China high quality Gl-80/0.05-4 High Purity Carbon Monoxide Natural Gas Diaphragm Compressor Gl Series Explosion-Proof small air compressor

China High-Quality GL-80/0.05-4 High Purity Carbon Monoxide Natural Gas Diaphragm Compressor GL Series Explosion-Proof Small Air Compressor

The GL-80/0.05-4 High Purity Carbon Monoxide Natural Gas Diaphragm Compressor is a reciprocating completely oil-free diaphragm compressor designed for various industrial applications. It is manufactured using advanced technology and precise membrane cavity design to ensure its durability and efficiency. With its diaphragm separating the gas from the hydraulic oil system, this compressor guarantees gas purity and prevents any contamination.

Product Description

The GL-80/0.05-4 High Purity Carbon Monoxide Natural Gas Diaphragm Compressor is a completely oil-free compressor, making it ideal for applications that require high purity, such as compressing high-purity gases, including ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen sulfide, and more. Its advanced structure and design provide several advantages:


  1. Good sealing performance: The diaphragm compressor utilizes a special structure displacement design, ensuring excellent sealing performance. The gas compression process is free from lubricants, preventing pollution. This makes it suitable for high-purity, corrosive, toxic, inflammable, and explosive gases.
  2. Efficient heat dissipation: The working cylinder of the diaphragm compressor has excellent heat dissipation capabilities, allowing for close-to-isothermal compression. This enables higher compression ratios and makes it suitable for compressing high-pressure gases.
  3. Extended service life: The diaphragm compressor’s new cavity curve design improves volume efficiency and adopts a special heat treatment method for the diaphragm, significantly prolonging the compressor’s service life.
  4. Low compressor speed: The low speed of the compressor reduces wear on vulnerable parts, resulting in an extended service life. Additionally, the high-efficiency cooler improves overall efficiency while keeping the machine’s temperature low.
  5. Advanced alarm structure: The diaphragm rupture alarm structure is advanced, reliable, and ensures safe operation. The diaphragm installation is simple and doesn’t require a specific direction, making replacement easy.
  6. Convenient design: All components of the compressor are concentrated on a skid-mounted chassis, making transportation, installation, and management convenient.

The GL-80/0.05-4 High Purity Carbon Monoxide Natural Gas Diaphragm Compressor is available in various models, each with different specifications. Here are a few reference specifications:

Model Cooling Water Consumption (t/h) Displacement (Nm³/h) Intake Pressure (MPa) Exhaust Pressure (MPa) Dimensions L×W×H(mm) Weight (t) Motor Power (kW)
GL-10/160 1 10 atmo 16 2200×1200×1300 1.6 7.5
GL-25/15 1 25 tomo 1.5 2200×1200×1300 1.6 7.5
GL-20/12-160 1 20

Performance Characteristics of Gas Compressor

1. High Efficiency

Gas compressors are designed to operate with high efficiency, ensuring maximum compression and minimal energy loss. By utilizing advanced technology and optimized designs, gas compressors provide efficient compression of gases.

2. Reliable Operation

Gas compressors are known for their reliable operation, ensuring continuous and uninterrupted compression of gases. They are built with robust components and undergo strict quality control measures to ensure their performance and longevity.

3. Versatile Applications

Gas compressors find extensive applications in various industries due to their versatility. They are capable of compressing different types of gases, including natural gas, hydrogen, oxygen, and more. This allows them to be utilized in a wide range of industrial processes.

4. Compact Design

Gas compressors are designed to have a compact footprint, making them suitable for installations where space is limited. Despite their compact size, they offer high compression ratios and deliver exceptional performance.

Types and Characteristics of Gas Compressor

1. Reciprocating Gas Compressor

Reciprocating gas compressors utilize a piston-cylinder mechanism to compress gases. They are known for their high efficiency and ability to handle a wide range of operating conditions. These compressors are ideal for applications that require high compression ratios.

2. Centrifugal Gas Compressor

Centrifugal gas compressors use centrifugal force to compress gases. They are known for their ability to handle large volumes of gas and deliver continuous flow. These compressors are widely used in industries where a constant and high flow rate is required.

3. Screw Gas Compressor

Screw gas compressors employ two interlocking screws to compress gases. They are highly efficient, reliable, and capable of handling varying gas volumes. These compressors are commonly used in applications where a steady flow of compressed gas is needed.

Advantages of Gas Compressor Made of Different Materials

1. Stainless Steel Gas Compressor

Gas compressors made of stainless steel offer excellent resistance to corrosion and are suitable for applications involving corrosive gases. They provide long-term durability and reliability, making them ideal for industries such as chemical processing.

2. Cast Iron Gas Compressor

Gas compressors made of cast iron exhibit high strength and can withstand high pressures. They are commonly used in heavy-duty applications where durability and robustness are essential, such as in the oil and gas industry.

3. Aluminum Gas Compressor

Gas compressors made of aluminum are lightweight and offer good heat transfer properties. They are often used in applications where portability and efficient cooling are required, such as in automotive and aerospace industries.

Application of Gas Compressor

1. Oil and Gas Industry

Gas compressors play a vital role in the oil and gas industry by facilitating the transportation and processing of natural gas, as well as enhancing oil recovery operations.

2. Power Generation and Energy Storage

Gas compressors are used in power plants and energy storage systems to compress gases for efficient energy generation and storage. They help optimize energy conversion processes and contribute to a more sustainable power supply.

3. Medical and Healthcare

In the medical and healthcare sector, gas compressors are used for various applications, including supplying compressed air and gases for medical equipment, supporting respiratory therapy, and facilitating medical gas pipeline systems.

4. Automotive Industry

Gas compressors are utilized in the automotive industry for various purposes, such as compressing air for pneumatic tools, supporting air suspension systems, and enabling efficient fuel delivery in fuel cell vehicles.

5. Chemical Industry

The chemical industry relies on gas compressors for processes such as gas separation, gas recycling, and gas compression during chemical reactions. They ensure efficient operation and contribute to the production of various chemicals.

Future Development Trends and Opportunities

With the increasing demand for energy efficiency and sustainable practices, the gas compressor industry is expected to witness significant advancements. Some future trends and opportunities include:

1. Integration of IoT and Automation

Gas compressors are likely to incorporate IoT (Internet of Things) technologies and automation to enable real-time monitoring, predictive maintenance, and enhanced operational efficiency.

2. Adoption of Renewable Energy Sources

As the world shifts towards renewable energy sources, gas compressors will play a crucial role in compressing gases generated from renewable sources such as biogas, hydrogen, and natural gas.

3. Development of Energy Storage Systems

Gas compressors will contribute to the development of energy storage systems, allowing efficient compression and storage of gases for later use, ensuring a stable energy supply.

4. Emphasis on Environmental Sustainability

Future gas compressors will focus on reducing environmental impact by utilizing eco-friendly refrigerants, improving energy efficiency, and implementing advanced emission control technologies.

How to Choose a Suitable Gas Compressor

When selecting a gas compressor, consider the following aspects:

1. Clear Requirements

Define your specific requirements regarding gas type, flow rate, pressure, and temperature to ensure the chosen compressor meets your needs.

2. Material Selection

Choose a gas compressor made of materials suitable for your application, considering factors such as corrosion resistance, strength, and compatibility with the gases being compressed.

3. Design Optimization

Look for compressors with optimized designs that maximize efficiency, reliability, and ease of maintenance. Consider features such as cooling systems, noise reduction, and safety measures.

4. Suppliers and After-Sales Service

Select reputable suppliers who offer reliable products and comprehensive after-sales service, including maintenance, spare parts availability, and technical support.

5. Cost-Effectiveness

Evaluate the upfront cost, energy consumption, and maintenance expenses to determine the long-term cost-effectiveness of the gas compressor.

6. Quality Control

Ensure the chosen gas compressor undergoes stringent quality control processes, adhering to industry standards and certifications, guaranteeing its performance and reliability.

Author: Dream