Product Description
Product Description
High Pressure Natural Gas Booster Compressor Oil-free Oxygen Booster Compressor
A nitrogen compressor is a compressor used to pressurize nitrogen and transport or store nitrogen.
Nitrogen compressors have many applications in the national economy.
1. Increase the pressure of laser cutting nitrogen
Nitrogen plays the role of protective gas in laser cutting, and medium-pressure nitrogen is mainly used for blowing oxygen to prevent metal cutting and surrounding high-temperature oxidation during cutting, and improve the cleanliness and aesthetics of the cutting surface.
2. Nitrogen storage
Usually, the outlet pressure of the PSA nitrogen generator is ≤10barg. It will be more economical if the nitrogen generator has a larger displacement, or if it is charged with CHINAMFG and valley electricity at night. It needs to store nitrogen for later use. The high-pressure nitrogen compressor for bottle filling adopts air-cooling or water-cooling cooling mode, and has single-acting and double-acting structures.
The oil-free nitrogen compressor has excellent performance, stable operation, high efficiency and energy saving, and long service life. It is widely used in nitrogen laser cutting, nitrogen cHangZhou, chemical industry and other industries.
The structural advantages of oil-free nitrogen compressors are reflected in:
1. Oil-free lubrication, avoiding the possibility of oil contacting high-pressure and high-purity nitrogen;
2. The machine structure of the whole system is simple, easy to control and easy to operate;
3. The gas medium of the compressor is nitrogen, no pollution, and the purity of nitrogen at the inlet and outlet of the compressor is the same.
Piston oxygen compressor
A safety oxygen compressor for pressurizing oxygen and delivering or storing it.
One of these industries is used for rough oxygen cutting, where 93% pure oxygen is pumped into oxygen cylinders and acetylene gas is used to cut scrap metal.
Cylinder filling oxygen compressors serve 2 purposes. One is that the hospital’s PSA oxygen generator needs to be pressurized to supply various wards and operating rooms, providing a line pressure of 7-10 kg, and the other is the need to store PSA oxygen. High-pressure containers are convenient for mobile use, and the storage pressure is usually 100barg, 150barg, 200barg or higher 300barg pressure.
This cylinder filled oxygen compressor is suitable for inlet pressure 3-4barg (40-60psig) and discharge pressure 150barg (2150psig)
Small PSA oxygen generating system with a displacement of 4-12NM3/hour, providing clean oxygen filling services for communities and small island hospitals. It can run continuously for 24 hours. It is recommended to fill up to 10 bottles at a time.
Technical parameter
| Flow rate | Inlet pressure | Outlet pressure | Motor power | Crankcase | Inlet size | Outlet size | Dimension | Weight | Inlet/Outlet temperature |
| mm | kg | ºC | |||||||
| 1-3 m3/h | 3-4 bar | 150 bar | 1.5-3 kw | Aluminum alloy | M14*1.5 | M14*1.5 | 850*640*680 | 140 | 45 |
| 200 bar | |||||||||
| 4-12 m3/h | 3-4 bar | 150 bar | 3-5.5 kw | Small two-row four-level | DN15 | M16*1.5 | 1000*800*1100 | 320 | 45 |
| 200 bar | |||||||||
| 13-60 m3/h | 3-4 bar | 150 bar | 11-18.5 kw | Medium two-row four-level | DN25 | M16*1.5 | 1650*950*1470 | 960 | 45 |
| 200 bar | |||||||||
| 60-70 m3/h | 3-4 bar | 150 bar | 22 kw | 6H | DN40 | M22*1.5 | 1950*1350*1400 | 1300 | 45 |
| 80-150 m3/h | 3-4 bar | 150 bar | 30-45 kw | Big two-row four-level | DN50 | M22*1.5 | 2100*1100*1600 | 2000 | 45 |
| 200 bar | |||||||||
| 10-15 m3/h | 3-4 bar | 150 bar | 5.5-7.5 kw | New four-row four-level | DN15 | M16*1.5 | 1050*750*1571 | 450 | 45 |
| 200 bar |
The basi c parameters li sted i n this table can be confi r’med accordi ngtothe actual worki ng condi ti ons.
The parameters of the pressurized 20MPa filling machine are compared with those of the same 15MPa flow model.
The strength and precision of all host parts are increased, and the precision of electrical parts (unloading solenoid valve) and cut- off valve (20MPa high pressure) is greatly improved than that of 15MPa filling machine.
Application industry
Industrial applications for oxygen compressors include booster use of low pressure oxygen for VSA applications in steel mills, paper mills and water treatment plants.
Successful cases
Customer Visit
Packaging & Shipping
• Packing Details: Plywood crate pallet plus foam board and bubble film, Full closed wooden case. 1pcs/each package (for stationary screw air compressor)
• Shipping method: by sea, by LCL/FCL or as requested
• Delivery method: FOB, CFR, CIF and EXW etc.
• Delivery time: in 7-15 days after receiving deposit (customized machines not included)
Company Profile
ZheJiang CHINAMFG Machinery Co., Ltd. is a company dedicated to the production and research and development of various gas compression equipment. The company was established in 2012 and has a total of 5 licensed technical engineers. Mainly engaged in air, nitrogen, CO2 and other special gas compression equipment and after-treat equipment. With the development in recent years, the company has established a foreign trade team in ZheJiang , and hired foreign trade consultants with 10 years of industry experience to better serve customers worldwide. With excellent quality and the support of 30 distributors worldwide, our annual sales in 2018 exceeded 5 million US dollars. We look CHINAMFG to working with you to create a better tomorrow!
After Sales Service
1. 24/7 after sales service support in different languages.
2. Customized color, Model ect.
3. Guidance of installation and commissioning on site can be provided by factory-trained technicians or local Authorized Service Center.
4. Delivery on time and excellent after-sales service.
5. Plenty of original spare parts with proven quality.
6. All kinds of technical documents in different languages.
Payment and delivery
FAQ
Q1. Are you trading company or manufacture ?
A: We are professional manufacture of screw air compressor of HangZhou,ZheJiang ,China. More than 18 years of experience in air compressor manufacturing.
Q2. How long is the delivery time ?
A: For standard voltage ,15 working days. Non-standard ,please contact our sales.
Q3. What’s payment term ?
A: T/T, L/C, D/P, Western Union, Paypal, Credit Card, and etc. Also we could accept USD, RMB, Euro and other currency.
Q4. How about your after-sales service ?
A: 1.Provide customers with installation and commissioning online instructions.
2. Well-trained engineers available to overseas service.
3.CHINAMFG agents and after service avaiable.arrange our engineers to help you training and installation.
Q5. How about your warranty?
A: One year for the whole machine and 2 years for screw air end, except consumable spare parts.
Q6. Do you have any certificate ?
A: Yes, per different customer’s market need ,we can offer CE ,ISO etc certificate.
Q7. What about the maintenance ?
A: First maintenance need to be done after 500Hours, and then every 2000-3000 hours to do the normal maintenance, and consider the actual environment.
Q8. How do you control quality ?
A: 1. The raw materials are strictly inspected
2. Some key parts are imported from overseas
3. Each compressor must pass at least 5 hours of continuous testing before leaving the factory.
Q9. Do you offer OEM service ?
A: Yes.Both OEM & ODM service can be accepted.
Q10.How long could your air compressor be used?
A: Generally, more than 10 years.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Online Support |
|---|---|
| Warranty: | 24 Months |
| Lubrication Style: | Oil-free |
| Samples: |
US$ 15180/set
1 set(Min.Order) | Order Sample |
|---|
| Customization: |
Available
|
|
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
|
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
.webp)
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.
.webp)
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.
.webp)
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 2024-05-16
China Best Sales Oxygen Gas Cylinder Filling 12nm3 Oil-Free Piston Compressor air compressor lowes
Product Description
Product Description
Oil-inject Piston Air Compressor with air tank
Portable industrial silent oil injection piston air compressor
Technical parameters for W-0.67/8 Industry Piston Compressor
| No. | Item | Specification | |
| 1 | Compressor Model | W-1.0/10 | |
| 2 | Compress medium | air gas | |
| 3 | Structure | W Type, Air Cooling, Lubrication type Piston Air Compressor | |
| 4 | Compress stage number | three stage | |
| 5 | volume capacity (F.A.D) | 1.0 m3/min | |
| 6 | Working pressure | 10bar | |
| 7 | Ambient temperature | ≤-10~+40ºC | |
| 8 | Discharge temperature | ≤ambient temp + 15ºC | |
| 9 | Compressor speed(r/min) | 740rpm | |
| 10 | Motor Power | 15KW ,Three phase asynchronous motor | |
| 11 | Cooling method | Air Cooling | |
| 12 | Lubricate method | oil-injection lubrication | |
| 13 | Driven Method | Belt driven with belt guard | |
| 14 | Noise | 85dB (A) | |
| 15 | Dimension | about 1220×580×980mm (L*W*H) | |
| 16 | Weight | about 280KG | |
>>>Features of air compressor
1) Well-designed specifically for small and medium-sized users;
2) The operation is simple, convenient, and less prone to failure;
3) Designed for filling the air available for breathing;
4) Guarantee inflatable gas pure health, no the oil tasteless displacement, high-pressure air filling quickly;
5) Practices can be achieved without power, and to facilitate the fieldwork;
6) Small size, lightweight, easy to move quickly;
7) Cost-effective, economical and practical.
>>Application of air compressor
1) Filling station can be used for fire brigade divers base inflatable station,
2) mine, oil field chemicals, ship, climbing, water sports center industry for human rescue,
3) fire fighting, rescue, underwater operations breathing gas filling is ideal in rescue equipment.
Product Parameters
>>>Specifications of Piston Air Compressor
Air Compressor Pump
1. Air capacity: 6.5- 40.7c.f.m/min
2. working pressure: 8bar / 10bar / 12.5bar
3. Power:1.1-7.5kw
| Model | Generator | Cylinder | F.A.D | Working | Tank volume | |
|---|---|---|---|---|---|---|
| Air delivery | pressure | |||||
| KW | HP | Bore and cylinder no.(mm) | M3/min | Mpa | L | |
| V-0.2/12.5 | 2.2 | 3 | 65×1/51×1 | 0.2 | 12.5 | 65 |
| W-0.6/12.5 | 4 | 5.5 | 80×2/65×1 | 0.6 | 12.5 | 80 |
| V-0.42/12.5 | 4 | 5.5 | 105×1/55×1 | 0.42 | 12.5 | 80 |
| V-0.53/12.5 | 4 | 5.5 | 105×1/55×1 | 0.53 | 12.5 | 80 |
| W-0.67/10 | 5.5 | 7.5 | 105×1/55×1 | 0.6 | 10 | 80 |
| W-0.8/14.5 | 7.5 | 10 | 90×2/65×1 | 0.8 | 14.5 | 120 |
| W-0.9/12.5 | 7.5 | 10 | 90×2/65×1 | 0.9 | 12.5 | 120 |
| V-1.05/10 | 7.5 | 10 | 105×2/55×2 | 1.05 | 10 | 160 |
| V-0.8/12.5 | 7.5 | 10 | 105×2/55×2 | 0.8 | 12.5 | 120 |
| V-1.05/10 | 7.5 | 10 | 105×2/55×2 | 1.05 | 10 | 160 |
| V-0.8/12.5 | 7.5 | 10 | 105×2/55×2 | 0.8 | 12.5 | 160 |
| V-1.05/10 | 7.5 | 10 | 105×2/55×2 | 1.05 | 10 | 500 |
| V-0.9/14.5-K | 7.5 | 10 | 120×2/63.5×2 | 0.9 | 14.5 | 160 |
| V-1.2/10-K | 7.5 | 10 | 120×2/63.5×2 | 1.2 | 10 | 160 |
| V-1.2/10-K | 7.5 | 10 | 120×2/63.5×2 | 1.2 | 10 | 300 |
| V-1.05/12.5-K | 7.5 | 10 | 120×2/63.5×2 | 1.05 | 12.5 | 300 |
| V-1.05/12.5-K | 7.5 | 10 | 120×2/63.5×2 | 1.05 | 12.5 | 330 |
| Z-1.6/10 | 11 | 15 | 155×1/85×1 | 1.6 | 10 | 330 |
| W-1.6/12.5 | 11 | 15 | 105×2/75×1 | 1.6 | 12.5 | 330 |
| W-2.0/10 | 15 | 20 | 120×2/82×1 | 2 | 10 | 330 |
| W-2.4/14.5 | 18.2 | 25 | 140×2/90×1 | 2.4 | 14.5 | 330 |
Packaging & Shipping
1. Professional exporting wooden packing.
30 Bar 2m3/min Air Cooling Stage Piston Air Compressor for Piping Pressure Test
Description of air compressor
1) The air compressor carefully designed and manufactured for filling 20MPa-30MPa pressure air cylinders.
2) This is a kind of high-pressure air inflatable equipment available for breathing air. The device has a small size, light weight, easy maintenance, and friendly at moving and operation.
3) Output air non-toxic, odorless. Suitable for filling high pressure air displacement and small and medium-sized gas station
Technical Parameter for PET Oil-free Piston Air Compressor
|
Model |
Air Delivery |
Working Pressure |
Compressed Stages |
Motor power |
Speed |
Dimension (L*W*H) |
Weight |
|
|
m3/min |
bar |
kw |
rpm |
mm |
Kg |
|
|
VW-2.0/30 |
2.0 |
3.0 |
3 |
22 |
620 |
2178*1060*1060 |
690 |
|
WW-4.0/30 |
4.0 |
2*22 |
3718*1108*1208 |
1380 |
|||
|
WW-6.0/30 |
6.0 |
2*22 |
2168*1058*2008 |
1380 |
|||
|
WW-8.0/30 |
8.0 |
3*22 |
5608*1108*1208 |
2070 |
|||
|
VW-2.0/40 |
2.0 |
4.0 |
22 |
2178*1060*1060 |
690 |
||
|
WW-4.0/40 |
4.0 |
2*22 |
3718*1108*1208 |
1380 |
|||
|
WW-6.0/40 |
6.0 |
2*22 |
2168*1058*2008 |
1380 |
|||
|
WW-8.0/40 |
6.0 |
3*22 |
5608*1108*1208 |
2070 |
*Structure by into trachea-shaped valve and exhaust valve combinations, the main features below :air through the intake manifold valve cavity, along the tangent of the valve flow, impact of approximate straight lines, air valves and flow resistance greatly reduces, so it could provide low noise, long service life.
*Because of the inlet valve inside the vertical spatial distribution, inlet of the valve flow area increased, the valve flow rate and lower drag coefficient, inspiratory volume increase volume efficiency, reduced energy consumption.
*Intake and exhaust valves is the reed valve and strip-type valves fixed unlimited free elastic beam opening and closing movements, without friction and clearance volume small so CHINAMFG combined air valve has excellent dynamic performance and reliability.
Diesel engine-driven Air Compressor
Air Cooling 40bar Oil-Free PET Bottle blowing Piston Air Compressor with skid mounted air dryer and air tank
Especially suitable for: water and electricity, PET bottle blowing, leak detection, m ilitary and other fields
1. Valve materials are made of Sweden stainless steel band.
2. In order to ensure that air compressors highly reliable, using redundant design principles, setting multiple protection measures: unloading, down the drain, exhaust, ensure that the zero-pressure start.
3. Timed drain valve: Drainage and drainage at a time interval can be adjusted. Ensure that the captain of an air compressor runs continuously between regular drainage, effectively preventing water from too much liquid strike accidents.
4. Low exhaust temperature(10.0Mpa exhaust pressure, exhaust air temperature ≤170 degrees, the temperature of exhaust air is above the ambient temperature of 15-20 ºC from aftercooler )
5. Fuel consumption per hour less than 0.143/kw.
6. High reliability and long maintenance period, very low fuel, low energy consumption and so on, greatly reducing the overall general operating costs.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | 1year |
|---|---|
| Warranty: | 1year |
| Lubrication Style: | Oil-free |
| Cooling System: | Air Cooling |
| Cylinder Arrangement: | Balanced Opposed Arrangement |
| Cylinder Position: | Vertical |
| Samples: |
US$ 480/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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.
Can Gas Air Compressors Be Used for Pneumatic Tools?
Yes, gas air compressors can be used for pneumatic tools. Here’s a detailed explanation:
1. Versatile Power Source:
Gas air compressors, powered by gasoline or diesel engines, provide a portable and versatile power source for operating pneumatic tools. They eliminate the need for electrical power supply, making them suitable for remote locations or construction sites where electricity may not be readily available.
2. High Power Output:
Gas air compressors typically offer higher power output compared to electric compressors of similar size. This high power output enables gas compressors to deliver the necessary air pressure and volume required by pneumatic tools, ensuring optimal tool performance.
3. Mobility and Portability:
Gas air compressors are often designed with mobility and portability in mind. They are compact and equipped with wheels or handles, allowing for easy transportation to different job sites. This mobility is advantageous when using pneumatic tools in various locations or when working in confined spaces.
4. Continuous Operation:
Gas air compressors can provide continuous air supply for pneumatic tools without the need for frequent pauses or recharging. As long as there is an adequate fuel supply, gas compressors can operate for extended periods, allowing uninterrupted use of pneumatic tools for tasks such as drilling, nailing, sanding, or painting.
5. Suitable for High-Demand Applications:
Pneumatic tools used in heavy-duty applications often require a robust air supply to meet their performance requirements. Gas air compressors can generate higher air flow rates and maintain higher operating pressures, making them suitable for high-demand pneumatic tools like jackhammers, impact wrenches, or sandblasters.
6. Flexibility in Compressor Size:
Gas air compressors are available in various sizes and capacities, allowing users to choose the compressor that best matches the air demands of their pneumatic tools. From small portable compressors for light-duty tasks to larger industrial-grade compressors for heavy-duty applications, there is a wide range of options to suit different tool requirements.
7. Reduced Dependency on Electrical Infrastructure:
Using gas air compressors for pneumatic tools reduces reliance on electrical infrastructure. In situations where the electrical power supply is limited, unreliable, or expensive, gas compressors offer a viable alternative, ensuring consistent tool performance without concerns about power availability.
It’s important to note that gas air compressors emit exhaust gases during operation, so proper ventilation is necessary when using them in enclosed spaces to ensure the safety of workers.
In summary, gas air compressors can effectively power pneumatic tools, offering mobility, high power output, continuous operation, and suitability for various applications. They provide a reliable and portable solution for utilizing pneumatic tools in locations where electrical power supply may be limited or unavailable.
.webp)
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 2024-05-10
China wholesaler 24-Hour Operation Hydrogen Oil Free CO2 Nitrogen Booster Oxygen Compressor air compressor lowes
Product Description
Product Description
Oxygen compressor
Safety oxygen compressor for pressurizing oxygen and transporting or storing oxygen
Used in hospital oxygen supply center, to increase the oxygen supply line pressure in the room, and pressurized oxygen, and fill in the cylinder, can also be used in industrial B fast combustion aid cutting, cutting scrap steel in the steel plant, support boiler oxygen combustion, the low temperature liquid oxygen tank in the vapor oxygen recirculation to the tank waiting for various conditions
Oil-free low pressure oxygen compressor Oil-free high-pressure oxygen compressor
Nitrogen compressor
Nitrogen compressor for pressurizing nitrogen gas and transporting or storing it
It is mainly used for pressurization and filling of nitrogen bottles, nitrogen pressure and leakage test of pipelines and other industries. The maximum filling pressure can reach 40MPA. According to the cooling method, it can be divided into air cooling and water cooling, and according to the compression level, it can be divided into 3 stages and 4 stages
Oil-free low pressure nitrogen compressor Oil-free high-pressure nitrogen compressor
Hydrogen compressor
It’s a device that can vary the amount of hydrogen to complete compression and delivery
Uses: to supercharge hydrogen in the heat treatment of steel mills, polysilicon industry, to provide the raw material hydrogen with continuous pressure for the reactor. In the future, with the extensive construction of hydrogenation stations, hydrogen compressor will be more used in hydrogen fuel cells, filling hydrogen with very high pressure into the hydrogen car, to obtain clean, green and pollution-free energy
Oil free low pressure hydrogen compressor Oil free low pressure hydrogen compressor
Carbon dioxide compressor
A compressor used to pressurize and transport carbon dioxide gas
The uses are as follows: carbon dioxide recovery in dry ice plant, CO2 recovery, storage and reuse in carbon dioxide supercritical extraction process; In the dry ice plant and CO2 extraction process, the compressor suction pressure is 0-1BARG, the discharge pressure can reach 80BAR, and the flow rate is 5NM3-600NM3/ h
V-type all-oil-free CO2 CO2 compressor ZCW vertical large capacity oil free carbon dioxide supercharger
Sulfur hexafluoride compressor
For SF6 circuit breaker repair and maintenance, SR gas recovery circuit breaker
SF6 compressor seal tight, safe and reliable, easy to operate, easy to maintain, low noise, low vibration, energy saving, no
pollution, durable, and has complete safety protection. The SF6 compressor can be operated without any lubricating oil, and advanced resin grease is injected into the bearings of the moving parts.
wW silent oil-free sulfur hexafluoride recovery compressor SW oil-free sulfur hexafluoride compressor
Argon compressor
1. No oil at all
2. Single or double stage, 3 stage compression, 4 stage compression
3. Pry mounted, easy to move
4. Long time load, 24 hours to continue to work 5. Silent work
Cooling method: Air/water cooling
Color: Gray or custom
Packing case: Wooden case
Standard: CE/ISO9001
Delivery time: 50-60 days
Helium compressor
1. No oil at all
2. Single or double stage, 3 stage compression, 4 stage compression
3. Pry mounted, easy to move
4. Long time load, 24 hours to continue to work 5. Silent work
Cooling method: Air/water cooling
Color: Gray or custom
Packing case: Wooden case
Standard: CE/ISO9001
Delivery time: 50-60 days
Vinyl fluoride compressor
1. No oil at all
2. Single or double stage, 3 stage compression, 4 stage compression
3. Pry mounted, easy to move
4. Long time load, 24 hours to continue to work 5. Silent work
Cooling method: Air/water cooling
Color: Gray or custom
Packing case: Wooden case
Standard: CE/ISO9001
Delivery time: 50-60 days
Vinyl chloride compressor
1. No oil at all
2. Single or double stage, 3 stage compression, 4 stage compression
3. Pry mounted, easy to move
4. Long time load, 24 hours to continue to work 5. Silent work
Cooling method: Air/water cooling
Color: Gray or custom
Packing case: Wooden case
Standard: CE/ISO9001
Delivery time: 50-60 days
Company Profile
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Usage: | Hydrogen, Nitrogen, Oxygen, Ozone |
|---|---|
| Purpose: | Gas Filling |
| Parts: | Valve |
| Application Fields: | New Energy |
| Noise Level: | Low |
| Machine Size: | Medium |
| Samples: |
US$ 40000/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
.webp)
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.
.webp)
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 Industries Commonly Use Gas Air Compressors?
Gas air compressors find applications in various industries where compressed air is required for powering tools, equipment, and systems. These compressors are valued for their portability, versatility, and ability to provide high-pressure air. Here’s a detailed explanation of the industries that commonly use gas air compressors:
1. Construction Industry:
The construction industry extensively utilizes gas air compressors for a wide range of tasks. Compressed air is used to power pneumatic tools such as jackhammers, nail guns, impact wrenches, and concrete breakers. Gas air compressors provide the necessary airflow and pressure to operate these tools efficiently, making them ideal for construction sites.
2. Mining Industry:
In the mining industry, gas air compressors play a vital role in various operations. Compressed air is used to power pneumatic tools for drilling, rock blasting, and excavation. It is also employed in ventilation systems, conveying systems, and pneumatic control devices in mines. Gas air compressors are valued for their durability and ability to operate in rugged and remote mining environments.
3. Oil and Gas Industry:
The oil and gas industry relies on gas air compressors for numerous applications. They are used for well drilling operations, powering pneumatic tools, and maintaining pressure in oil and gas pipelines. Gas air compressors are also utilized in natural gas processing plants, refineries, and petrochemical facilities for various pneumatic processes and equipment.
4. Manufacturing and Industrial Sector:
In the manufacturing and industrial sector, gas air compressors are extensively used in different applications. They provide compressed air for pneumatic tools, such as air-powered drills, sanders, grinders, and spray guns. Compressed air is also used in manufacturing processes such as material handling, assembly line operations, and pneumatic control systems.
5. Automotive Industry:
The automotive industry utilizes gas air compressors for a variety of tasks. Compressed air is employed in automotive assembly plants for pneumatic tools, paint spraying booths, and pneumatic control systems. Gas air compressors are also used in auto repair shops for powering air tools, tire inflation, and operating pneumatic lifts.
6. Agriculture and Farming:
Gas air compressors have applications in the agriculture and farming sector. They are used for tasks such as powering pneumatic tools for crop irrigation, operating pneumatic seeders or planters, and providing compressed air for farm maintenance and repair work. Portable gas air compressors are particularly useful in agricultural settings where electricity may not be readily available.
7. Food and Beverage Industry:
In the food and beverage industry, gas air compressors are employed for various pneumatic processes and equipment. They are used in food packaging operations, pneumatic conveying systems for ingredients and finished products, and air-powered mixing and blending processes. Gas air compressors in this industry are designed to meet strict hygiene and safety standards.
8. Pharmaceutical and Healthcare Sector:
The pharmaceutical and healthcare sector utilizes gas air compressors for critical applications. Compressed air is used in medical devices, dental equipment, laboratory instruments, and pharmaceutical manufacturing processes. Gas air compressors in this industry must adhere to stringent quality standards and maintain air purity.
These are just a few examples of the industries that commonly use gas air compressors. Other sectors, such as power generation, aerospace, marine, and chemical industries, also rely on gas air compressors for specific applications. The versatility and reliability of gas air compressors make them indispensable in numerous industries where compressed air is a vital resource.
editor by CX 2024-05-07
China wholesaler Compressor for Oxygen Concentrator High Purity and Output Oil Free air compressor lowes
Product Description
Compressor for Oxygen Concentrator High Purity and Output Oil Free
Introduction
Our Compressor for Oxygen Concentrator is total oil free, do not use any lubricate oil, and for the cylinder use stainless steel material, piston ring is self-lubricated material, all this guarantee oxygen is clean and no-pollution.
Compressor for Oxygen Concentrator working speed is slow, normally 200-400 rpm, to keep working do 24 hours heavy duty loading, this Compressor for Oxygen Concentrator main use for hospital oxygen supplier center, to increase oxygen supply line pressure to the room, also can boost oxygen, and filling to the cylinder, such as 15Mpa, 20Mpa. Our Compressor for Oxygen Concentrator can also be used in Industrial acetylene cutting, cutting steel scrap in steel factory, support Boiler oxygen combustion recycle the cryogenic liquid oxygen tank vapor oxygen to the tank.
Normally, according to customer oxygen application condition, our Compressor for Oxygen Concentrator has one pressure stage, 2 pressure stage, 3 pressure stage, and 4 pressure stage, and 5 pressure stage, by the cylinder, has single, double, three, and 4 cylinder.
Main Technical Parameters
| No. | Item | Data |
| 1 | Compressor model | GOW-40/4-150 |
| 2 | Compressor type | V type, reciprocating piston, water cooled, air cooled |
| 3 | Compression medium | oxygen |
| 4 | Volume flow | 40nm3/h |
| 5 | Intake pressure | 4bar |
| 6 | Exhaust pressure | 150bar |
| 7 | Inlet temperature | ≤40ºC |
| 8 | Exhaust temperature | no more than ambient temperature +15ºC after cooling |
| 9 | Driving mode | explosion-proof motor |
| 10 | External size (length × width × height) | 1650*950*1470mm |
| 11 | Weight | 960kg |
Precautions for Use
1. Compressor for Oxygen Concentrator should be selected in a clean and dust-free room to work, the use of temperature should not be less than 0 ºC.
2. Compressor for Oxygen Concentrator can be bolted to a horizontal base or placed on a horizontal base table. A thick rubber plate with damping between the filling pump and the abutment shall be in contact with the base station smoothly.
3. Do not contact any fat object in contact with water, glycerin lubrication liquid.
4. Before the first use, the mechanical oil should be injected into the body, and after each replacement of mechanical oil, the body must be outside the grease wipe clean. Do not allow the oil from the upper and lower body joints, the sealing ring and the sealing cover outside the leakage.
5. Smoking is prohibited in the place of use, and strict forbidden prohibition system should be established. The filling workers must wear clean clothes without oil, and must wash their hands with soap before working.
6. Compressor for Oxygen Concentrator should be selected in a clean and non-greasy room to work, the use of environmental encounters not less than 0ºC, indoor lighting lines and power lines can not use the wire, the line connector must use explosion-proof junction box, oxygen filling indoor storage of large oxygen cylinders must not exceed the maintenance of good ventilation. The Oxygen Compressor and the large oxygen cylinder should be used in isolation.
7. Compressor for Oxygen Concentrator to be horizontally placed on the ground, 4 legs cushion flat. Use the external air source tube to connect the gas source bottle with the Oxygen Compressor connecting pipe and the sealing ring of the body connection should be installed correctly.
Why Choose Us
*We will answer calls and receive consultation documents from customer politely and earnestly, to know exactly about customers’ site situation and technical requirements, and record all data in detail.
*We will carefully analyze the information supplied by customers, to provide catalog and technical proposal in time.
*We will contact customers regularly, actually knowing about the progress, thus can provide reasonable suggestions, to help customers reducing costs.
*We sincerely invite customers to visit our company, participating in technical discussion, to determine the best solution.
*If any trouble occurred during the equipment running period, our technicians will communicate with customers and help solve the problem in time.
*We will send technicians to help customers install, debug the equipment and train workers, until the workers are familiar with the operation, technical principle and simple maintenance of the system.
*All the equipment has 18-month warranty from delivery date.
*During the equipment running period, we will contact customers and ask for feedback regularly.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Usage: | Hydrogen, Nitrogen, Oxygen, Ozone |
|---|---|
| Purpose: | Gas Filling |
| Parts: | Valve |
| Application Fields: | Medical |
| Noise Level: | Low |
| Machine Size: | Medium |
| Samples: |
US$ 10300/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
Can Gas Air Compressors Be Used in Cold Weather Conditions?
Gas air compressors are generally designed to operate in a wide range of environmental conditions, including cold weather. However, there are certain considerations and precautions to keep in mind when using gas air compressors in cold weather conditions. Here’s a detailed explanation:
1. Cold Start-Up:
In cold weather, starting a gas air compressor can be more challenging due to the low temperatures affecting the engine’s performance. It is important to follow the manufacturer’s recommendations for cold start procedures, which may include preheating the engine, using a cold weather starting aid, or ensuring the proper fuel mixture. These measures help facilitate smooth start-up and prevent potential damage to the engine.
2. Fuel Type:
Consider the type of fuel used in the gas air compressor. Some fuels, such as gasoline, can be more susceptible to cold weather issues like vapor lock or fuel line freezing. In extremely cold conditions, it may be necessary to use a fuel additive or switch to a fuel type that is better suited for cold weather operation, such as winter-grade gasoline or propane.
3. Lubrication:
Cold temperatures can affect the viscosity of the oil used in the compressor’s engine. It is important to use the recommended oil grade suitable for cold weather conditions. Thicker oil can become sluggish and impede proper lubrication, while oil that is too thin may not provide adequate protection. Consult the manufacturer’s guidelines for the appropriate oil viscosity range for cold weather operation.
4. Moisture Management:
In cold weather, moisture can condense more readily in the compressed air system. It is crucial to properly drain the moisture from the compressor tank and ensure the air lines are free from any accumulated moisture. Failure to manage moisture can lead to corrosion, freezing of air lines, and decreased performance.
5. Protection from Freezing:
In extremely cold conditions, it is important to protect the gas air compressor from freezing. This may involve using insulated covers or enclosures, providing heat sources in the compressor area, or storing the compressor in a temperature-controlled environment when not in use. Taking measures to prevent freezing helps maintain proper operation and prevents potential damage to the compressor components.
6. Monitoring Performance:
Regularly monitor the performance of the gas air compressor in cold weather conditions. Pay attention to any changes in operation, such as reduced air pressure, increased noise, or difficulties in starting. Promptly address any issues and consult the manufacturer or a qualified technician if necessary.
By considering these factors and taking appropriate precautions, gas air compressors can be effectively used in cold weather conditions. However, it is important to consult the specific guidelines provided by the manufacturer for your compressor model, as they may have additional recommendations or specifications for cold weather operation.
.webp)
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.
.webp)
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 2024-05-02
China Best Sales Reciprocating Oil-Free Propane Hydraulic Driven Hydrogen Natural Gas Piston Hydrogen Compressor Manufacturer mini air compressor
Product Description
Reciprocating Micro-Oil Oil-free Piston Compressor
( Blue Font To View Hyperlink)
Our company specialize in making various kinds of compressors, such as:Diaphragm compressor,Piston compressor, Air compressors,Nitrogen generator,Oxygen generator ,Gas cylinder,etc. All products can be customized according to your parameters and other requirements.
This series of oil-free compressor is one of the first products produced by our factory in China. The product has the characteristics of low speed, high component strength, stable operation, long service life and convenient maintenance. This series compressor is in the form of unit. It integrates compressor, gas-liquid separator, filter, 2 position four-way valve, safety valve, check valve, explosion-proof motor and chassis. The utility model has the advantages of small volume, light weight, low noise, good sealing performance, easy installation, simple operation, etc.
Main components
1. Motion system: crankshaft, piston connecting rod assembly, coupling, etc.
2. Air distribution system: valve plate, valve spring, etc.
3. Sealing system: piston ring, oil seal, gasket, packing, etc.
4. Body system: crankcase, cylinder block, cylinder liner, cover plate, etc.
5. Lubrication system: lubricating oil pump, oil filter, pressure regulating valve, etc.;
6. Safety and energy regulation systems: safety valves, energy regulation devices, etc.
Working principle of piston compressor
When the crankshaft of the piston compressor rotates, the piston will reciprocate through the transmission of the connecting rod, and the working volume formed by the inner wall of the cylinder, the cylinder head and the top surface of the piston will periodically change. When the piston of a piston compressor starts to move from the cylinder head, the working volume in the cylinder gradually increases. At this time, the gas flows along the intake pipe and pushes the intake valve to enter the cylinder until the working volume reaches the maximum. , The intake valve is closed; when the piston of the piston compressor moves in the reverse direction, the working volume in the cylinder is reduced, and the gas pressure is increased. When the pressure in the cylinder reaches and is slightly higher than the exhaust pressure, the exhaust valve opens and the gas is discharged from the cylinder , Until the piston moves to the limit position, the exhaust valve is closed. When the piston of the piston compressor moves in the reverse direction again, the above process repeats. In short, the crankshaft of a piston compressor rotates once, the piston reciprocates once, and the process of air intake, compression, and exhaust is realized in the cylinder, which completes a work cycle.
Advantages of piston compressor
1. The applicable pressure range of the piston compressor is wide, and the required pressure can be reached regardless of the flow rate;
2. The piston compressor has high thermal efficiency and low unit power consumption;
3. Strong adaptability, that is, a wide exhaust range, and is not affected by the pressure level, and can adapt to a wider pressure range and cooling capacity requirements;
4. Piston compressors have low requirements for materials, and use common steel materials, which is easier to process and lower in cost;
5. The piston compressor is relatively mature in technology, and has accumulated rich experience in production and use;
6. The device system of the piston compressor is relatively simple.
Note: In the unloading process, the compressor pressurizes the gas from the storage tank and then presses it into the tank car through the gas-phase pipeline, and presses the liquid from the tank car to the storage tank through the gas-phase differential pressure to complete the unloading process. When the gas phase is pressurized, the temperature of the gas phase will rise. At this time, forced cooling is not necessary, because if the gas phase is compressed and then cooled, it is easy to liquefy, and it is difficult to establish the pressure difference of the gas phase, which is not conducive to the replacement of the gas phase and the liquid phase. In short, it will cause the prolongation of the unloading process. If it is necessary to recover the residual gas, the cooler can be selected to forcibly cool the gas phase during the recovery operation, so as to recover the residual gas as soon as possible.The loading process is opposite to the unloading process.
Chemical Process Compressor Description
Chemical process compressors refer to process reciprocating piston compressors used to compress various single or mixed media gases in petroleum and chemical processes, as well as chemical exhaust gas recycling systems. Its main function is to transport the medium gas in the reaction device and provide the required pressure to the reaction device. Features 1. Designed for specific process flow. 2. The whole machine is skid-mounted and advanced in structure. 3. The compressor types are: Z type, D type, M type. 4. The middle body of the slideway and the cylinder can be designed in different structural forms according to the process requirements.
Reference Technical parameters and specifications
| Model | Volume flow(Nm3/h) | Suction pressure(Mpa) | Exhaust pressure (Mpa) | Motor power(kw) | Dimension (mm) | |
| 1 | ZW-0.4/ 2-250 | 60 | 0.2 | 25 | 18.5 | 2800*2200*1600 |
| 2 | ZW-0.81/ (1~3)-25 | 120 | 0.1~0.3 | 2.5 | 22 | 1000*580*870 |
| 3 | DW-5.8/0.5-5 | 400~500 | 0.05 | 0.5 | 37 | 2000*1600*1200 |
| 4 | DW-10/2 | 510 | Atmospheric pressure | 0.2 | 37 | 2000*1600*1200 |
| 5 | DW-6.0/5 | 300 | Atmospheric pressure | 0.5 | 37 | 2000*1600*1200 |
| 6 | DW-0.21/(20~30)-250 | 270 | 2~3 | 25 | 45 | 3200*2200*1600 |
| 7 | ZW-0.16/60-250 | 480 | 6 | 25 | 45 | 3000*2200*1600 |
| 8 | ZW-0.46 /(5~10)-250 | 200 | 0.5~1.0 | 25 | 45 | 3000*2200*1600 |
| 9 | DW-1.34/2-250 | 208 | 0.2 | 25 | 55 | 3400*2200*1600 |
| 10 | DW-0.6/24-85 | 720 | 2.4 | 8.5 | 55 | 2200*1600*1200 |
| 11 | ZW-2.9/14.2-20 | 220 | 1.42 | 2 | 55 | 2200*1600*1200 |
| 12 | VW-2.0/(2~4)-25 | 410 | 0.2~0.4 | 2.5 | 55 | 3400*2200*1600 |
| 13 | DW-0.85/(3~4)-250 | 180 | 0.3~0.4 | 25 | 55 | 2400*1800*1500 |
| 14 | DW-25-(0.2~0.3)-1.5 | 1620 | 0.02~0.03 | 0.15 | 75 | 2400*1800*1500 |
| 15 | VW-8.0/0.3-25 | 540 | 0.03 | 2.5 | 90 | 2400*1800*1500 |
| 16 | DW-6.8/0.05-40 | 200~400 | 0.005 | 4 | 90 | 2400*1800*1500 |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | 18 Months |
|---|---|
| Warranty: | 18 Months |
| Lubrication Style: | Lubricated |
| Cooling System: | Water Cooling |
| Cylinder Arrangement: | Balanced Opposed Arrangement |
| Cylinder Position: | Angular |
| Customization: |
Available
|
|
|---|
What Is the Typical Lifespan of a Gas Air Compressor?
The typical lifespan of a gas air compressor can vary depending on several factors, including the quality of the compressor, its usage patterns, maintenance practices, and environmental conditions. However, with proper care and maintenance, a gas air compressor can last for many years. Here’s a detailed explanation of the factors that can affect the lifespan of a gas air compressor:
1. Quality of the Compressor:
The quality and construction of the gas air compressor play a significant role in determining its lifespan. Compressors made with high-quality materials, precision engineering, and robust components are generally more durable and can withstand heavy usage over an extended period.
2. Usage Patterns:
The usage patterns of the gas air compressor can impact its lifespan. If the compressor is used consistently and for extended periods, it may experience more wear and tear compared to compressors used intermittently or for lighter tasks. Heavy-duty applications, such as continuous operation with high-demand tools, can put more strain on the compressor and potentially reduce its lifespan.
3. Maintenance Practices:
Regular maintenance is crucial for extending the lifespan of a gas air compressor. Following the manufacturer’s recommended maintenance schedule, performing routine tasks like oil changes, filter cleaning/replacement, and inspection of components can help prevent issues and ensure optimal performance. Neglecting maintenance can lead to accelerated wear and potential breakdowns.
4. Environmental Conditions:
The operating environment can significantly impact the lifespan of a gas air compressor. Factors such as temperature extremes, humidity levels, presence of dust or debris, and exposure to corrosive substances can affect the compressor’s components and overall performance. Compressors used in harsh environments may require additional protection or specialized maintenance to mitigate these adverse conditions.
5. Proper Installation and Operation:
Proper installation and correct operation of the gas air compressor are essential for its longevity. Following the manufacturer’s guidelines for installation, ensuring proper ventilation, maintaining correct oil levels, and operating within the compressor’s specified capacity and pressure limits can help prevent excessive strain and premature wear.
Considering these factors, a well-maintained gas air compressor can typically last anywhere from 10 to 15 years or even longer. However, it’s important to note that this is a general estimate, and individual results may vary. Some compressors may experience shorter lifespans due to heavy usage, inadequate maintenance, or other factors, while others may last well beyond the expected lifespan with proper care and favorable conditions.
Ultimately, investing in a high-quality gas air compressor, adhering to recommended maintenance practices, and using it within its intended capabilities can help maximize its lifespan and ensure reliable performance for an extended period.
Can Gas Air Compressors Be Used for Natural Gas Compression?
Gas air compressors are not typically used for natural gas compression. Here’s a detailed explanation:
1. Different Compressed Gases:
Gas air compressors are specifically designed to compress atmospheric air. They are not typically designed or suitable for compressing natural gas. Natural gas, which is primarily composed of methane, requires specialized compressors designed to handle the unique properties and characteristics of the gas.
2. Safety Considerations:
Natural gas compression involves handling a flammable and potentially hazardous substance. Compressing natural gas requires specialized equipment that meets stringent safety standards to prevent leaks, minimize the risk of ignition or explosion, and ensure the safe handling of the gas. Gas air compressors may not have the necessary safety features or materials to handle natural gas safely.
3. Equipment Compatibility:
Natural gas compression systems typically include components such as gas compressors, gas coolers, separators, and control systems that are specifically designed and engineered for the compression and handling of natural gas. These components are built to withstand the specific demands and conditions associated with natural gas compression, including the high pressures and potential presence of impurities.
4. Efficiency and Performance:
Compressing natural gas requires specialized compressors that can handle the high-pressure ratios and volumetric flow rates associated with the gas. Gas air compressors are generally not designed to achieve the same compression ratios and performance levels required for natural gas compression. Using gas air compressors for natural gas compression would likely result in inefficient operation and suboptimal performance.
5. Regulatory Compliance:
Compressing natural gas is subject to various regulations and standards to ensure safety, environmental protection, and compliance with industry guidelines. These regulations often dictate specific requirements for equipment, materials, and operating procedures in natural gas compression systems. Gas air compressors may not meet these regulatory requirements for natural gas compression.
6. Industry Standards and Practices:
The natural gas industry has well-established standards and best practices for equipment selection, installation, and operation in gas compression systems. These standards are based on the specific requirements and characteristics of natural gas. Gas air compressors do not align with these industry standards and practices, which are essential for safe and efficient natural gas compression.
In summary, gas air compressors are not suitable for natural gas compression. Natural gas compression requires specialized equipment designed to handle the unique properties and safety considerations associated with the gas. Compressors specifically engineered for natural gas compression offer the necessary performance, safety features, and regulatory compliance required for efficient and reliable operation in natural gas compression systems.
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 2024-04-29
China Best Sales Oil-Free Piston Oxygen Hydrogen Nitrogen Booster Compressor High Pressure Gas Compressor air compressor portable
Product Description
Product Description
Oil-free Piston Oxygen Hydrogen Nitrogen Booster Compressor High Pressure Gas Compressor
4-12 m3/h air-cooled oil-free filling oxygen compressor
Oxygen compressors refer to compressors used to pressurize oxygen for transportation or storage.
There are 2 types of commonly used medical oxygen compressors. One is that PSA oxygen concentrators in hospitals need to be pressurized to supply various wards and operating rooms. It provides 7-10 kg of line pressure. Oxygen from a PSA needs to be stored in a high pressure container for ease of use. The storage pressure is usually a pressure of 100 barg, 150 barg, 200 barg or 300 barg.
Advantages and characteristics of oil-free oxygen booster compressor
1. Oil-free, stainless steel cylinder
2. No pollution, keep the gas purity unchanged
3. Low maintenance cost and easy operation.
4. According to the customer’s specific working conditions, the compressor is designed as single-stage compression, two-stage compression, three-stage compression and four-stage compression.
5. Low speed, long life, average speed 260-400RPM,
6. Continuous continuous heavy-duty operation, can run stably for 24 hours without stopping
There are 2 types of oil-free oxygen filling cylinder compression, air cooling and water cooling, vertical structure, CHINAMFG series high-pressure oil-free lubrication oxygen compressor, excellent performance, stable operation, high efficiency and energy saving, long service life, widely used in oxygen , chemical process and plateau oxygen supply, combined with an oxygen generator, forms a simple and safe high-pressure oxygen system.
Technical parameter
| Flow rate | Inlet pressure | Outlet pressure | Motor power | Crankcase | Inlet size | Outlet size | Dimension | Weight | Inlet/Outlet temperature |
| mm | kg | ºC | |||||||
| 1-3 m3/h | 3-4 bar | 150 bar | 1.5-3 kw | Aluminum alloy | M14*1.5 | M14*1.5 | 850*640*680 | 140 | 45 |
| 200 bar | |||||||||
| 4-12 m3/h | 3-4 bar | 150 bar | 3-5.5 kw | Small two-row four-level | DN15 | M16*1.5 | 1000*800*1100 | 320 | 45 |
| 200 bar | |||||||||
| 13-60 m3/h | 3-4 bar | 150 bar | 11-18.5 kw | Medium two-row four-level | DN25 | M16*1.5 | 1650*950*1470 | 960 | 45 |
| 200 bar | |||||||||
| 60-70 m3/h | 3-4 bar | 150 bar | 22 kw | 6H | DN40 | M22*1.5 | 1950*1350*1400 | 1300 | 45 |
| 80-150 m3/h | 3-4 bar | 150 bar | 30-45 kw | Big two-row four-level | DN50 | M22*1.5 | 2100*1100*1600 | 2000 | 45 |
| 200 bar | |||||||||
| 10-15 m3/h | 3-4 bar | 150 bar | 5.5-7.5 kw | New four-row four-level | DN15 | M16*1.5 | 1050*750*1571 | 450 | 45 |
| 200 bar |
The basi c parameters li sted i n this table can be confi r’med accordi ngtothe actual worki ng condi ti ons.
The parameters of the pressurized 20MPa filling machine are compared with those of the same 15MPa flow model.
The strength and precision of all host parts are increased, and the precision of electrical parts (unloading solenoid valve) and cut- off valve (20MPa high pressure) is greatly improved than that of 15MPa filling machine.
Application industry
Industrial applications for oxygen compressors include booster use of low pressure oxygen for VSA applications in steel mills, paper mills and water treatment plants.
Successful cases
Customer Visit
Packaging & Shipping
• Packing Details: Plywood crate pallet plus foam board and bubble film, Full closed wooden case. 1pcs/each package (for stationary screw air compressor)
• Shipping method: by sea, by LCL/FCL or as requested
• Delivery method: FOB, CFR, CIF and EXW etc.
• Delivery time: in 7-15 days after receiving deposit (customized machines not included)
Company Profile
ZheJiang CHINAMFG Machinery Co., Ltd. is a company dedicated to the production and research and development of various gas compression equipment. The company was established in 2012 and has a total of 5 licensed technical engineers. Mainly engaged in air, nitrogen, CO2 and other special gas compression equipment and after-treat equipment. With the development in recent years, the company has established a foreign trade team in ZheJiang , and hired foreign trade consultants with 10 years of industry experience to better serve customers worldwide. With excellent quality and the support of 30 distributors worldwide, our annual sales in 2018 exceeded 5 million US dollars. We look CHINAMFG to working with you to create a better tomorrow!
After Sales Service
1. 24/7 after sales service support in different languages.
2. Customized color, Model ect.
3. Guidance of installation and commissioning on site can be provided by factory-trained technicians or local Authorized Service Center.
4. Delivery on time and excellent after-sales service.
5. Plenty of original spare parts with proven quality.
6. All kinds of technical documents in different languages.
Payment and delivery
FAQ
Q1. Are you trading company or manufacture ?
A: We are professional manufacture of screw air compressor of HangZhou,ZheJiang ,China. More than 18 years of experience in air compressor manufacturing.
Q2. How long is the delivery time ?
A: For standard voltage ,15 working days. Non-standard ,please contact our sales.
Q3. What’s payment term ?
A: T/T, L/C, D/P, Western Union, Paypal, Credit Card, and etc. Also we could accept USD, RMB, Euro and other currency.
Q4. How about your after-sales service ?
A: 1.Provide customers with installation and commissioning online instructions.
2. Well-trained engineers available to overseas service.
3.CHINAMFG agents and after service avaiable.arrange our engineers to help you training and installation.
Q5. How about your warranty?
A: One year for the whole machine and 2 years for screw air end, except consumable spare parts.
Q6. Do you have any certificate ?
A: Yes, per different customer’s market need ,we can offer CE ,ISO etc certificate.
Q7. What about the maintenance ?
A: First maintenance need to be done after 500Hours, and then every 2000-3000 hours to do the normal maintenance, and consider the actual environment.
Q8. How do you control quality ?
A: 1. The raw materials are strictly inspected
2. Some key parts are imported from overseas
3. Each compressor must pass at least 5 hours of continuous testing before leaving the factory.
Q9. Do you offer OEM service ?
A: Yes.Both OEM & ODM service can be accepted.
Q10.How long could your air compressor be used?
A: Generally, more than 10 years.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Online Support |
|---|---|
| Warranty: | 24 Months |
| Lubrication Style: | Oil-free |
| Customization: |
Available
|
|
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
|
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
.webp)
How Do Gas Air Compressors Compare to Diesel Air Compressors?
When comparing gas air compressors to diesel air compressors, there are several factors to consider, including fuel efficiency, power output, cost, maintenance requirements, and environmental impact. Here’s a detailed explanation of how these two types of air compressors compare:
1. Fuel Efficiency:
Diesel air compressors are generally more fuel-efficient compared to gas air compressors. Diesel engines have higher energy density and better overall efficiency than gasoline engines. This means that diesel compressors can produce more work output per unit of fuel consumed, resulting in lower fuel costs and longer runtimes between refueling.
2. Power Output:
Diesel air compressors typically provide higher power output compared to gas air compressors. Diesel engines are known for their robustness and ability to generate higher torque, making them suitable for heavy-duty applications that require a larger volume of compressed air or higher operating pressures.
3. Cost:
In terms of upfront cost, gas air compressors are generally more affordable compared to diesel air compressors. Gasoline engines and components are typically less expensive than their diesel counterparts. However, it’s important to consider long-term costs, including fuel expenses and maintenance, which can vary depending on factors such as fuel prices and usage patterns.
4. Maintenance Requirements:
Diesel air compressors often require more regular maintenance compared to gas air compressors. This is because diesel engines have additional components such as fuel filters, water separators, and injector systems that need periodic servicing. Gas air compressors, on the other hand, may have simpler maintenance requirements, resulting in reduced maintenance costs and time.
5. Environmental Impact:
When it comes to environmental impact, diesel air compressors produce higher emissions compared to gas air compressors. Diesel engines emit more particulate matter, nitrogen oxides (NOx), and carbon dioxide (CO2) compared to gasoline engines. Gas air compressors, especially those powered by propane, tend to have lower emissions and are considered more environmentally friendly.
6. Portability and Mobility:
Gas air compressors are generally more portable and easier to move compared to diesel air compressors. Gasoline engines are typically lighter and more compact, making gas air compressors suitable for applications where mobility is essential, such as construction sites or remote locations.
It’s important to note that the specific requirements of the application and the availability of fuel sources also play a significant role in choosing between gas air compressors and diesel air compressors. Each type has its own advantages and considerations, and the choice should be based on factors such as the intended usage, operating conditions, budget, and environmental considerations.
In conclusion, gas air compressors are often more affordable, portable, and suitable for lighter applications, while diesel air compressors offer higher power output, fuel efficiency, and durability for heavy-duty operations. Consider the specific needs and factors mentioned above to determine the most appropriate choice for your particular application.
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.
How Do You Choose the Right Size Gas Air Compressor for Your Needs?
Choosing the right size gas air compressor is crucial to ensure optimal performance and efficiency for your specific needs. Selecting a compressor that is too small may result in insufficient airflow or pressure, while choosing one that is too large can lead to unnecessary energy consumption and higher costs. Here’s a detailed explanation of the factors to consider when choosing the right size gas air compressor:
1. Required Airflow:
Determine the airflow requirements of your applications. Consider the tools, equipment, or processes that will be powered by the compressor and their respective airflow demands. The required airflow is typically measured in cubic feet per minute (CFM). Determine the total CFM required, taking into account any simultaneous or intermittent tool usage.
2. Operating Pressure:
Identify the operating pressure required for your applications. Different tools and systems have specific pressure requirements, measured in pounds per square inch (PSI). Ensure that the compressor you choose can deliver the required pressure consistently.
3. Duty Cycle:
Consider the duty cycle, which refers to the amount of time the compressor will be in operation within a given period. Some applications may require continuous operation, while others involve intermittent or occasional use. Take into account the duty cycle to ensure that the compressor can handle the expected workload without overheating or experiencing excessive wear.
4. Tank Size:
The tank size of a gas air compressor determines its ability to store compressed air and provide a steady supply. A larger tank can help accommodate fluctuations in demand and reduce the frequency of the compressor cycling on and off. Consider the required storage capacity based on the specific applications and the desired balance between continuous operation and storage capacity.
5. Power Source:
Gas air compressors can be powered by different fuels, such as gasoline, diesel, natural gas, or propane. Consider the availability and cost of the fuel options in your location, as well as the specific requirements of your applications. Choose a compressor that is compatible with a power source that suits your needs.
6. Portability:
Determine if portability is a requirement for your applications. If you need to move the compressor to different job sites or locations, consider a portable model with features like wheels, handles, or a compact design that facilitates easy transportation.
7. Noise Level:
If noise is a concern in your working environment, consider the noise level of the compressor. Gas air compressors can vary in their noise output, and certain models may have noise-reducing features or insulation to minimize sound emissions.
8. Manufacturer Recommendations:
Consult the manufacturer’s recommendations and guidelines for selecting the appropriate compressor size for your specific needs. Manufacturers often provide guidelines based on the anticipated applications, airflow requirements, and other factors to help you make an informed decision.
By considering these factors and carefully assessing your specific requirements, you can choose the right size gas air compressor that meets your airflow, pressure, duty cycle, and other operational needs. It’s advisable to consult with industry professionals or compressor experts for guidance, especially for complex or specialized applications.
editor by CX 2024-04-27
China Best Sales High Pressure Oxygen Compressor Oil Free Oxygen Compressor Nitrogen Compressor mini air compressor
Product Description
High Pressure Oxygen Compressor Oil Free Oxygen Compressor Nitrogen Compressor
Product Description
Product features
1.Touch display PLC control.
2.Remote control is optional.
3.Inlet and outlet pressure overload,temperature overheating,cooling water failure, circulation rolling alarm and stop.
4.Operation time display, maintenance cycle prompt.
5.With water tank and circulating pump without external pipeline, filling antifreeze at low temperature without obstruction.
| Compressed media | Nitrogen (must be dry and particle free) |
| Model | VWN-180/5-25-II |
| Rated flow (standard state) | 180Nm3/h |
| Intake air temperature | ≤40 |
| Intake pressure | 0.5Mpa |
| Exhaust pressure | 2.5Mpa |
| Cylinder diameter * quantity | (Φ90+φ65)*2 |
| Engine speed | 720r/min |
| Cooling mode | Air cooling |
| Lubrication method | Fully oil-free lubrication |
| Compression series | 2 |
| Structural type | Angle type, V type |
| Motor power | 11kw*2 |
| Transmission mode | Belt drive |
| Installation type | Basic type |
| Dual pressure controller | Intake 4-6 |
| Control mode | Completely oil-free lubrication, air cooling, reciprocating piston type |
| Size of inlet and outlet | RC1″ |
| Dimensions | 1500*1350*1100mm |
| Weight | 280kg |
Product Parameters
| Compressed media (General for oxygen and nitrogen) |
Model | Capacity (Nm3/h) |
Intake pressure (MPa) |
Exhaust pressure (MPa) |
Power (kW) |
Dimensions (mm) |
| Oxygen/Nitrogen | VW-0.33/5-25 | 20 | 0.5 | 2.5 | 4 | 1220*500*800 |
| Oxygen/Nitrogen | ZWN-3.6/4-8 | 3.6 | 0.4 | 0.8 | 0.75 | 750*500*650 |
| Oxygen/Nitrogen | VWN-10/5-25 | 10 | 0.5 | 2.5 | 4 | 1600*700*1500 |
| Oxygen/Nitrogen | VWN-60/5-16 | 60 | 0.5 | 1.6 | 5.5 | 1250*500*900 |
| Oxygen/Nitrogen | VWN-20/6-20 | 20 | 0.6 | 2.0 | 4 | 1250*600*900 |
| Oxygen/Nitrogen | VWN-20/5-25 | 20 | 0.5 | 2.5 | 4 | 1050*600*1000 |
| Oxygen/Nitrogen | VWN-40/7-25 | 40 | 0.7 | 2.5 | 4 | 1250*500*900 |
| Oxygen/Nitrogen | VWN-60/4-25 | 60 | 0.4 | 2.5 | 11 | 1250*700*900 |
| Oxygen/Nitrogen | WWN-80/4-25 | 80 | 0.4 | 2.5 | 11 | 1350*700*1200 |
| Oxygen/Nitrogen | VWN-80/7-25 | 80 | 0.7 | 2.5 | 7.5 | 1250*700*900 |
| Oxygen/Nitrogen | VWN-60/4-30 | 60 | 0.4 | 3.0 | 3 | 1250*500*900 |
| Oxygen/Nitrogen | VWN-50/4-30 | 50 | 0.4 | 3.0 | 7.5 | 1250*650*1000 |
| Oxygen/Nitrogen | VWN-80/5-30 | 80 | 0.5 | 3.0 | 11 | 1250*700*1000 |
| Oxygen/Nitrogen | VWN-30/5-35 | 30 | 0.5 | 3.5 | 5.5 | 1050*500*1000 |
| Oxygen/Nitrogen | VWN-50/5-35 | 50 | 0.5 | 3.5 | 7.5 | 1050*700*1000 |
| Oxygen/Nitrogen | VWN-40/5-40 | 40 | 0.5 | 4.0 | 7.5 | 1250*600*900 |
| Oxygen/Nitrogen | VWY-80/0.5-50 | 80 | 0.05 | 5.0 | 18.5 | 1250*700*900 |
| Oxygen/Nitrogen | VWND-55/5-8 | 55 | 0.5 | 0.8 | 4 | 1400*810*1300 |
| Oxygen/Nitrogen | VWN-60/5-10 | 60 | 0.5 | 1.0 | 4 | 1250*500*900 |
| Oxygen/Nitrogen | VWY-75/4-16 | 75 | 0.4 | 1.6 | 7.5 | 1050*500*1000 |
| Oxygen/Nitrogen | VWND-100/5-10 | 100 | 0.5 | 1.0 | 5.5 | 1400*930*1350 |
| Oxygen/Nitrogen | VWN-120/6-16 | 120 | 0.6 | 1.6 | 11 | 1250*700*1000 |
| Oxygen/Nitrogen | VWN-140/5-8 | 140 | 0.5 | 0.8 | 5.5 | 1250*600*900 |
| Oxygen/Nitrogen | WWND-150/4-10 | 150 | 0.4 | 1.0 | 11 | 1430*1030*1350 |
| Oxygen/Nitrogen | SWND-240/4-10 | 240 | 0.4 | 1.0 | 15 | 1500×1100×1620 |
| Oxygen/Nitrogen | VWY-120/5-10 | 120 | 0.5 | 1.0 | 7.5 | 1250*600*1000 |
| Oxygen/Nitrogen | SWY-150/4-16 | 150 | 0.4 | 1.6 | 15 | 1250*900*1480 |
| Oxygen/Nitrogen | WWN-100/4-25 | 100 | 0.4 | 2.5 | 15 | 1350*700*1200 |
| Oxygen/Nitrogen | WWN-120/6-30 | 120 | 0.6 | 3.0 | 15 | 1250*800*1200 |
| Oxygen/Nitrogen | WWN-120/6-45 | 120 | 0.6 | 4.5 | 18.5 | 1350*1100*1100 |
| Oxygen/Nitrogen | WWN-80/5-45 | 80 | 0.5 | 4.5 | 15 | 1350*700*1200 |
| Oxygen/Nitrogen | WWN-240/5-10 | 240 | 0.5 | 1.0 | 15 | 1350*800*1200 |
| Oxygen/Nitrogen | WWN-300/0.5-8-II | 300 | 0.05 | 0.8 | 22*2 | 2500*1200*800 |
| Oxygen/Nitrogen | WWNFB-900/4-8-II | 900 | 0.4 | 0.8 | 22*2 | 2600*1000*900 |
| Oxygen/Nitrogen | VWN-180/5-25-II | 180 | 0.5 | 2.5 | 11*2 | 1500*1350*1100 |
| Oxygen/Nitrogen | WWN-200/3-18-II | 200 | 0.3 | 1.8 | 11*2 | 1450*1350*1100 |
| Oxygen/Nitrogen | WWN-200/6-30-II | 200 | 0.6 | 3.0 | 11*2 | 1600*1600*1200 |
| Oxygen/Nitrogen | WWFB-430/4-9 | 430 | 0.4 | 0.9 | 22 | 1500*1000*800 |
Successful cases
FAQ
FAQ:
Q1. Are you trading company or manufacture ?
A: We are professional manufacture of screw air compressor of HangZhou,ZheJiang ,China. More than 18 years of experience in air compressor manufacturing.
Q2. How long is the delivery time ?
A: For standard voltage ,15 working days. Non-standard ,please contact our sales.
Q3. What’s payment term ?
A: T/T, L/C, D/P, Western Union, Paypal, Credit Card, and etc. Also we could accept USD, RMB, Euro and other currency.
Q4. How about your after-sales service ?
A: 1.Provide customers with installation and commissioning online instructions.
2. Well-trained engineers available to overseas service.
3.CHINAMFG agents and after service avaiable.arrange our engineers to help you training and installation.
Q5. How about your warranty?
A: One year for the whole machine and 2 years for screw air end, except consumable spare parts.
Q6. Do you have any certificate ?
A: Yes, per different customer’s market need ,we can offer CE ,ISO etc certificate.
Q7. What about the maintenance ?
A: First maintenance need to be done after 500Hours, and then every 2000-3000 hours to do the normal maintenance, and consider the actual environment.
Q8. How do you control quality ?
A: 1. The raw materials are strictly inspected
2. Some key parts are imported from overseas
3. Each compressor must pass at least 5 hours of continuous testing before leaving the factory.
Q9. Do you offer OEM service ?
A: Yes.Both OEM & ODM service can be accepted.
Q10.How long could your air compressor be used?
A: Generally, more than 10 years.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Online Support |
|---|---|
| Warranty: | 24 Months |
| Lubrication Style: | Oil-free |
| Customization: |
Available
|
|
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
What Is the Typical Lifespan of a Gas Air Compressor?
The typical lifespan of a gas air compressor can vary depending on several factors, including the quality of the compressor, its usage patterns, maintenance practices, and environmental conditions. However, with proper care and maintenance, a gas air compressor can last for many years. Here’s a detailed explanation of the factors that can affect the lifespan of a gas air compressor:
1. Quality of the Compressor:
The quality and construction of the gas air compressor play a significant role in determining its lifespan. Compressors made with high-quality materials, precision engineering, and robust components are generally more durable and can withstand heavy usage over an extended period.
2. Usage Patterns:
The usage patterns of the gas air compressor can impact its lifespan. If the compressor is used consistently and for extended periods, it may experience more wear and tear compared to compressors used intermittently or for lighter tasks. Heavy-duty applications, such as continuous operation with high-demand tools, can put more strain on the compressor and potentially reduce its lifespan.
3. Maintenance Practices:
Regular maintenance is crucial for extending the lifespan of a gas air compressor. Following the manufacturer’s recommended maintenance schedule, performing routine tasks like oil changes, filter cleaning/replacement, and inspection of components can help prevent issues and ensure optimal performance. Neglecting maintenance can lead to accelerated wear and potential breakdowns.
4. Environmental Conditions:
The operating environment can significantly impact the lifespan of a gas air compressor. Factors such as temperature extremes, humidity levels, presence of dust or debris, and exposure to corrosive substances can affect the compressor’s components and overall performance. Compressors used in harsh environments may require additional protection or specialized maintenance to mitigate these adverse conditions.
5. Proper Installation and Operation:
Proper installation and correct operation of the gas air compressor are essential for its longevity. Following the manufacturer’s guidelines for installation, ensuring proper ventilation, maintaining correct oil levels, and operating within the compressor’s specified capacity and pressure limits can help prevent excessive strain and premature wear.
Considering these factors, a well-maintained gas air compressor can typically last anywhere from 10 to 15 years or even longer. However, it’s important to note that this is a general estimate, and individual results may vary. Some compressors may experience shorter lifespans due to heavy usage, inadequate maintenance, or other factors, while others may last well beyond the expected lifespan with proper care and favorable conditions.
Ultimately, investing in a high-quality gas air compressor, adhering to recommended maintenance practices, and using it within its intended capabilities can help maximize its lifespan and ensure reliable performance for an extended period.
.webp)
What Is the Role of Air Receivers in Gas Air Compressor Systems?
Air receivers play a crucial role in gas air compressor systems by serving as storage tanks for compressed air. Here’s a detailed explanation:
1. Storage and Stabilization:
The primary function of an air receiver is to store compressed air generated by the gas air compressor. As the compressor produces compressed air, the air receiver collects and stores it. This storage capacity helps meet fluctuating demand in compressed air usage, providing a buffer between the compressor and the system’s air consumption.
By storing compressed air, the air receiver helps stabilize the supply to the system, reducing pressure fluctuations and ensuring a consistent and reliable flow of compressed air. This is particularly important in applications where the demand for compressed air may vary or experience peaks and valleys.
2. Pressure Regulation:
Another role of the air receiver is to assist in pressure regulation within the gas air compressor system. As compressed air enters the receiver, the pressure inside increases. When the pressure reaches a predetermined upper limit, typically set by a pressure switch or regulator, the compressor stops supplying air, and the excess air is stored in the receiver.
Conversely, when the pressure in the system drops below a certain lower limit, the pressure switch or regulator signals the compressor to start, replenishing the compressed air in the receiver and maintaining the desired pressure level. This cycling of the compressor based on pressure levels helps regulate and control the overall system pressure.
3. Condensate Separation:
During the compression process, moisture or condensate can form in the compressed air due to the cooling effect. The air receiver acts as a reservoir that allows the condensate to settle at the bottom, away from the outlet. The receiver often includes a drain valve at the bottom to facilitate the removal of accumulated condensate, preventing it from reaching downstream equipment and causing potential damage or performance issues.
4. Energy Efficiency:
Air receivers contribute to energy efficiency in gas air compressor systems. They help optimize the operation of the compressor by reducing the occurrence of short-cycling, which refers to frequent on-off cycling of the compressor due to rapid pressure changes. Short-cycling can cause excessive wear on the compressor and reduce its overall efficiency.
The presence of an air receiver allows the compressor to operate in longer and more efficient cycles. The compressor runs until the receiver reaches the upper pressure limit, ensuring a more stable and energy-efficient operation.
5. Air Quality Improvement:
Depending on the design, air receivers can also aid in improving air quality in the compressed air system. They provide a space for the compressed air to cool down, allowing moisture and some contaminants to condense and separate from the air. This can be further enhanced with the use of additional filtration and drying equipment installed downstream of the receiver.
In summary, air receivers play a vital role in gas air compressor systems by providing storage capacity, stabilizing compressed air supply, regulating system pressure, separating condensate, improving energy efficiency, and contributing to air quality control. They are an integral component in ensuring the reliable and efficient operation of compressed air systems across various industries and applications.
What Is a Gas Air Compressor?
A gas air compressor is a type of air compressor that is powered by a gas engine instead of an electric motor. It uses a combustion engine, typically fueled by gasoline or diesel, to convert fuel energy into mechanical energy, which is then used to compress air. Here’s a detailed explanation of a gas air compressor:
1. Power Source:
A gas air compressor utilizes a gas engine as its power source. The engine can be fueled by gasoline, diesel, or other types of combustible gases, such as natural gas or propane. The combustion engine drives the compressor pump to draw in air and compress it to a higher pressure.
2. Portable and Versatile:
Gas air compressors are often designed to be portable and versatile. The gas engine provides mobility, allowing the compressor to be easily transported and used in different locations, including remote job sites or areas without access to electricity. This makes gas air compressors suitable for applications such as construction projects, outdoor activities, and mobile service operations.
3. Compressor Pump:
The compressor pump in a gas air compressor is responsible for drawing in air and compressing it. The pump can be of various types, including reciprocating, rotary screw, or centrifugal, depending on the specific design of the gas air compressor. The pump’s role is to increase the pressure of the incoming air, resulting in compressed air that can be used for various applications.
4. Pressure Regulation:
Gas air compressors typically feature pressure regulation mechanisms to control the output pressure of the compressed air. This allows users to adjust the pressure according to the requirements of the specific application. The pressure regulation system may include pressure gauges, regulators, and safety valves to ensure safe and reliable operation.
5. Applications:
Gas air compressors find applications in a wide range of industries and activities. They are commonly used in construction sites for powering pneumatic tools such as jackhammers, nail guns, and impact wrenches. Gas air compressors are also utilized in agriculture for operating air-powered machinery like sprayers and pneumatic seeders. Additionally, they are employed in recreational activities such as inflating tires, sports equipment, or inflatable structures.
6. Maintenance and Fuel Considerations:
Gas air compressors require regular maintenance, including engine servicing, oil changes, and filter replacements, to ensure optimal performance and longevity. The type of fuel used in the gas engine also needs to be considered. Gasoline-powered compressors are commonly used in smaller applications, while diesel-powered compressors are preferred for heavy-duty and continuous operation due to their higher fuel efficiency and durability.
Overall, a gas air compressor is an air compressor that is powered by a gas engine, offering mobility and versatility. It provides compressed air for various applications and is commonly used in construction, agriculture, and outdoor activities. Regular maintenance and fuel considerations are essential to ensure reliable operation and optimal performance.
editor by CX 2024-04-22
China Hot selling Oil Free Reciprocating Low Pressure Oxygen Compressor air compressor lowes
Product Description
Oil Free Oxygen Compressor Low Cost for Operation
Introduction
Cape-Golden Oil Free Oxygen Compressor is no liquid lubricant in the body and no liquid lubricant in the crankcase supporting the crankshaft. Piston ring and guide ring is made of high quality modified PTFE with self-lubricating performance. The main parts of stainless steel and copper, aluminum and other material is not easy to produce sparks, all bearings with seals prevent loss of grease, the high pressure Oil Free Oxygen Compressor lubrication system, the movement of the friction pair of grease are the antioxidant of Oil Free Oxygen Compressor special grease.
Product Specification
| Model |
Capacity/ Flow Rate |
Inlet Pressure | Discharge Pressure | Power | Weight | Dimension(L*W*H) |
| WWZ-3/4-150 | 3m³/h | 3-4bar | 150bar | 4kw | 140kg | 1080X820X850mm |
| WWZ-5/4-150 | 5m³/h | 3-4bar | 150bar | 5.5kw | 210kg | 1080X820X850mm |
| WWZ-10/4-150 | 10m³/h | 3-4bar | 150bar | 7.5kw | 350kg | 1080X900X850mm |
| WWZ-15/4-150 | 15m³/h | 3-4bar | 150bar | 11kw | 350kg | 1250X1571X850mm |
| WWZ-20/4-150 | 20m³/h | 3-4bar | 150bar | 15kw | 470kg | 1250X1571X850mm |
| WWZ-30/4-150 | 30m³/h | 3-4bar | 150bar | 15kw | 500kg | 1350X1571X900mm |
| WWZ-40/4-150 | 40m³/h | 3-4bar | 150bar | 15kw | 500kg | 1600X1100X1100mm |
| WWZ-50/4-150 | 50m³/h | 3-4bar | 150bar | 15kw | 500kg | 1600X1100X1100mm |
Oxygen Compressor Control Mode
Oil Free Oxygen Compressor adopts inlet, exhaust pressure switch + inlet and exhaust solenoid valve automatic control.
The Oil Free Oxygen Compressor‘s electrical control loop is connected with the inlet and exhaust pressure switch, in which the inlet pressure switch is normally open, used for the protection of shutdown when the inlet pressure is too low.
The exhaust pressure switch is normally closed, which is used for stopping protection when the exhaust pressure is too high. The specific control principle is: when the air source pressure reaches the upper limit of the intake pressure switch set value, the pressure switch is closed, press the start button at this time, the motor runs, the intake electromagnetic power is opened, the exhaust solenoid valve is disconnected, and the fan starts running and the compressor works normally.
When the exhaust pressure rises to the upper limit of the exhaust pressure switch set value, the exhaust pressure switch acts and the machine stops running. At the same time, the inlet solenoid valve is disconnected and closed.
When the exhaust pressure drops to the lower limit set by the exhaust pressure switch, the exhaust pressure switch is closed, and the machine continues to operate. The oxygen bottling machine needs to be manually reset and run. When the air source pressure falls to the lower limit of the intake pressure switch set value, the intake pressure switch is disconnected, and the machine stops running in standby state.
When the air source pressure is restored to the upper limit of the inlet pressure switch set value, the inlet pressure switch is closed and the machine continues to run.
Temperature protection, each stage of the compressor is equipped with temperature sensor, when the exhaust temperature of a stage is too high, the alarm will stop.
Operation & Maintenance
Keep the Oil Free Oxygen Compressor clean, observe diligently, deal with abnormal situation in time, do not let the compressor work with failure. Compressor disassembly maintenance or replacement parts must be carried out by experienced maintenance personnel or the production plant to avoid unnecessary losses.
It is necessary to check whether the voltage and current deviation is too large to prevent over-voltage or under-voltage operation and damage to the motor.
During the normal operation of the compressor, it is easy not to disconnect the power supply. In case of power failure or power failure for other reasons, the power supply must be cut off to stop the work.
If any abnormal sound is found during the operation of the compressor, it should be stopped immediately for inspection.
Show
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Usage: | Hydrogen, Nitrogen, Oxygen, Ozone |
|---|---|
| Purpose: | Gas Filling |
| Parts: | Valve |
| Application Fields: | Medical |
| Noise Level: | Low |
| Machine Size: | Medium |
| Samples: |
US$ 7720/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
How Do Gas Air Compressors Compare to Diesel Air Compressors?
When comparing gas air compressors to diesel air compressors, there are several factors to consider, including fuel efficiency, power output, cost, maintenance requirements, and environmental impact. Here’s a detailed explanation of how these two types of air compressors compare:
1. Fuel Efficiency:
Diesel air compressors are generally more fuel-efficient compared to gas air compressors. Diesel engines have higher energy density and better overall efficiency than gasoline engines. This means that diesel compressors can produce more work output per unit of fuel consumed, resulting in lower fuel costs and longer runtimes between refueling.
2. Power Output:
Diesel air compressors typically provide higher power output compared to gas air compressors. Diesel engines are known for their robustness and ability to generate higher torque, making them suitable for heavy-duty applications that require a larger volume of compressed air or higher operating pressures.
3. Cost:
In terms of upfront cost, gas air compressors are generally more affordable compared to diesel air compressors. Gasoline engines and components are typically less expensive than their diesel counterparts. However, it’s important to consider long-term costs, including fuel expenses and maintenance, which can vary depending on factors such as fuel prices and usage patterns.
4. Maintenance Requirements:
Diesel air compressors often require more regular maintenance compared to gas air compressors. This is because diesel engines have additional components such as fuel filters, water separators, and injector systems that need periodic servicing. Gas air compressors, on the other hand, may have simpler maintenance requirements, resulting in reduced maintenance costs and time.
5. Environmental Impact:
When it comes to environmental impact, diesel air compressors produce higher emissions compared to gas air compressors. Diesel engines emit more particulate matter, nitrogen oxides (NOx), and carbon dioxide (CO2) compared to gasoline engines. Gas air compressors, especially those powered by propane, tend to have lower emissions and are considered more environmentally friendly.
6. Portability and Mobility:
Gas air compressors are generally more portable and easier to move compared to diesel air compressors. Gasoline engines are typically lighter and more compact, making gas air compressors suitable for applications where mobility is essential, such as construction sites or remote locations.
It’s important to note that the specific requirements of the application and the availability of fuel sources also play a significant role in choosing between gas air compressors and diesel air compressors. Each type has its own advantages and considerations, and the choice should be based on factors such as the intended usage, operating conditions, budget, and environmental considerations.
In conclusion, gas air compressors are often more affordable, portable, and suitable for lighter applications, while diesel air compressors offer higher power output, fuel efficiency, and durability for heavy-duty operations. Consider the specific needs and factors mentioned above to determine the most appropriate choice for your particular application.
Can Gas Air Compressors Be Used for Natural Gas Compression?
Gas air compressors are not typically used for natural gas compression. Here’s a detailed explanation:
1. Different Compressed Gases:
Gas air compressors are specifically designed to compress atmospheric air. They are not typically designed or suitable for compressing natural gas. Natural gas, which is primarily composed of methane, requires specialized compressors designed to handle the unique properties and characteristics of the gas.
2. Safety Considerations:
Natural gas compression involves handling a flammable and potentially hazardous substance. Compressing natural gas requires specialized equipment that meets stringent safety standards to prevent leaks, minimize the risk of ignition or explosion, and ensure the safe handling of the gas. Gas air compressors may not have the necessary safety features or materials to handle natural gas safely.
3. Equipment Compatibility:
Natural gas compression systems typically include components such as gas compressors, gas coolers, separators, and control systems that are specifically designed and engineered for the compression and handling of natural gas. These components are built to withstand the specific demands and conditions associated with natural gas compression, including the high pressures and potential presence of impurities.
4. Efficiency and Performance:
Compressing natural gas requires specialized compressors that can handle the high-pressure ratios and volumetric flow rates associated with the gas. Gas air compressors are generally not designed to achieve the same compression ratios and performance levels required for natural gas compression. Using gas air compressors for natural gas compression would likely result in inefficient operation and suboptimal performance.
5. Regulatory Compliance:
Compressing natural gas is subject to various regulations and standards to ensure safety, environmental protection, and compliance with industry guidelines. These regulations often dictate specific requirements for equipment, materials, and operating procedures in natural gas compression systems. Gas air compressors may not meet these regulatory requirements for natural gas compression.
6. Industry Standards and Practices:
The natural gas industry has well-established standards and best practices for equipment selection, installation, and operation in gas compression systems. These standards are based on the specific requirements and characteristics of natural gas. Gas air compressors do not align with these industry standards and practices, which are essential for safe and efficient natural gas compression.
In summary, gas air compressors are not suitable for natural gas compression. Natural gas compression requires specialized equipment designed to handle the unique properties and safety considerations associated with the gas. Compressors specifically engineered for natural gas compression offer the necessary performance, safety features, and regulatory compliance required for efficient and reliable operation in natural gas compression systems.
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 2024-04-10
China supplier Gd-150/2-20 Best Price High Flow Helium Nitrogen Gas Oil-Free Diaphragm Compressor small air compressor
Product Description
Reciprocating Completely Oil-Free Diaphragm Compressor
( Blue Font To View Hyperlink)
Our company specialize in producing various kinds of compressor products, such as:Diaphragm compressor,Piston compressor, Air compressors,Nitrogen generator,Oxygen generator ,Gas cylinder,etc. All products can be customized according to your parameters and other requirements.
Process Principle
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.
Main Structure
Diaphragm compressor structure is mainly composed of motor, base, crankcase, crankshaft linkage mechanism, cylinder components, crankshaft connecting rod, piston, oil and gas pipeline, electric control system and some accessories.
Gas Media
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)
GD Model Instruction
GD diaphragm compressor is a special structure of the volumetric compressor, is the highest level of compression in the field of gas compression, this compression method Without secondary pollution, it can ensure the purity of gas is more than 5, and it has very good protection against compressed gas. It has the characteristics of large compression ratio, good sealing performance, and the compressed gas is not polluted by lubricating oil and other CHINAMFG impurities. Therefore, it is suitable for compressing high-purity, rare and precious, flammable, explosive, toxic, harmful, corrosive and high-pressure gases. The compression method is generally specified in the world for compressing high-purity gas, flammable and explosive gas, toxic gas and oxygen. Etc. (such as nitrogen diaphragm compressor, oxygen diaphragm compressor, hydrogen sulfide diaphragm compressor, argon diaphragm compressor, etc.).
GD diaphragm compressor for my company independent research and development of large diaphragm compressor, its advantages are: high compression ratio, large displacement, large piston force, stable running, high exhaust pressure, etc, has been widely used and petroleum chemical industry and nuclear power plant, and so on,.Two GD type diaphragm compressor cylinder arrangement for symmetrically arranged in parallel, more suitable for the petrochemical and nuclear power plant such as uninterrupted operation for a long time, because of the cylinder body symmetry, run up against other arrangement of diaphragm compressor is the most stable operation, running, small vibration from the ground clearance is more convenient in maintenance.
Advantages
1.Good sealing performance
Diaphragm compressor is a kind of special structure displacement compressor.The gas does not need lubrication,the sealing performance is good,the compression medium does not contact with any lubricant,and there will be no pollution in the compression process.It is especially suitable for high purity(99.9999%),rate,extremely corrosive,toxic and harmful,inflammable and explosive.Compression,transportation and bottle filling of radioactive gases.Membrane head is sealed with inlaid double O-ring,and its sealing effect is far better than that of open type.
2.Cylinder has good heat dissipation performance
The working cylinder of diaphragm compressor has good heat dissipation performance and is close to isothermal compression.It can adopt higher compression ratio and is suitable for compressing high-pressure gas.
3.Compressor speed is low and service life of vulnerable parts is prolonged.The new type of diaphragm cavity curve improve the volume efficiency of the compressor,optimize the value type,and adopt special heat treatment method for diaphragm,which greatly improves the service life of the compressor.
4.The high efficiency cooler is adopted,which makes the whole machine low in temperature and high in efficiency.The service life of lubricating oil,O-ring and value spring can be prolonged appropriately .Under the condition of meeting the buyer’s technological parameters,the structure is more advanced,reasonable and energy-saving.
5.The diaphragm rupture alarm structure is advanced,reasonable and reliable.The diaphragm installation has no directionality and is easy to replace.
6.The parts and components of the whole equipment are concentrated on a skid-mounted chassis,which is convenient for transportation,installation and management.
Reference Operating Parameter:
| Model | GD-120/4-80 | Remarks | |
| Volume Flow | Nm3/h | 120 | No-Standard |
| Working pressure | Suction pressure: | 0.4MPa | No-Standard |
| Exhaust pressure: | 8.0MPa | No-Standard | |
| Cooling Method | Water-Cooled | No-Standard | |
| Intake temperature | °C | 0~30 | |
| Inlet pressure | MPa | 0.3~0.4 | |
| Discharge temperature | °C | ≤45ºC | |
| Noise | dB(A) | ≤80 | |
| Power/Frequence | V/Hz | 380/50 | No-Standard |
| Motor Power | Kw | 22KW~200KW | No-Standard |
| Crankshaft speed | r/min | 420 | |
| Overall dimension | L/mm | 3000 | |
| W/mm | 1600 | ||
| H/mm | 1400 | ||
Reference Specification
| 1 | GD-120/4-80 | 3.0 | 120 | 0.4 | 8.0 | 3000x1600x1400 | 30 | |
| 2 | GD-130/0.98-11 | 3.0 | 130 | 0.098 | 1.1 | 3000x1800x1600 | 4.0 | 30 |
| 3 | GD-150/2-20 | 3.0 | 150 | 0.2 | 2.0 | 3000x1800x1600 | 4.0 | 37 |
| 4 | GD-100/0.1-5 | 4.0 | 100 | 0.01 | 0.5 | 2800X1500X1500 | 3.0 | 18.5 |
| 5 | GD-100/5.5-200 | 5.0 | 100 | 0.55 | 20 | 3200X2000X1600 | 4.5 | 45 |
| 6 | GD-80/0.12-4 | 5.0 | 80 | 0.012 | 0.4 | 2800x1600x 1500 | 3.8 | 15 |
| 7 | GD-60/0.3-6 | 4.0 | 60 | 0.03 | 0.6 | 2800x1600x1500 | 4.0 | 15 |
| 8 | GD-70/0.1-8 | 3.8 | 70 | 0.01 | 0.8 | 3000 x 1600×1250 | 5.0 | 18.5 |
| 9 | GD-40/0.02-160 | 5.0 | 40 | 0.02 | 16 | 2800x1460x1530 | 3.0 | 22 |
| 10 | GD-100/0.5-6 | 2.0 | 100 | 0.05 | 0.6 | 3000x2000x1560 | 6.0 | 18.5 |
| 11 | GD-36/1-150 | 4.0 | 36 | 0.1 | 15 | 3000x1500x1500 | 4.0 | 45 |
| 12 | GD-35/0.7-300 | 4.0 | 35 | 0.07 | 30 | 3000x1600x1500 | 4.0 | 22 |
| 13 | GD-500/15-35 | 4.5 | 500 | 1.5 | 3.5 | 3000x2000x1700 | 4.0 | 45 |
| 14 | GD-150/15-210 | 4.5 | 150 | 1.5 | 21 | 3200x1700x1600 | 4.0 | 45 |
| 15 | GD-120/8-220 | 4.5 | 120 | 0.8 | 22 | 3200x1700x1600 | 3.8 | 45 |
| 16 | GD-100/9 | 4.5 | 100 | 0.0 | 0.9 | 3200x1700x1800 | 4.5 | 22 |
| 17 | GD-100/1.5-150 | 4.5 | 100 | 0.15 | 15 | 3200x1700x1800 | 4.5 | 45 |
| 18 | GD-40/30 | 4.5 | 40 | 0.0 | 3.0 | 3200x1700x1800 | 4.0 | 18.5 |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Principle: | Reciprocating Compressor |
|---|---|
| Application: | High Back Pressure Type |
| Performance: | Low Noise, Variable Frequency, Explosion-Proof, Corrosion-Proof |
| Mute: | Mute |
| Lubrication Style: | Oil-free |
| Drive Mode: | Electric |
| Customization: |
Available
|
|
|---|
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.
What Is the Impact of Altitude on Gas Air Compressor Performance?
Altitude can have a significant impact on the performance of gas air compressors. Here’s a detailed explanation:
1. Decreased Air Density:
As altitude increases, the air density decreases. This reduction in air density affects the performance of gas air compressors, primarily because compressors rely on the intake of ambient air to generate compressed air. With lower air density at higher altitudes, the compressor’s ability to draw in a sufficient volume of air is reduced.
2. Reduced Compressor Output:
The decrease in air density directly affects the compressor’s output. Gas air compressors may experience a decrease in their maximum airflow and pressure capabilities at higher altitudes. This reduction in output can impact the compressor’s efficiency and its ability to deliver the required compressed air for various applications.
3. Increased Compressor Workload:
At higher altitudes, gas air compressors need to work harder to maintain the desired level of compressed air output. The reduced air density means the compressor must compress a larger volume of air to achieve the same pressure as it would at lower altitudes. This increased workload can lead to higher energy consumption, increased wear and tear on the compressor components, and potentially decreased overall performance and lifespan.
4. Engine Power Loss:
If the gas air compressor is powered by an internal combustion engine (such as gasoline or diesel), altitude can also impact the engine’s performance. As the air density decreases, the engine may experience a power loss due to reduced oxygen availability for combustion. This can result in reduced engine horsepower and torque, affecting the compressor’s ability to generate compressed air.
5. Considerations for Proper Sizing:
When selecting a gas air compressor for use at higher altitudes, it is crucial to consider the specific altitude conditions and adjust the compressor’s size and capacity accordingly. Choosing a compressor with a higher airflow and pressure rating than required at sea level can help compensate for the reduced performance at higher altitudes.
6. Maintenance and Adjustments:
Regular maintenance and adjustments are necessary to optimize the performance of gas air compressors operating at higher altitudes. This includes monitoring and adjusting the compressor’s intake systems, fuel-to-air ratio, and ignition timing to account for the reduced air density and maintain proper combustion efficiency.
In summary, altitude has a notable impact on the performance of gas air compressors. The decrease in air density at higher altitudes leads to reduced compressor output, increased compressor workload, potential engine power loss, and considerations for proper sizing and maintenance. Understanding these effects is crucial for selecting and operating gas air compressors effectively in various altitude conditions.
Are There Different Types of Gas Air Compressors Available?
Yes, there are different types of gas air compressors available, each designed to suit specific applications and requirements. These different types vary in terms of design, power source, configuration, and intended use. Here’s a detailed explanation of the various types of gas air compressors:
1. Reciprocating Gas Air Compressors:
Reciprocating gas air compressors, also known as piston compressors, use a reciprocating motion of one or more pistons to compress the air. These compressors are commonly used for small to medium-scale applications and are available in both single-stage and two-stage configurations. Single-stage compressors compress the air in a single stroke, while two-stage compressors use an additional cylinder for further compression, resulting in higher pressures.
2. Rotary Screw Gas Air Compressors:
Rotary screw gas air compressors utilize two interlocking helical screws to compress the air. These compressors are known for their continuous and efficient operation, making them suitable for demanding industrial applications. They are often used in industries such as manufacturing, construction, and automotive where a constant supply of compressed air is required.
3. Rotary Vane Gas Air Compressors:
Rotary vane gas air compressors use a rotor with sliding vanes to compress the air. As the rotor rotates, the vanes slide in and out, creating compression chambers that compress the air. These compressors are compact, reliable, and often used for smaller-scale applications or in situations where space is limited.
4. Centrifugal Gas Air Compressors:
Centrifugal gas air compressors operate by accelerating the air using a high-speed impeller. The accelerated air is then redirected into a diffuser, which converts the velocity energy into pressure energy. These compressors are commonly used for large-scale applications requiring high volumes of compressed air, such as in power plants, refineries, or chemical processing industries.
5. Oil-Free Gas Air Compressors:
Oil-free gas air compressors are designed to provide clean, oil-free compressed air. They feature special sealing mechanisms and materials to prevent oil contamination in the compressed air. These compressors are commonly used in industries where oil-free air is essential, such as food and beverage processing, pharmaceuticals, electronics manufacturing, and painting applications.
6. Portable Gas Air Compressors:
Portable gas air compressors are specifically designed for mobility and ease of transportation. These compressors often feature wheels, handles, or trailers for convenient movement. They are commonly used in construction sites, remote job locations, outdoor events, or other situations where compressed air is needed at different locations.
7. High-Pressure Gas Air Compressors:
High-pressure gas air compressors are designed to generate compressed air at elevated pressures. These compressors are used in applications that require air pressure higher than the standard range, such as in diving operations, breathing air systems, or specialized industrial processes.
8. Biogas Air Compressors:
Biogas air compressors are specifically designed to compress biogas, which is generated from the decomposition of organic matter. These compressors are used in biogas production facilities, landfills, wastewater treatment plants, or agricultural operations where biogas is produced and utilized as an energy source.
These are just a few examples of the different types of gas air compressors available. Each type has its own advantages and is suitable for specific applications based on factors such as required airflow, pressure, mobility, oil-free operation, and environmental considerations. It’s important to choose the appropriate type of gas air compressor based on the specific needs of the application to ensure optimal performance and efficiency.
editor by CX 2024-04-09
China wholesaler Zw-1.5/1-12 Small Oil-Free Lubricated Nitrogen Piston Compressor Stable Quality Natural Gas Compressor air compressor oil
Product Description
HangZhou CHINAMFG Gas Equipment Co.,Ltd, exporting diaphragm compressor, piston compressor, oxygen generator, gas cylinder and nitrogen generators with good quality and low price.
Piston compressor is a kind of piston reciprocating motion to make gas pressurization and gas delivery compressor mainly consists of working chamber, transmission parts, body and auxiliary parts. The working chamber is directly used to compress the gas, the piston is driven by the piston rod in the cylinder for reciprocating motion, the volume of the working chamber on both sides of the piston changes in turn, the volume decreases on 1 side of the gas due to the pressure increase through the valve discharge, the volume increases on 1 side due to the reduction of air pressure through the valve to absorb the gas.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | 18 Months |
|---|---|
| Warranty: | 18 Months |
| Lubrication Style: | Lubricated |
| Cooling System: | Air Cooling |
| Cylinder Arrangement: | Balanced Opposed Arrangement |
| Cylinder Position: | Angular |
| Customization: |
Available
|
|
|---|
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.
What Is the Role of Air Receivers in Gas Air Compressor Systems?
Air receivers play a crucial role in gas air compressor systems by serving as storage tanks for compressed air. Here’s a detailed explanation:
1. Storage and Stabilization:
The primary function of an air receiver is to store compressed air generated by the gas air compressor. As the compressor produces compressed air, the air receiver collects and stores it. This storage capacity helps meet fluctuating demand in compressed air usage, providing a buffer between the compressor and the system’s air consumption.
By storing compressed air, the air receiver helps stabilize the supply to the system, reducing pressure fluctuations and ensuring a consistent and reliable flow of compressed air. This is particularly important in applications where the demand for compressed air may vary or experience peaks and valleys.
2. Pressure Regulation:
Another role of the air receiver is to assist in pressure regulation within the gas air compressor system. As compressed air enters the receiver, the pressure inside increases. When the pressure reaches a predetermined upper limit, typically set by a pressure switch or regulator, the compressor stops supplying air, and the excess air is stored in the receiver.
Conversely, when the pressure in the system drops below a certain lower limit, the pressure switch or regulator signals the compressor to start, replenishing the compressed air in the receiver and maintaining the desired pressure level. This cycling of the compressor based on pressure levels helps regulate and control the overall system pressure.
3. Condensate Separation:
During the compression process, moisture or condensate can form in the compressed air due to the cooling effect. The air receiver acts as a reservoir that allows the condensate to settle at the bottom, away from the outlet. The receiver often includes a drain valve at the bottom to facilitate the removal of accumulated condensate, preventing it from reaching downstream equipment and causing potential damage or performance issues.
4. Energy Efficiency:
Air receivers contribute to energy efficiency in gas air compressor systems. They help optimize the operation of the compressor by reducing the occurrence of short-cycling, which refers to frequent on-off cycling of the compressor due to rapid pressure changes. Short-cycling can cause excessive wear on the compressor and reduce its overall efficiency.
The presence of an air receiver allows the compressor to operate in longer and more efficient cycles. The compressor runs until the receiver reaches the upper pressure limit, ensuring a more stable and energy-efficient operation.
5. Air Quality Improvement:
Depending on the design, air receivers can also aid in improving air quality in the compressed air system. They provide a space for the compressed air to cool down, allowing moisture and some contaminants to condense and separate from the air. This can be further enhanced with the use of additional filtration and drying equipment installed downstream of the receiver.
In summary, air receivers play a vital role in gas air compressor systems by providing storage capacity, stabilizing compressed air supply, regulating system pressure, separating condensate, improving energy efficiency, and contributing to air quality control. They are an integral component in ensuring the reliable and efficient operation of compressed air systems across various industries and applications.
What Are the Primary Applications of Gas Air Compressors?
Gas air compressors have a wide range of applications across various industries and activities. These compressors, powered by gas engines, provide a portable and versatile source of compressed air. Here’s a detailed explanation of the primary applications of gas air compressors:
1. Construction Industry:
Gas air compressors are extensively used in the construction industry. They power a variety of pneumatic tools and equipment, such as jackhammers, nail guns, impact wrenches, and concrete breakers. The portable nature of gas air compressors makes them ideal for construction sites where electricity may not be readily available or practical to use.
2. Agriculture and Farming:
Gas air compressors find applications in the agricultural sector. They are used to operate air-powered machinery and tools, including pneumatic seeders, sprayers, and agricultural pumps. Gas air compressors provide the necessary power to carry out tasks such as crop seeding, irrigation, and pest control in agricultural settings.
3. Recreational Activities:
Gas air compressors are commonly utilized in recreational activities. They are used to inflate tires, sports balls, inflatable structures, and recreational equipment such as air mattresses, rafts, and inflatable toys. Gas air compressors provide a convenient and portable solution for inflating various recreational items in outdoor settings.
4. Mobile Service Operations:
Gas air compressors are employed in mobile service operations, such as mobile mechanics, tire service providers, and mobile equipment repair services. These compressors power air tools and equipment required for on-site repairs, maintenance, and servicing of vehicles, machinery, and equipment. The mobility of gas air compressors allows service providers to bring their tools and compressed air source directly to the location of the service requirement.
5. Remote Job Sites:
Gas air compressors are well-suited for remote job sites or locations without access to electricity. They are commonly used in industries such as mining, oil and gas exploration, and remote construction projects. Gas air compressors power pneumatic tools, machinery, and drilling equipment in these environments, providing a reliable source of compressed air for operational needs.
6. Emergency and Backup Power:
In emergency situations or during power outages, gas air compressors can serve as a backup power source. They can power essential equipment and systems that rely on compressed air, such as emergency lighting, communication devices, medical equipment, and backup generators. Gas air compressors provide a reliable alternative power solution when electrical power is unavailable or unreliable.
7. Sandblasting and Surface Preparation:
Gas air compressors are used in sandblasting and surface preparation applications. They provide the high-pressure air necessary for propelling abrasive media, such as sand or grit, to remove paint, rust, or other coatings from surfaces. Gas air compressors offer the power and portability required for sandblasting operations in various industries, including automotive, metal fabrication, and industrial maintenance.
8. Off-Road and Outdoor Equipment:
Gas air compressors are commonly integrated into off-road and outdoor equipment, such as off-road vehicles, utility trucks, and recreational vehicles. They power air-operated systems, including air suspension systems, air brakes, air lockers, and air horns. Gas air compressors provide the necessary compressed air for reliable and efficient operation of these systems in rugged and outdoor environments.
Overall, gas air compressors have diverse applications in construction, agriculture, recreational activities, mobile service operations, remote job sites, emergency power backup, sandblasting, and various off-road and outdoor equipment. Their portability, versatility, and reliable power supply make them indispensable tools in numerous industries and activities.
editor by CX 2024-04-04