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Product Introduction
High-pressure oil-free oxygen booster is a device specifically designed for compressing oxygen. It utilizes oil-free lubrication technology (such as PTFE seals or water lubrication) to avoid oil contamination and ensure high oxygen purity and safety. Its core function is to boost low-pressure oxygen to high pressure (typically exceeding 15-300 MPa) to meet specialized industrial or medical needs.
Advantages
1. Safety and explosion-proof: The oil-free design eliminates the risk of lubricating oil coming into contact with high-pressure oxygen, preventing explosions.
2. High-purity output: Eliminates oil contamination, achieving oxygen purity exceeding 99.5%, making it suitable for industries such as medical and electronics.
3. Energy-saving and efficient: Multi-stage boosting technology reduces energy consumption and provides excellent stability.
4. Low maintenance: The oil-free design reduces mechanical wear and extends life.
Technical parameter
| NO. | Model | Capacity(m3/h) | Inlet P (Barg) | Outlet P (Barg) | Motor Power(Kw) | Inlet/Out Temp(℃) | Inlet Size | Outlet Size | Dimension L*W*H(mm) | Weight (kg) |
| 1 | GOW-1~3/4-150 | 1~3 | 3~4 | 150 | 1.5~3.0 | 45 | M14*1.5 | M14*1.5 | 850*640*680 | 140 |
| 2 | GOW-1~3/4-200 | 1~3 | 3~4 | 200 | 1.5~3.0 | 45 | M14*1.5 | M14*1.5 | 850*640*680 | 140 |
Main Application Industries
Medical: Filling medical oxygen cylinders, ventilator air supply.
Industrial: Laser cutting, aerospace fuel combustion support, ozone generators.
Energy: Fuel cell testing, hyperbaric oxygen chambers.
Research: Laboratory high-pressure gas experiments.
Frequently Asked Questions
Q1: Why is "oil-free" necessary?
A: Oxygen is highly combustible, and oil can cause explosions. Therefore, oil-free design is a rigid safety requirement.
Q2: How is the output pressure adjusted?
A: Pressure step-by-step control is achieved by adjusting the drive air pressure or an electrical control system.
Q3: Can it be used with other gases?
A: Customization is required, as the materials and seals must be adapted to the gas characteristics (e.g., hydrogen requires anti-permeation treatment).
Q4: Maintenance recommendations?
A: Regularly inspect the seals and filters to ensure no impurities enter the system.
Q5: How is it different from a conventional compressor?
A: Conventional compressors contain oil and are not explosion-proof. Oxygen boosters are designed specifically for high-pressure, high-purity oxygen, and require oxidation-resistant materials (such as stainless steel).
Product Introduction
High-pressure oil-free oxygen booster is a device specifically designed for compressing oxygen. It utilizes oil-free lubrication technology (such as PTFE seals or water lubrication) to avoid oil contamination and ensure high oxygen purity and safety. Its core function is to boost low-pressure oxygen to high pressure (typically exceeding 15-300 MPa) to meet specialized industrial or medical needs.
Advantages
1. Safety and explosion-proof: The oil-free design eliminates the risk of lubricating oil coming into contact with high-pressure oxygen, preventing explosions.
2. High-purity output: Eliminates oil contamination, achieving oxygen purity exceeding 99.5%, making it suitable for industries such as medical and electronics.
3. Energy-saving and efficient: Multi-stage boosting technology reduces energy consumption and provides excellent stability.
4. Low maintenance: The oil-free design reduces mechanical wear and extends life.
Technical parameter
| NO. | Model | Capacity(m3/h) | Inlet P (Barg) | Outlet P (Barg) | Motor Power(Kw) | Inlet/Out Temp(℃) | Inlet Size | Outlet Size | Dimension L*W*H(mm) | Weight (kg) |
| 1 | GOW-1~3/4-150 | 1~3 | 3~4 | 150 | 1.5~3.0 | 45 | M14*1.5 | M14*1.5 | 850*640*680 | 140 |
| 2 | GOW-1~3/4-200 | 1~3 | 3~4 | 200 | 1.5~3.0 | 45 | M14*1.5 | M14*1.5 | 850*640*680 | 140 |
Main Application Industries
Medical: Filling medical oxygen cylinders, ventilator air supply.
Industrial: Laser cutting, aerospace fuel combustion support, ozone generators.
Energy: Fuel cell testing, hyperbaric oxygen chambers.
Research: Laboratory high-pressure gas experiments.
Frequently Asked Questions
Q1: Why is "oil-free" necessary?
A: Oxygen is highly combustible, and oil can cause explosions. Therefore, oil-free design is a rigid safety requirement.
Q2: How is the output pressure adjusted?
A: Pressure step-by-step control is achieved by adjusting the drive air pressure or an electrical control system.
Q3: Can it be used with other gases?
A: Customization is required, as the materials and seals must be adapted to the gas characteristics (e.g., hydrogen requires anti-permeation treatment).
Q4: Maintenance recommendations?
A: Regularly inspect the seals and filters to ensure no impurities enter the system.
Q5: How is it different from a conventional compressor?
A: Conventional compressors contain oil and are not explosion-proof. Oxygen boosters are designed specifically for high-pressure, high-purity oxygen, and require oxidation-resistant materials (such as stainless steel).
