High-altitude regions have relatively low oxygen content in the air, which can be difficult for many short-term residents and tourists to adapt to. Currently, an effective solution is oxygen supply. There are various methods of oxygen supply, including common methods such as oxygen cylinders, diffuse oxygen supply, small household oxygen generators, and portable oxygen generators. Among these, diffuse oxygen supply can provide oxygen continuously over a long period, increasing the oxygen content in the local environment, significantly improving comfort for living or working. It is particularly suitable for high-altitude residents or public places such as hospitals, hotels, office buildings, dormitories, construction sites, and military units. However, its installation and maintenance are relatively more complex compared to other methods and rely on an electricity supply.

In fact, the installation of high-altitude diffuse oxygen generators involves multiple considerations, including technical structure, installation qualifications, environmental selection, equipment debugging, and more. Specifically:

Technical Structure: The high-altitude diffuse oxygen system includes a PSA (VSA) oxygen generation system, oxygen-rich air delivery and distribution piping, control systems, and oxygen-rich supply terminals. The PSA oxygen generation system can be further divided into components such as air compressors, oxygen generators, filter groups, oxygen boosters, and oxygen storage tanks. During installation, it is necessary to leave enough space for operation and maintenance to facilitate repair and upkeep by maintenance personnel.

Installation Qualifications: The project contractor must possess professional qualifications in central oxygen supply and pressure pipeline installation, as well as mechanical and electrical equipment installation, to ensure that the system installation meets standards and operates efficiently and safely.

Environmental Selection:

●The installation location should be well-ventilated and avoid direct sunlight. The equipment must be placed steadily and kept away from humid environments.

●There should be no obstacles near the equipment's air inlet. The equipment must be placed horizontally and not tilted.

●The equipment should maintain a certain distance from other buildings to ensure safety and reduce noise interference.

Equipment Debugging: After installation, the equipment must be inspected and tested to confirm it operates normally. Additionally, parameters such as oxygen flow rate, concentration, and pressure must meet the user's requirements.

In summary, the installation of high-altitude diffuse oxygen generators is a critical step in deploying a diffuse oxygen supply system. Through reasonable technical structure design, strict installation qualification requirements, appropriate environmental selection, detailed equipment debugging, and scientific usage precautions, the effectiveness of the diffuse oxygen system in high-altitude regions can be maximized. This is of great significance for improving the quality of life for local residents and tourists, as well as supporting the daily training of military personnel.