PSA O2 plants are really, really cool machines that go towards keeping the air that we breathe clean and healthy! These plants utilize a unique process called Pressure Swing Adsorption (PSA) to produce oxygen by separating it from the air. Toxins Pollutants (2020) PSA O2 plants work by removing harmful toxins and pollutants to purify the air, which is essential in maintaining our well being and keep us healthy.
Two types of hospitals and healthcare centers require PSA O2 plants to serve patients with life-saving oxygen therapy. When someone is sick or injured, but having trouble breathing, medical oxygen can often help that person feel better and recover more quickly. This is why PSA O2 plants are critical in healthcare – they guarantee that doctors and nurses always have a steady flow of pure medical oxygen to use to help maintain the life of their patients.
PSA O2 plants are like breathing life-preservers. In cases of emergencies such as accidents, natural disasters and medical surgeries, availability of medical oxygen is the difference between life and death. PSA O2 plants mean that there is never a shortage of oxygen in hospitals and clinics when patients need to be treated quickly, and this means lives saved - millions every day.
Medical oxygen is scarce or nonexistent in many parts of the world. That’s a big problem, because oxygen therapy is crucial to treating a variety of medical conditions, from pneumonia and asthma to heart failure and Covid-19. With a PSA O2 plant at hospitals and health care facilities, we can expand access to medical oxygen and assist more people in getting the support they need to be healthy and happy.
PSA O2 plants function by employing something called Pressure Swing Adsorption to sift oxygen out of the air. Here’s how it works: first, air is drawn into the plant, where it is filtered through a unique filter designed to capture pollutants and impurities. From there, the air is compressed and passed through a set of molecular sieves that screen out the oxygen molecules from the other gases, such as nitrogen and carbon dioxide. The clean oxygen is then gathered and stored in containers for medical treatment and therapies.