor.
Overall, piston compressors are an important tool in the chemical industry, providing reliable and efficient compression for a variety of applications. Choosing the right compressor for the specific application is critical to ensuring optimal performance and efficiency.
Piston compressor model:
1. Single-stage piston compressor
Single-stage piston compressor is the simplest compressor, mainly composed of cylinder, piston, crankshaft, connecting rod, valve and other components. It has the advantages of simple structure, easy maintenance and low price, so it is widely used in low-pressure air compression, nitrogen and oxygen production and other occasions. Parameters such as air output volume, air outlet pressure, and rotational speed need to be considered when selecting models.
Common models include: W-1.8/5, W-3.6/5, W-4/5, W-6/5, etc.
2. Two-stage piston compressor
A two-stage piston compressor consists of 2 compressors. The first-stage compressor compresses the gas to a higher intermediate pressure, and then is cooled by the cooler and sent to the second-stage compressor to compress it again to the final pressure. Compared with single-stage piston compressors, two-stage piston compressors have higher outlet pressure, higher efficiency, and wider application range.
Common models include: W-1/3-2/3, W-2.5/5-2.5/5, W-3/6-3.6/6, etc.
3. High-pressure piston compressor
High-pressure piston compressors are mainly used to compress high-pressure gases, such as natural gas, hydrogen, helium, etc. It has a complex structure and needs to be equipped with auxiliary equipment such as gas coolers, gas inlet filters, pressure controllers, etc. It also has the advantages of high outlet pressure, low energy consumption, and smooth operation.
Common models include: W-3/20, W-6/30, W-9/30, etc.
Introduction to the meaning of the model number of diaphragm compressor:
For example: 1G3V-300/4-15 AND GV3-310/22-62
1G3V-300/4-15 each represents as follows:
“1” means double first-class product;
“G” indicates diaphragm compressor;
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V” means V-shaped structure.
“3V” means there are main and auxiliary connecting rods, and the crankcase is split.
“300” indicates the amount of gas the compressor handles per hour under standard conditions;
“4” means the inlet pressure is 4kg/cm2 (ie 0.4MPa);
“15” means the exhaust pressure is 15kg/cm2 (ie 1.5MPa).
GV3-310/22-62 each represents as follows:
“G” indicates diaphragm compressor;
“V” means V-shaped structure.
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V3” is another series, indicating a side-by-side structure of connecting rods and a one-piece crankcase.
Basic information:Piston compressor model parameters:
| Piston compressor model parameters | |||||||||
| Piston force | 800 | 500 | 320 | 250 | 160 | 100 | 65 | 45 | 30 |
| Types of compressed gas | Hydrogen, nitrogen, natural gas, ethylene, propylene, coal gas, hydrogen chloride, hydrogen fluoride, carbon dioxide, methyl chloride, carbon monoxide, acetylene ammonia, hydrogen monochloride, difluoromethane, tetrafluoroethylene, pentafluoroethylene, hexafluoroethylene, etc. | ||||||||
| discharge pressureMPa(G) | <=25 | <=30 | |||||||
| Compression levels | 1-4levels | 2-6levels | 1-3levels | ||||||
| Number of columns | 2–4 | 2–6 | 1–4 | ||||||
| Layout form/Type/Model | M/D | M/D | M/D | M/D | M/D | M/D/P | M/D/P | M/D/P | L/P |
| route(mm) | 280-360 | 240-320 | 180-240 | 200 | |||||
| Rotating speed(rpm) | 300-375 | 333-450 | 375-585 | 420-485 | |||||
| Maximum motor power(KW) | 5600 | 3600 | 3300 | 2700 | 1250 | 800 | 560 | 250 | 75 |
| skid mounted | non-skid mounted | skid mounted/non -skid mounted | |||||||
| Digital Analog Computing | yes | ||||||||
| systolic algorithm | yes | ||||||||
| test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
| Factory inspection | According to the quality standard, carry out no-load mechanical operation test | ||||||||
| Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
| Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power | ||||||||
Basic information:Diaphragm compressor model parameters
| Piston force | 250 | 160 | 110 | 80 | 60 | 45 | 35 | 45 | 10 |
| Types of compressed gas | Hydrogen, nitrogen, oxygen, helium, xenon, hydrogen chloride, hydrogen sulfide, nitrogen trifluoride, silicon tetrafluoride, silane | ||||||||
| Discharge pressureMPa(G) | <=100 | ||||||||
| Compression levels | 1-3levels | ||||||||
| Layout form/Type/Model | M/D | D/L | D/L/Z | V/Z | L/Z | L/Z | |||
| Route(mm) | 210 | 210/1/0 | 180 | 180 | 150 | 130 | 130 | 105 | 70 |
| Rotating speed(rpm) | 260 | 360-420 | |||||||
| Maximum motor power(KW) | 355 | 250 | 200 | 160 | 110 | 55 | 30 | 22 | 18.5 |
| Skid mounted | skid mounted | ||||||||
| Digital Analog Computing | yes | ||||||||
| Systolic algorithm | According to demand | ||||||||
| Test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
| Factory inspection | Carry out nitrogen or air full-load mechanical operation test according to quality requirements | ||||||||
| Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
| Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power | ||||||||
Detailed Photos
After Sales Service
We have an independent service operation and maintenance team, providing customers with various support and services, including technical support, debugging services, spare parts supply, renovation and upgrading, and major maintenance. We always adhere to the principle of customer-centrism, ensuring the safe and stable operation of customer equipment. Our service team is committed to providing reliable support for customers’ operations 24/7.
Training plan
1)Company training
Before the unit is delivered, that is during the unit assembly period, users will be provided with a one-week on-site training by the company. Provide local accommodation and transportation facilities, and provide free venues, teaching materials, equipment, tools, etc. required for training. The company training content is as follows:
The working principle, structure and technical performance of the unit.
Unit assembly and adjustment, unit testing.
Operation of the unit, remote/local operation, manual/automatic operation, daily operation and management, familiar with the structure of each system of the unit.
Routine maintenance and upkeep of the unit, and precautions for operation and maintenance.
Analysis and troubleshooting of common faults, and emergency handling methods.
2) On-site training
During the installation and trial operation of the unit, on-site training will be conducted to teach the principles, structure, operation, maintenance, troubleshooting of common faults and other knowledge of the unit, so as to further become familiar with the various systems of the unit, so that the purchaser can independently and correctly operate the unit. Operation, maintenance and management.
| After-sales Service: | 12 Month |
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| Warranty: | 12 Month |
| Lubrication Style: | Lubricated |
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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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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.
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How Do You Transport Gas Air Compressors to Different Job Sites?
Transporting gas air compressors to different job sites requires careful planning and consideration of various factors. Here’s a detailed explanation:
1. Equipment Size and Weight:
The size and weight of the gas air compressor are crucial factors to consider when planning transportation. Gas air compressors come in different sizes and configurations, ranging from portable units to larger, skid-mounted or trailer-mounted compressors. Assess the dimensions and weight of the compressor to determine the appropriate transportation method.
2. Transportation Modes:
Gas air compressors can be transported using different modes of transportation, depending on their size, weight, and distance to the job site:
- Truck or Trailer: Smaller gas air compressors can be loaded onto a truck bed or trailer for transportation. Ensure that the vehicle or trailer has the necessary capacity to accommodate the weight and dimensions of the compressor.
- Flatbed or Lowboy Trailer: Larger gas compressors or skid-mounted units may require transportation on a flatbed or lowboy trailer. These trailers are designed to carry heavy equipment and provide stability during transportation.
- Shipping Container: For long-distance transportation or international shipments, gas air compressors can be transported in shipping containers. The compressor must be properly secured and protected within the container to prevent any damage during transit.
3. Securing and Protection:
It is essential to secure the gas air compressor properly during transportation to prevent shifting or damage. Use appropriate tie-down straps, chains, or fasteners to secure the compressor to the transport vehicle or trailer. Protect the compressor from potential impacts, vibrations, and weather conditions by using suitable covers, padding, or weatherproof enclosures.
4. Permits and Regulations:
Depending on the size and weight of the gas air compressor, special permits or escorts may be required for transportation. Familiarize yourself with local, state, and federal regulations regarding oversize or overweight loads, and obtain the necessary permits to ensure compliance with transportation laws.
5. Route Planning:
Plan the transportation route carefully, considering factors such as road conditions, height and weight restrictions, bridges, tunnels, and any other potential obstacles. Identify alternative routes if needed, and communicate with transportation authorities or agencies to ensure a smooth and safe journey.
6. Equipment Inspection and Maintenance:
Prior to transportation, conduct a thorough inspection of the gas air compressor to ensure it is in proper working condition. Check for any leaks, damage, or loose components. Perform routine maintenance tasks, such as oil changes, filter replacements, and belt inspections, to minimize the risk of equipment failure during transportation.
In summary, transporting gas air compressors to different job sites requires considering factors such as equipment size and weight, choosing appropriate transportation modes, securing and protecting the compressor, obtaining necessary permits, planning the route, and conducting equipment inspection and maintenance. Careful planning and adherence to transportation regulations contribute to the safe and efficient transportation of gas air compressors.
What Fuels Are Commonly Used in Gas Air Compressors?
Gas air compressors can be powered by various fuels depending on the specific model and design. The choice of fuel depends on factors such as availability, cost, convenience, and environmental considerations. Here’s a detailed explanation of the fuels commonly used in gas air compressors:
1. Gasoline:
Gasoline is a widely used fuel in gas air compressors, particularly in portable models. Gasoline-powered compressors are popular due to the widespread availability of gasoline and the convenience of refueling. Gasoline engines are generally easy to start, and gasoline is relatively affordable in many regions. However, gasoline-powered compressors may emit more exhaust emissions compared to some other fuel options.
2. Diesel:
Diesel fuel is another common choice for gas air compressors, especially in larger industrial models. Diesel engines are known for their efficiency and durability, making them suitable for heavy-duty applications. Diesel fuel is often more cost-effective than gasoline, and diesel-powered compressors typically offer better fuel efficiency and longer runtime. Diesel compressors are commonly used in construction sites, mining operations, and other industrial settings.
3. Natural Gas:
Natural gas is a clean-burning fuel option for gas air compressors. It is a popular choice in areas where natural gas infrastructure is readily available. Natural gas compressors are often used in natural gas processing plants, pipeline operations, and other applications where natural gas is abundant. Natural gas-powered compressors offer lower emissions compared to gasoline or diesel, making them environmentally friendly.
4. Propane:
Propane, also known as liquefied petroleum gas (LPG), is commonly used as a fuel in gas air compressors. Propane-powered compressors are popular in construction, agriculture, and other industries where propane is used for various applications. Propane is stored in portable tanks, making it convenient for use in portable compressors. Propane-powered compressors are known for their clean combustion, low emissions, and easy availability.
5. Biogas:
In specific applications, gas air compressors can be fueled by biogas, which is produced from the decomposition of organic matter such as agricultural waste, food waste, or wastewater. Biogas compressors are used in biogas production facilities, landfills, and other settings where biogas is generated and utilized as a renewable energy source. The use of biogas as a fuel in compressors contributes to sustainability and reduces dependence on fossil fuels.
It’s important to note that the availability and suitability of these fuel options may vary depending on the region, infrastructure, and specific application requirements. When selecting a gas air compressor, it’s crucial to consider the compatibility of the compressor with the available fuel sources and to follow the manufacturer’s guidelines regarding fuel selection, storage, and safety precautions.
editor by CX 2023-11-29