As the global epidemic situation becomes increasingly severe, the medical systems in many countries are becoming more and more overwhelmed. One of the most high-profile problems is the lack of oxygen in hospitals. In order to solve this problem, many hospitals began to actively seek reliable oxygen supply to ensure that patients can get enough oxygen in time. At this time, the hospital oxygen generator has become a "life-saving straw".

So, what is a hospital oxygen generator? In simple terms, it is a device that extracts oxygen from the air, purifies it, and delivers it to devices used by hospital patients to meet their needs. It usually consists of two main parts: compressor and molecular sieve.

In a compressor, air is compressed into a high-pressure gas from which oxygen molecules are separated. In molecular sieves, oxygen molecules are subjected to special filtration to ensure that the purity of oxygen meets medical requirements.

The advantages of hospital oxygen generators over traditional cylinder oxygen supply methods are manifold. First of all, this device can always maintain a stable oxygen supply, avoiding the potential risks caused by the instability of the gas cylinder. Second, they greatly reduce the cost and workload that hospitals need to store and manage gas cylinders, saving the hospital time and effort. Finally, the use of this equipment can make the hospital more environmentally friendly, avoiding excessive use and disposal of gas cylinders.

In practice, hospital oxygen generators have been widely adopted. Gas cylinders are still required as a backup source of oxygen on rare occasions, and can be used in emergencies. However, it is still the first choice to use hospital oxygen concentrators as much as possible, because the oxygen supply method based on oxygen generation technology can significantly improve the efficiency and reliability of the medical system.

Thus, we can see that hospital oxygen concentrators are vital to modern medical systems, they are seen as an essential logistical support to provide the necessary energy for life. It is hoped that the development of future medical systems can further support and facilitate the development and use of these devices.