China best Oil Free High Pressure Oxygen Compressor Nitrogen Compressor Booster (Gow-20/4-150 CE Approval) air compressor oil

China Best Oil Free High Pressure Oxygen Compressor Nitrogen Compressor Booster (Gow-20/4-150 CE Approval) Air Compressor Oil

Product Description

The Oil Free High Pressure Oxygen Compressor Nitrogen Compressor Booster (Gow-20/4-150 CE Approval) is a four-stage compression, completely oil-free compressor. It operates at low noise levels, lower than 75db, meeting medical standards. The compressor has a long service life and simple operation, making it easy for employees to operate after simple training.

There are two types of cooling available for this oilless reciprocating piston type high-pressure oxygen compressor: air cooling and water cooling. It comes in single acting and double acting types, with different structural variations such as vertical and angle types. This series of high-pressure oilless oxygen compressors offer excellent performance, stable operation, high efficiency, energy conservation, and long service life. They are widely used for oxygen cylinder filling, chemical processes, and plateau oxygen supply. When used with an oxygen making machine, it forms a simple and safe high-pressure oxygen system.

The friction pair of this series compressor involved in gas compression does not use thin oil lubrication. The friction seals, such as piston ring and guide ring, are made of special materials with self-lubricating properties. The advantages of this compressor are:

  1. No thin oil lubrication in the whole compression system, ensuring the safe use of the compressor with high-pressure and high-purity oxygen gas.
  2. Simple structure, convenient control, and easy operation.
  3. No oil pollution to the compressed medium – oxygen gas, ensuring consistent purity of the oxygen gas at the inlet and outlet of the compressor.

Oxygen Compressor Specifications

  • For Cylinder Filling
  • Capacity: 1-300Nm3/h
  • Inlet pressure: 0.3-0.4Mpa
  • Discharge pressure: 15/20Mpa
  • Power: 2.5-90kw
  • The compressor inlet is equipped with a Y-filter; The compressor adopts packing seal.
  • The maximum average speed of the piston is 0.5 m/s, and the crankshaft speed is 190 r/min.
  • The compressor valve adopts reed valve, and the valve material is imported Swedish steel strip to ensure long-term stable work under the effect of alternating stress.
  • The main bearing of the compressor adopts high-quality self-sealing type rolling bearing.

The Integrated Solutions for Medical Gas System

The Medical Gas Supply System Fittings include Zone Valve Box, Gas Regulator Box, and Monitoring Alarm Box.

Zone Valve Box Gas Regulator Box Monitoring Alarm Box

1. Used to control the on and off of medical gases in the area.

2. 1~6 channels of medical gas can be controlled according to user requirements.

3. Silver and copper welding to prevent leakage.

4. Transparent window for easy operation and maintenance.

5. Each gas is marked with a national standard color for easy identification.

1. Used to provide a pressure-stable source of gas for the clinic.

2. With dual circuit design, it can be maintained without stopping the gas.

3. Use a large flow reducer to ensure pressure stability.

4. Emergency door lock device to close the valve in an emergency.

5. Transparent window for easy operation and maintenance.

1. Monitor the pressure of the gas supply and alarm when the pressure is too high or too low.

2. Monitor the moisture content, oxygen concentration, and CO content in oxygen, giving alarms against any deviation from the standard set value. It also has powerful data post-processing and remote data transfer functions.

Medical Gas Supply System Gas Management

The pressure monitoring alarm box is used to monitor the pipeline pressure of the medical center air supply system and respond to pressure changes through a digital microprocessor. When the pressure is higher or lower than the set value, the system will automatically alarm by sound and light, etc., to remind the management to timely process the medical center air supply system.

Comprehensive data collection allows monitoring of the source gases and gas-consuming areas in the hospital. Central

Performance Characteristics of Oxygen Compressors

1. High Compression Efficiency

Oxygen compressors are designed to efficiently compress oxygen gas, ensuring maximum output and performance. The compression process is carefully engineered to minimize energy consumption while maintaining high compression ratios.

2. Reliable Operation

These compressors are built to provide dependable and consistent operation. By utilizing advanced technology and robust construction, they offer reliable performance even in demanding environments. This ensures continuous and uninterrupted oxygen supply.

3. Compact and Space-Saving

Oxygen compressors are designed to be compact and space-saving. Their small footprint allows for easy installation in various settings, making them suitable for both small-scale and large-scale applications.

4. Low Noise and Vibration

Efforts have been made to reduce noise and vibration during the operation of oxygen compressors. By incorporating soundproofing materials and effective vibration dampening systems, they provide a quieter and more comfortable working environment.

5. Precise Control and Monitoring

Modern oxygen compressors are equipped with advanced control and monitoring systems. These enable precise adjustment of compression parameters and real-time monitoring of key performance indicators, ensuring optimal operation and efficiency.

Types and Characteristics of Oxygen Compressors

1. Piston Compressors

Piston compressors utilize reciprocating motion to compress oxygen gas. They are known for their high compression ratios and are suitable for applications requiring higher pressure output. These compressors can handle a wide range of oxygen flow rates and are often used in industrial and medical settings.

2. Rotary Screw Compressors

Rotary screw compressors use a pair of intermeshing screws to compress oxygen gas. They offer a continuous and smooth operation, making them ideal for applications requiring a constant supply of compressed oxygen. These compressors are widely used in industries such as oxygen generation systems and environmental applications.

3. Scroll Compressors

Scroll compressors utilize two spiral-shaped scrolls to compress oxygen gas. They are compact, lightweight, and known for their quiet operation. These compressors are commonly used in portable oxygen concentrators and medical devices due to their efficiency and reliability.

Advantages of Oxygen Compressors Made of Different Materials

1. Aluminum Alloy

Oxygen compressors made of aluminum alloy offer excellent corrosion resistance and lightweight properties. They are suitable for portable and mobile applications, providing convenience and ease of transportation.

2. Stainless Steel

Oxygen compressors constructed with stainless steel provide superior durability and resistance to harsh environments. They are commonly used in industrial applications where corrosion resistance and longevity are essential.

3. Titanium Alloy

Titanium alloy oxygen compressors are highly regarded for their exceptional strength, low weight, and excellent corrosion resistance. They are often utilized in aerospace and medical industries where high performance and reliability are crucial.

Application of Oxygen Compressors

Oxygen compressors find valuable applications in various fields, including:

Oxygen Therapy

Oxygen compressors play a vital role in delivering concentrated oxygen to patients for therapeutic purposes. They ensure a steady supply of oxygen for individuals with respiratory conditions, promoting better health and well-being.

Oxygen Generation Systems

These compressors are integral components of oxygen generation systems, which produce oxygen from ambient air. They enable the efficient compression of oxygen gas, allowing for its storage and distribution to meet diverse industrial needs.

Medical Applications

In medical settings, oxygen compressors are used for various applications, such as anesthesia, respiratory support, and surgical procedures. Their reliability and performance are essential for maintaining patient safety and providing precise oxygen delivery.

Industrial Applications

Industries utilize oxygen compressors for applications like metal cutting, welding, and chemical processing. The compressors ensure a constant and reliable supply of compressed oxygen, enhancing productivity and efficiency.

Environmental Applications

Oxygen compressors are employed in environmental applications such as water treatment and waste management. They facilitate processes that require the use of oxygen, contributing to effective and sustainable environmental practices.

Safety-Related Purposes

Oxygen compressors are critical for safety-related purposes, including firefighting, emergency response, and hazardous gas detection and control. They provide the necessary oxygen supply for ensuring the safety and well-being of individuals in critical situations.

Future Development Trends and Opportunities

The future of oxygen compressor products holds exciting prospects for innovation and advancement. Some key trends and opportunities include:

1. Enhanced Energy Efficiency

Continued research and development efforts aim to improve the energy efficiency of oxygen compressors. This will help reduce energy consumption, operating costs, and environmental impact.

2. Integration of IoT Technology

The integration of Internet of Things (IoT) technology can enable remote monitoring and control of oxygen compressor systems. This connectivity enhances efficiency, predictive maintenance, and performance optimization.

3. Focus on Sustainable Solutions

The industry is shifting towards more sustainable solutions, including the use of renewable energy sources and eco-friendly materials. This focus on sustainability presents opportunities for the development of greener oxygen compressor technologies.

Choosing a Suitable Oxygen Compressor

When selecting an oxygen compressor, consider the following aspects:

1. Clear Requirements

Clearly define your specific requirements, including the desired oxygen flow rate, pressure levels, and application needs. This will help you choose a compressor that meets your specific demands.

2. Material Selection

Evaluate the materials used in the construction of the compressor. Consider factors such as corrosion resistance, durability, and suitability for the intended environment.

3. Design Optimization

Optimized compressor designs can offer improved efficiency, reduced noise, and better performance. Consider compressors with advanced design features that align with your requirements.

4. Suppliers and After-Sales Service

Choose reputable suppliers who provide quality products and reliable after-sales service. This ensures timely support, maintenance, and spare parts availability.

5. Cost-Effectiveness and Quality Control

Evaluate the overall cost-effectiveness of the compressor, considering factors such as initial investment, operational costs, and maintenance requirements. Additionally, ensure that the compressor undergoes rigorous quality control measures to guarantee its performance and longevity.

Author: Dream