high pressure gas booster compressor for regeneration gas

The equipment is capable of boosting regas inlet pressures in the range of 3.68 MPa to 4.47 MPa to 3.99 MPa to 4.99 MPa to meet specific process requirements. Its high efficiency and stable performance make it an important part of many fields such as energy, chemical industry and experimental research.

Features of High Pressure Gas Booster Compressor

1. Low noise and low vibration: Utilizes optimized structural design and vibration damping measures to ensure smooth operation in high-pressure environments, reducing noise pollution. Suitable for settings with strict environmental requirements.
2. Compact structure and high automation: Small footprint, compact design, and integrated automation control system. Enables remote monitoring and control, improving operational convenience.
3. Multiple safety protection: Built-in sensors and protection mechanisms, including low oil pressure alarm, low water pressure alarm, high temperature alarm, low intake pressure alarm, and high exhaust pressure alarm to ensure safe and reliable operation.
4. Flexible configuration and adaptability: Supports various cooling methods (air-cooled, water-cooled, mixed-cooled) and structural forms (fixed, mobile, skid-mounted, sound-proof cabin) to adapt to different user needs and environments.
5. Oil-free lubrication design: Adopts oil-free lubrication technology to prevent gas contamination, especially suitable for food, pharmaceutical, and other industries requiring high gas purity.

Working Principle of High Pressure Gas Booster Compressor

The high pressure gas booster compressor pressurizes the gas through the following steps:
1. Intake stage: The equipment inhales regenerative gas or other gases from pipelines or storage tanks, with intake pressure between 3.68 to 4.47 MPa.
2. Compression stage: The gas enters a multi-stage compression system, is pressurized step by step by the high-efficiency compressor, and is cooled to maintain compression efficiency and equipment stability.
3. Booster output: The processed high-pressure gas is delivered to the exhaust side at 3.99 to 4.99 MPa for direct use in various industrial processes.

Application Areas of High Pressure Gas Booster Compressor

1. Energy and chemical industry: Oil and gas pipeline pressurization; gas field wellhead gas recovery and pressurization; gas pressurization and recycling in chemical production.
2. Electric power and new energy: Power plant gas supply and pressure stabilization; hydrogen, helium, and other special gases pressurization and storage.
3. Food and pharmaceutical industry: Food-grade gas supply (e.g., CO₂ filling); high purity gas supply for the pharmaceutical industry.
4. Scientific research and laboratories: Pressurized experiments with special gases; supply of gases for high-precision instruments.
5. Industrial manufacturing: Blowing systems, pipeline pressure testing and replacement; aerospace and other high-precision fields of gas supply.

High Pressure Gas Booster Compressor Structure

• Compressor host: Core pressurization component
• Electric motor: Drives the system
• Coupling and flywheel: Transmit power and buffer vibration
• Piping system: Connects intake, compression, exhaust, and other processes
• Cooling system: Maintains temperature stability (air-cooled/water-cooled/mixed cooling optional)
• Electrical equipment: Automation control, sensors, remote monitoring, etc.

Compressible Regenerative Gas Types

• Industrial gases: Nitrogen (N₂), carbon dioxide (CO₂), methane (CH₄), ethane (C₂H₆), propane (C₃H₈), natural gas (LNG), liquefied petroleum gas (LPG)
• Chemical gases: Ethylene (C₂H₄), difluoroethane, Freon, etc.
• Special application gases: Coal bed methane, helium (He), hydrogen (H₂), oxygen (O₂), and more