Product Description
Diaphragm compressor according to the needs of the user, choose the right type of compressor to meet the needs of the user. The diaphragm of the metal diaphragm compressor completely separates the gas from the hydraulic oil system to ensure the purity of the gas and no pollution to the gas. At the same time, advanced manufacturing technology and accurate membrane cavity design technology are adopted to ensure the service life of the diaphragm compressor diaphragm. No pollution: the metal diaphragm group completely separates the process gas from the hydraulic oil and lubricating oil parts to ensure the gas purity.
Our compressors can compress ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen chloride, hydrogen sulfide, hydrogen bromide, ethylene, acetylene, etc.(Nitrogen diaphragm compressor,bottle filling compressor,oxygen diaphragm compressor)
Advantage
1. Oil-free compression due to the hermetic separation between gas and oil chamber.
2. Abrasion-free compression due to static seals in the gas stream
3. Automatic shutdown in case of a diaphragm failure prevents damage
4. High Compression Ratios-Discharge pressure up to 1000bar.
5. Contamination Free Compression
6. Corrosion Resistance
7. High Reliability
Lubrication includes : oil free lubrication and splash lubrication
Cooling method includes: Water cooling and air cooling.
Type includes: V-type, W-type,D-type,Z-type
Product description
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 type
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
GV Model Instruction
GV 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.).
GV 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 GV type diaphragm compressor 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.
Product features:
1. Good sealing performance:
Diaphragm compressor is a kind of special structure positive displacement compressor, the gas does not need lubrication, good sealing performance, the compression medium does not contact with any lubricant, will not produce any contamination in the compression process, Especially suitable for high purity (99.9999% above), rare, highly corrosive, toxic ,harmful, flammable , explosive and radioactive gas compression, transportation and bottle filling.
2.Cylinder heat dissipation performance is good:
Compressor cylinder heat dissipation performance is good, close to isothermal compression, can use high compression ratio, suitable for compression of high pressure gas.
Technological advantage
1, Low of speed prolong the service life of wearing parts. The new membrane cavity curve improves the volume efficiency.optimizes the gas valve profile, and the diaphragm adopts a special heat treatment method, greatly prolongs the service life.
2, the use of high efficiency cooler, so that the temperature is low, high efficiency, can properly extend the life of lubricating oil, O-ring, valve spring. Under the condition of meeting the technological parameters, the structure is more advanced, reasonable and energy saving.
3, the cylinder head using Mosaic double O-ring seal, its sealing effect is far better than open head.
4, diaphragm rupture alarm structure advanced, reasonable, reliable, diaphragm installation is non-directional, easy to replace.
5. The parts of the whole equipment are concentrated on a common skid which is easy to transport, install and operation.
Application
Food industry, petroleum industry, chemical industry, electronics industry, nuclear power plant, aerospace, medicine, scientific research.
Outlet pressure at 50bar 200 bar, 350 bar (5000 psi), 450 bar, 500 bar, 700 bar (10,000 psi), 900 bar (13,000 psi) and other pressure can be customized .
How does a diaphragm compressor work?
A diaphragm compressor is a variant of the classic reciprocating compressor with backup and piston rings and rod seal. The compression of gas occurs by means of a flexible membrane, instead of an intake element. The back and forth moving membrane is driven by a rod and a crankshaft mechanism.
Parameter tables
| GV series diaphragm compressor parameter table | ||||||||
| No. | Model | Cooling water(L/h) | Flow(Nm³/h) | inlet pressure (MPa) |
outlet pressure (MPa) |
Dimensions L×W×H(mm) | Weight (Kg) |
Motor Power (kW) |
| Piston stroke is 70mm | ||||||||
| 1 | GV-8/8-160 | 500 | 8 | 0.8 | 16 | 1310×686×980 | 650 | 3 |
| 2 | GV-10/6-160 | 800 | 10 | 0.6~0.7 | 16 | 1200×600×1100 | 500 | 4 |
| 3 | GV-10/8-160 | 800 | 10 | 0.8 | 16 | 1330×740×1080 | 650 | 4 |
| 4 | GV-10/4-160 | 800 | 10 | 0.4 | 16 | 1330×740×1000 | 650 | 4 |
| 5 | GV-7/8-350 | 800 | 7 | 0.8 | 16 | 1300×610×920 | 800 | 4 |
| 6 | GV-15/5-160 | 800 | 15 | 0.5 | 16 | 1330×740×920 | 700 | 5.5 |
| 7 | GV-5/7-350 | 1000 | 5 | 0.7 | 35 | 1400×845×1100 | 800 | 5.5 |
| Piston stroke is 95mm | ||||||||
| 8 | GV-5/200 | 400 | 5 | Atmospheric pressure | 20 | 1500×780×1080 | 750 | 3 |
| 9 | GV-5/1-200 | 300 | 5 | 0.1 | 20 | 1520×800×1050 | 750 | 3 |
| 10 | GV-11/1-25 | 600 | 11 | 0.1 | 2.5 | 1500×780×1080 | 850 | 4 |
| 11 | GV-12/2-150 | 1000 | 12 | 0.2 | 15 | 1600×776×1080 | 750 | 5.5 |
| 12 | GV-20/W-160 | 800 | 20 | 1 | 16 | 1500×800×1200 | 800 | 5.5 |
| 13 | GV-30/5-30 | 800 | 30 | 0.5 | 1 | 1588×768×1185 | 980 | 5.5 |
| 14 | GV-10/1-40 | 400 | 10 | 0.1 | 4 | 1475×580×1000 | 1000 | 5.5 |
| 15 | GV-20/4 | 600 | 20 | Atmospheric pressure | 0.4 | 1500×900×1100 | 1000 | 5.5 |
| 16 | GV-70/5-10 | 500 | 70 | 0.5 | 1 | 1595×795×1220 | 1000 | 5.5 |
| 17 | GV-8/5-210 | 400 | 8 | 0.5 | 21 | 1600×880×1160 | 1571 | 5.5 |
| 18 | GV-20/1-25 | 400 | 20 | 0.1 | 2.5 | 1450×840×1120 | 1050 | 5.5 |
| 19 | GV-20/10 – 350 | 1200 | 20 | 1 | 35 | 1500×750×1140 | 800 | 7.5 |
| 20 | GV-15/5-350 | 1050 | 15 | 0.5 | 35 | 1600×835×1200 | 1000 | 7.5 |
| 21 | GV-20/8-250 | 1200 | 20 | 0.8 | 25 | 1520×825×1126 | 1000 | 7.5 |
| 22 | GV-12/5-320 | 1200 | 12 | 0.5 | 32 | 1600×835×1130 | 1000 | 7.5 |
| 23 | GV-15/8-350 | 1100 | 15 | 0.8 | 35 | 1520×820×1160 | 1571 | 7.5 |
| 24 | GV-18/10-350 | 1200 | 18 | 1 | 35 | 1255×800×1480 | 1200 | 7.5 |
| 25 | GV-35/4-25 | 300 | 35 | 0.4 | 2.5 | 1500×810×1100 | 1000 | 7.5 |
| 26 | GV-50/6.5-36 | 2250 | 50 | 0.65 | 3.6 | 1450×850×1120 | 1048 | 7.5 |
| 27 | GV-20/5-200 | 1200 | 20 | 0.5 | 20 | 1500×780×1080 | 800 | 7.5 |
| Piston stroke is 130mm | ||||||||
| 28 | GV-20/3-200 | 1200 | 20 | 0.3 | 20 | 2030×1125×1430 | 1800 | 15 |
| 29 | GV-25/5 -160 | 1200 | 25 | 0.5 | 16 | 1930×1150×1450 | 1800 | 15 |
| 30 | GV-40/0.5-10 | 1200 | 40 | 0.05 | 1.00 | 2035×1070×1730 | 1800 | 15 |
| 31 | GV-20/200 | 1200 | 20 | Atmospheric pressure | 20 | 1850×1160×1400 | 1850 | 15 |
| 32 | GV-90/30-200 | 1200 | 90 | 3 | 20 | 2030×970×1700 | 1800 | 22 |
| 33 | GV-30/8-350 | 2400 | 30 | 0.8 | 35 | 2030×1125×1430 | 1800 | 22 |
| 34 | GV-30/8-350 | 2400 | 30 | 0.8 | 35 | 2040×1125×1430 | 1800 | 22 |
| 35 | GV-60/10-160 | 3000 | 60 | 1 | 16 | 1800×1100×1400 | 1800 | 22 |
| 36 | GV-60/5-160 | 3000 | 60 | 0.5 | 16 | 2030×1125×1430 | 1800 | 22 |
| 37 | GV-40/10-400 | 2000 | 40 | 1 | 40 | 2000×1150×1500 | 1800 | 22 |
| 38 | GV-60/10-350 | 2400 | 60 | 1 | 35 | 2070×1125×1430 | 1800 | 22 |
| 39 | GV-30/5-350 | 2000 | 30 | 0.5 | 35 | 1900×1130×1450 | 2000 | 22 |
| 40 | GV-40/2.5-160 | 2000 | 40 | 0.25 | 16 | 1900×1130×1450 | 2000 | 22 |
| 41 | GV-150/3.5-30 | 2000 | 150 | 0.35 | 3 | 1900×1130×1450 | 2000 | 22 |
| 42 | GV-70/2.5-80 | 2000 | 70 | 0.25 | 8 | 1880×1060×1400 | 2120 | 22 |
| 43 | GV-80/2.5-80 | 2000 | 80 | 0.25 | 8 | 1880×1060×1400 | 2120 | 22 |
| 44 | GV-120/3.5-12 | 3600 | 120 | 0.35 | 1.2 | 2030×1045×1700 | 2200 | 22 |
| 45 | GV-100/7-25 | 1200 | 100 | 0.7 | 2.5 | 2030×1045×1700 | 1900 | 30 |
| 46 | GV-50/5-210 | 2000 | 50 | 0.5 | 21 | 1900×1130×1450 | 2000 | 30 |
| 47 | GV-80/5-200 | 2000 | 80 | 0.5 | 20 | 1900×1130×1450 | 2000 | 22 |
| 48 | GV-40/5-350 | 2000 | 40 | 0.5 | 35 | 1900×1130×1450 | 2000 | 30 |
Customized is accepted , Pls provide the following information to us ,then we will do the technical proposal and best price to you.
1.Flow rate: _______Nm3/h
2.Gas Media : ______ Hydrogen or Natural Gas or Oxygen or other gas
3.Inlet pressure: ___bar(g)
4.Inlet temperature:_____ºC
5.Outlet pressure:____bar(g)
6.Outlet temperature:____ºC
7.Installation location: _____indoor or outdoor
8.Location ambient temperature: ____ºC
9.Power supply: _V/ _Hz/ _3Ph
10.Cooling method for gas: air cooling or water cooing
Picture Dispaly
Company strength display
After Sales Service
1.Quick response within 2 to 8 hours, with a reaction rate exceeding 98%;
2. 24-hour telephone service, please feel free to contact us;
3. The whole machine is guaranteed for 1 year (excluding pipelines and human factors);
4. Provide consulting service for the service life of the whole machine, and provide 24-hour technical support via email;
5. On-site installation and commissioning by our experienced technicians;
Our customer
Applications
Exhibition Display
Certificate display
Packaging and Shipping
FAQ
1.How to get a prompt quotation of gas compressor ?
1)Flow Rate/Capacity : ___ Nm3/h
2)Suction/ Inlet Pressure : ____ Bar
3)Discharge/Outlet Pressure :____ Bar
4)Gas Medium :_____
5)Voltage and Frequency : ____ V/PH/HZ
2.How long is delivery time ?
Delivery time is around the 30-90 days .
3.What about the voltage of products? Can they be customized?
Yes, the voltage can be customized according to your inquire.
4.Can you accept OEM orders?
Yes, OEM orders is highly welcome.
5.Will you provide some spare parts of the machines?
Yes, we will .
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| After-sales Service: | Provide After-Sell Sevice |
|---|---|
| Warranty: | 18 Months |
| Principle: | Reciprocating Compressor |
| Application: | High Back Pressure Type |
| Performance: | Low Noise, Variable Frequency, Explosion-Proof |
| Mute: | Mute |
| Customization: |
Available
|
|
|---|
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Can Gas Air Compressors Be Used for High-Pressure Applications?
Gas air compressors can be used for high-pressure applications, but there are certain considerations to keep in mind. Here’s a detailed explanation:
Gas air compressors are available in various sizes and configurations, and their suitability for high-pressure applications depends on factors such as the compressor’s design, power output, and the specific requirements of the application. Here are some key points to consider:
1. Compressor Design:
Not all gas air compressors are designed to handle high-pressure applications. Some compressors are specifically built for low-to-medium pressure ranges, while others are designed to deliver higher pressure outputs. It is important to select a gas air compressor model that is rated for the desired pressure range. The compressor’s specifications and manufacturer’s guidelines will provide information on the maximum pressure it can generate.
2. Power Output:
The power output of a gas air compressor is a crucial factor in determining its suitability for high-pressure applications. High-pressure compressors require more power to achieve and sustain the desired pressure levels. It is important to ensure that the gas air compressor has sufficient power output to meet the demands of the specific high-pressure application.
3. Cylinder Configuration:
The cylinder configuration of the gas air compressor can also affect its ability to handle high-pressure applications. Compressors with multiple cylinders or stages are designed to generate higher pressures compared to compressors with a single cylinder. Multi-stage compressors compress the air in multiple steps, allowing for higher pressure ratios.
4. Safety Considerations:
High-pressure applications require careful attention to safety considerations. Gas air compressors used for high-pressure applications should be equipped with appropriate safety features such as pressure relief valves, pressure gauges, and safety shut-off systems. It is crucial to follow all safety guidelines and regulations to ensure safe operation.
5. Maintenance and Inspection:
Regular maintenance and inspection are essential for gas air compressors used in high-pressure applications. High-pressure operation can put additional stress on the compressor components, and proper maintenance helps ensure optimal performance and safety. Regular inspections and adherence to maintenance schedules will help identify and address any potential issues before they become major problems.
6. Application-specific Considerations:
Each high-pressure application may have specific requirements and considerations. It is important to evaluate factors such as the required pressure level, duty cycle, flow rate, and any specific environmental conditions that may impact the performance of the gas air compressor. Consulting with the compressor manufacturer or a qualified professional can help determine the suitability of a gas air compressor for a particular high-pressure application.
In summary, gas air compressors can be used for high-pressure applications, provided that they are designed, rated, and configured appropriately. It is essential to consider factors such as compressor design, power output, safety features, maintenance requirements, and application-specific considerations to ensure safe and reliable operation at high pressures.
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Can Gas Air Compressors Be Used for Sandblasting?
Yes, gas air compressors can be used for sandblasting. Sandblasting is a process that involves propelling abrasive materials, such as sand or grit, at high speeds to clean, etch, or prepare surfaces. Here’s a detailed explanation:
1. Compressed Air Requirement:
Sandblasting requires a reliable source of compressed air to propel the abrasive material. Gas air compressors, particularly those powered by gasoline or diesel engines, can provide the necessary compressed air for sandblasting operations. The compressors supply a continuous flow of compressed air at the required pressure to propel the abrasive material through the sandblasting equipment.
2. Portable and Versatile:
Gas air compressors are often portable and can be easily transported to different job sites, making them suitable for sandblasting applications in various locations. The portability of gas air compressors allows flexibility and convenience, especially when sandblasting needs to be performed on large structures, such as buildings, tanks, or bridges.
3. Pressure and Volume:
When selecting a gas air compressor for sandblasting, it is essential to consider the required pressure and volume of compressed air. Sandblasting typically requires higher pressures to effectively propel the abrasive material and achieve the desired surface treatment. Gas air compressors can provide higher pressure outputs compared to electric compressors, making them well-suited for sandblasting applications.
4. Compressor Size and Capacity:
The size and capacity of the gas air compressor should be chosen based on the specific requirements of the sandblasting project. Factors to consider include the size of the sandblasting equipment, the length of the air hose, and the desired duration of continuous operation. Selecting a gas air compressor with an appropriate tank size and airflow capacity ensures a consistent supply of compressed air during sandblasting.
5. Maintenance Considerations:
Regular maintenance is crucial for gas air compressors used in sandblasting applications. The abrasive nature of the sand or grit used in sandblasting can introduce particles into the compressor system, potentially causing wear or clogging. Regular inspection, cleaning, and maintenance of the compressor, including filters, valves, and hoses, help prevent damage and ensure optimal performance.
6. Safety Precautions:
When using gas air compressors for sandblasting, it is essential to follow appropriate safety precautions. Sandblasting generates airborne particles and dust, which can be hazardous if inhaled. Ensure proper ventilation, wear appropriate personal protective equipment (PPE), such as respiratory masks, goggles, and protective clothing, and follow recommended safety guidelines to protect the operator and others in the vicinity.
In summary, gas air compressors can be effectively used for sandblasting applications. They provide the necessary compressed air to propel abrasive materials, offer portability and versatility, and can deliver the required pressure and volume for efficient sandblasting operations. Proper compressor selection, maintenance, and adherence to safety precautions contribute to successful and safe sandblasting processes.
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How Does a Gas Air Compressor Work?
A gas air compressor works by utilizing a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air can then be used for various applications. Here’s a detailed explanation of how a gas air compressor operates:
1. Gas Engine:
A gas air compressor is equipped with a gas engine as its power source. The gas engine is typically fueled by gasoline, diesel, natural gas, or propane. When the engine is started, the fuel is combusted within the engine’s cylinders, generating mechanical energy in the form of rotational motion.
2. Compressor Pump:
The gas engine drives the compressor pump through a mechanical linkage, such as a belt or direct coupling. The compressor pump is responsible for drawing in atmospheric air and compressing it to a higher pressure. There are different types of compressor pumps used in gas air compressors, including reciprocating, rotary screw, or centrifugal, each with its own operating principles.
3. Intake Stroke:
In a reciprocating compressor pump, the intake stroke begins when the piston moves downward within the cylinder. This creates a vacuum, causing the inlet valve to open and atmospheric air to be drawn into the cylinder. In rotary screw or centrifugal compressors, air is continuously drawn in through the intake port as the compressor operates.
4. Compression Stroke:
During the compression stroke in a reciprocating compressor, the piston moves upward, reducing the volume within the cylinder. This compression action causes the air to be compressed and its pressure to increase. In rotary screw compressors, two interlocking screws rotate, trapping and compressing the air between them. In centrifugal compressors, air is accelerated and compressed by high-speed rotating impellers.
5. Discharge Stroke:
Once the air is compressed, the discharge stroke begins in reciprocating compressors. The piston moves upward, further reducing the volume and forcing the compressed air out of the cylinder through the discharge valve. In rotary screw compressors, the compressed air is discharged through an outlet port as the interlocking screws continue to rotate. In centrifugal compressors, the high-pressure air is discharged from the impeller into the surrounding volute casing.
6. Pressure Regulation:
Gas air compressors often include pressure regulation mechanisms to control the output pressure of the compressed air. This can be achieved through pressure switches, regulators, or control systems that adjust the compressor’s operation based on the desired pressure setting. These mechanisms help maintain a consistent and controlled supply of compressed air for the specific application requirements.
7. Storage and Application:
The compressed air produced by the gas air compressor is typically stored in a receiver tank or used directly for applications. The receiver tank helps stabilize the pressure and provides a reservoir of compressed air for immediate use. From the receiver tank, the compressed air can be distributed through pipelines to pneumatic tools, machinery, or other devices that require the compressed air for operation.
Overall, a gas air compressor operates by using a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air is then regulated and used for various applications, providing a reliable source of power for pneumatic tools, machinery, and other equipment.
editor by CX 2024-04-23