Product Description
Screw type air compressor structure of a unique design, a compact, stylish appearance, high efficiency, small energy consumption, low noise characteristics and long life, is a smart environment-friendly products. Widely applied in metallurgy, machinery, chemicals, and mining, and electric power industries of the ideal gas source equipment.
Advantage:
1.The third generation of advanced rotor and concise intake control system
2.Efficient centrifugal separator oil and gas, gas oil content is small,tube and core of long life .
3. Efficient, low noise suction fan of the full use of export dynamic pressure
increased effect of heat transfer (air-cooled)
4. Automatic water-cooling system for large air compressor to provide more efficient
5.Fault diagnosis system, the control panel is easy to operate
6. Removable door, equipment maintenance, service convenient
7.Micro-electronic processing so that temperature, pressure and other parameters are closely monitored .
Technical Parameters:
| Model | Discharge Pressure | Discharge Air Volume | Motor Power | Dimension(mm) | Discharge Pipc.Dia | Unit Weight |
| SEF350Z | 0.8MPa | 10.0m³/min | 55KW | 1900X1270X1570 | 1X2″ | 1560KG |
| 1.0MPa | 9.0m³/min | |||||
| 1.3MPa | 7.8m³/min | |||||
| SEF460Z | 0.8MPa | 13m³/min | 75KW | 1900X1270X1570 | 1X2″ | 1731KG |
| 1.0MPa | 11.8m³/min | |||||
| 1.3MPa | 9.6m³/min | |||||
| SEF565Z | 0.8MPa | 16.0m³/min | 90KW | 2620X1670X1800 | 1X2″ | 2260KG |
| 1.0MPa | 14.2m³/min | |||||
| 1.3MPa | 12.2m³/min | |||||
| SEF710Z | 0.8MPa | 20.5m³/min | 110KW | 2620X1670X1800 | 1X2″ | 2770KG |
| 1.0MPa | 17.8m³/min | |||||
| 1.3MPa | 15.5m³/min | |||||
| SEF780Z | 0.8MPa | 23.5m³/min | 132KW | 2620x1670x1800 | 1×2″ | 2926KG |
| 1.0MPa | 20.5m³/min | |||||
| 1.3MPa | 17.0m³/min | |||||
| SEF1060Z | 0.8MPa | 30.0m³/min | 160KW | 3070X2140X2130 | DN80 | 4100KG |
| 1.0MPa | 26.0m³/min | |||||
| 1.3MPa | 22.0m³/min | |||||
| SEF1165Z | 0.8MPa | 32.0m³/min | 185KW | 3070X2140X2130 | DN80 | 4400KG |
| 1.0MPa | 28.5m³/min | |||||
| 1.3MPa | 25.0m³/min | |||||
| SEF1270Z | 0.8MPa | 35.0m³/min | 200KW | 3420X2220X2130 | DN100 | 5200KG |
| 1.0MPa | 31.0m³/min | |||||
| 1.3MPa | 27.0m³/min | |||||
| SEF1420Z | 0.8MPa | 41.0m³/min | 250KW | 3420x2220X2130 | DN100 | 5300KG |
| 1.0MPa | 39.0m³/min | |||||
| 1.3MPa | 35.0m³/min | |||||
| SEF1765Z | 0.8MPa | 50m³/min | 280KW | 4200X2380X2550 | DN125 | 5600KG |
| 1.0MPa | 42m³/min | |||||
| SEF1980Z | 0.8MPa | 56m³/min | 315KW | 4200X2380X2550 | DN125 | 7980KG |
| 1.0MPa | 50m³/min | |||||
| 1.3MPa | 43m³/min | |||||
| SEF2190ZW | 0.8MPa | 63m³/min | 355KW | 3690X2350X2150 | DN125 | 7350KG |
| 1.0MPa | 55m³/min | |||||
| 1.3MPa | 47m³/min | |||||
| SEF2580ZW | 0.8MPa | 73m³/min | 400KW | 4070X2300X2250 | DN150 | 8100KG |
| 1.0MPa | 63m³/min | |||||
| 1.3MPa | 53m³/min | |||||
| SEF2860ZW | 0.8MPa | 81m³/min | 450KW | 4070X2300X2250 | DN150 | 8500KG |
| 1.0MPa | 71m³/min | |||||
| 1.3MPa | 60m³/min | |||||
| SEF3145ZW | 0.8MPa | 89m³/min | 500KW | 4300X2350X2150 | DN150 | 9000KG |
| 1.0MPa | 79m³/min | |||||
| 1.3MPa | 67m³/min | |||||
| SEF3530ZW | 0.8MPa | 100m³/min | 560KW | 5000X2350X2150 | DN200 | 10000KG |
| SEF3885ZW | 0.8MPa | 110m³/min | 630KW | 5000X2350X2150 | DN200 | 11000KG |
PRODUCT HIGHLIGHTS
1.The brand power,reliable quality, stable performance.
The harsh thermal equilibrium serviceability can guarantee that the machine work effectively under high temperature environment (≤40ºC);
2.Unique patent design, light load startup system;
3.Efficient cooling system, divided into 3 parts: water- cooled ,mid- cold, oil cold, which ensure the reliable operation of diesel engine, and it’s suitable for high temperature working environment;
4.Independent research and development of the opposite door design, rational layout, which is easy to do regular maintenace ,with advantages of the fixed and portable compressor;
5.A single point lifting, forklift hole device, equipped with drag ring.It is suitable for repair car transport, easy to transfer and installation of the unit;
6.Waterproof and dustproof design, which is suitable for outdoor hard working environment;
7.According to customer requirements, the heating boiler and remote components is available for cold starting;
Product Applications:
Our Exhibition
Our service
1.Pre-sale service:
Act as a good adviser and assistant of clients enable them to get rich and generous returns on their investments .
1.Select equipment model.
2.Design and manufacture products according to client’s special requirement ;
3.Train technical personnel for clients .
2.Services during the sale:
1.Pre-check and accept products ahead of delivery .
2. Help clients to draft solving plans .
3.After-sale services:
Provide considerate services to minimize clients’ worries.
1.Complete After-sales service,professional engineers available to service machinery at home or oversea.
2. 24 hours technical support by e-mail.
3.Other essential technological service.
Contact details:
name: CHINAMFG zhang
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| After-sales Service: | Online support |
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| Warranty: | 12 Months |
| Lubrication Style: | Oil-free |
| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What Is the Fuel Efficiency of Gas Air Compressors?
The fuel efficiency of gas air compressors can vary depending on several factors, including the compressor’s design, engine size, load capacity, and usage patterns. Gas air compressors typically use internal combustion engines powered by gasoline or propane to generate the mechanical energy required for compressing air. Here’s a detailed explanation of the factors that can influence the fuel efficiency of gas air compressors:
1. Engine Design and Size:
The design and size of the engine in a gas air compressor can impact its fuel efficiency. Engines with advanced technologies such as fuel injection and electronic controls tend to offer better fuel efficiency compared to older carbureted engines. Additionally, larger engines may consume more fuel to produce the required power, resulting in lower fuel efficiency compared to smaller engines for the same workload.
2. Load Capacity and Usage Patterns:
The load capacity and usage patterns of the gas air compressor play a significant role in fuel efficiency. Compressors operating at or near their maximum load capacity for extended periods may consume more fuel compared to compressors operating at lower loads. Additionally, compressors used intermittently or for lighter tasks may have better fuel efficiency due to reduced demand on the engine.
3. Maintenance and Tuning:
Proper maintenance and tuning of the gas air compressor’s engine can improve fuel efficiency. Regular maintenance tasks such as oil changes, air filter cleaning/replacement, spark plug inspection, and tuning the engine to the manufacturer’s specifications can help ensure optimal engine performance and fuel efficiency.
4. Operating Conditions:
The operating conditions, including ambient temperature, altitude, and humidity, can affect the fuel efficiency of gas air compressors. Extreme temperatures or high altitudes may require the engine to work harder, resulting in increased fuel consumption. Additionally, operating in humid conditions can affect the combustion process and potentially impact fuel efficiency.
5. Fuel Type:
The type of fuel used in the gas air compressor can influence its fuel efficiency. Gasoline and propane are common fuel choices for gas air compressors. The energy content and combustion characteristics of each fuel can affect the amount of fuel consumed per unit of work done. It is important to consider the specific fuel requirements and recommendations of the compressor manufacturer for optimal fuel efficiency.
6. Operator Skills and Practices:
The skills and practices of the operator can also impact fuel efficiency. Proper operation techniques, such as avoiding excessive idling, maintaining consistent engine speeds, and minimizing unnecessary load cycles, can contribute to improved fuel efficiency.
It is important to note that specific fuel efficiency ratings for gas air compressors can vary widely depending on the aforementioned factors. Manufacturers may provide estimated fuel consumption rates or fuel efficiency data for their specific compressor models, which can serve as a reference point when comparing different models or making purchasing decisions.
Ultimately, to maximize fuel efficiency, it is recommended to select a gas air compressor that suits the intended application, perform regular maintenance, follow the manufacturer’s guidelines, and operate the compressor efficiently based on the workload and conditions.
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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.
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How Does a Gas Air Compressor Work?
A gas air compressor works by utilizing a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air can then be used for various applications. Here’s a detailed explanation of how a gas air compressor operates:
1. Gas Engine:
A gas air compressor is equipped with a gas engine as its power source. The gas engine is typically fueled by gasoline, diesel, natural gas, or propane. When the engine is started, the fuel is combusted within the engine’s cylinders, generating mechanical energy in the form of rotational motion.
2. Compressor Pump:
The gas engine drives the compressor pump through a mechanical linkage, such as a belt or direct coupling. The compressor pump is responsible for drawing in atmospheric air and compressing it to a higher pressure. There are different types of compressor pumps used in gas air compressors, including reciprocating, rotary screw, or centrifugal, each with its own operating principles.
3. Intake Stroke:
In a reciprocating compressor pump, the intake stroke begins when the piston moves downward within the cylinder. This creates a vacuum, causing the inlet valve to open and atmospheric air to be drawn into the cylinder. In rotary screw or centrifugal compressors, air is continuously drawn in through the intake port as the compressor operates.
4. Compression Stroke:
During the compression stroke in a reciprocating compressor, the piston moves upward, reducing the volume within the cylinder. This compression action causes the air to be compressed and its pressure to increase. In rotary screw compressors, two interlocking screws rotate, trapping and compressing the air between them. In centrifugal compressors, air is accelerated and compressed by high-speed rotating impellers.
5. Discharge Stroke:
Once the air is compressed, the discharge stroke begins in reciprocating compressors. The piston moves upward, further reducing the volume and forcing the compressed air out of the cylinder through the discharge valve. In rotary screw compressors, the compressed air is discharged through an outlet port as the interlocking screws continue to rotate. In centrifugal compressors, the high-pressure air is discharged from the impeller into the surrounding volute casing.
6. Pressure Regulation:
Gas air compressors often include pressure regulation mechanisms to control the output pressure of the compressed air. This can be achieved through pressure switches, regulators, or control systems that adjust the compressor’s operation based on the desired pressure setting. These mechanisms help maintain a consistent and controlled supply of compressed air for the specific application requirements.
7. Storage and Application:
The compressed air produced by the gas air compressor is typically stored in a receiver tank or used directly for applications. The receiver tank helps stabilize the pressure and provides a reservoir of compressed air for immediate use. From the receiver tank, the compressed air can be distributed through pipelines to pneumatic tools, machinery, or other devices that require the compressed air for operation.
Overall, a gas air compressor operates by using a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air is then regulated and used for various applications, providing a reliable source of power for pneumatic tools, machinery, and other equipment.
editor by CX 2024-02-12