How to Save Money When Buying PSA Oxygen Generator

Your browser is not supported

You are using a browser we do not support any longer. To continue visiting our website, please choose one of the following supported browsers.

With competitive price and timely delivery, Lixin sincerely hope to be your supplier and partner.

Oxygen generators are becoming increasingly popular in a variety of industries due to their ability to produce pure oxygen on-site. This eliminates the need for companies to purchase oxygen cylinders, which can be expensive and time-consuming. In this article, we will explore how oxygen generators help achieve better results and save time and effort in various industries.

Oxygen generators are machines that generate oxygen by separating it from the air. They use a process called Pressure Swing Adsorption (PSA) to remove nitrogen and other gases from the air, leaving behind pure oxygen. This oxygen can be used in a variety of industries, including healthcare, mining, and metal fabrication.

One of the main benefits of using an oxygen generator is increased efficiency. Because an oxygen generator produces oxygen on-site, it eliminates the need for companies to purchase oxygen cylinders. This can save time and effort, as companies no longer need to wait for oxygen cylinders to be delivered and replaced. In addition, oxygen generators can produce oxygen at a much faster rate than cylinders, which can help to increase efficiency in industries that rely on oxygen.

Using an oxygen generator can also improve safety in various industries. Oxygen cylinders can be dangerous if they are not handled properly. They can leak, explode, or even cause fires. By using an oxygen generator, companies can eliminate the risk of cylinder-related accidents and injuries. This can help to create a safer work environment for employees.

Another benefit of using an oxygen generator is cost savings. Oxygen cylinders can be expensive to purchase and maintain. By using an oxygen generator, companies can eliminate the need to purchase cylinders, which can result in significant cost savings over time. In addition, because an oxygen generator produces oxygen on-site, companies can avoid the cost of shipping and handling cylinders.

Oxygen generators also provide an on-demand supply of oxygen, which can be particularly beneficial in industries that require a constant supply of oxygen. For example, in the healthcare industry, oxygen is essential for patient care. By using an oxygen generator, hospitals can ensure that they always have a supply of oxygen on hand, which can help to improve patient outcomes.

Using an oxygen generator can also improve the quality of oxygen being used in various industries. Oxygen cylinders can sometimes contain impurities, which can affect the quality of the oxygen being delivered to the end user. By using an oxygen generator, companies can produce pure oxygen that is free from impurities. This can help to improve the quality of products being produced in industries such as metal fabrication and glass blowing.

Finally, using an oxygen generator can also provide environmental benefits. Oxygen cylinders are often made from materials that are not biodegradable, which can contribute to environmental pollution. By using an oxygen generator, companies can reduce their reliance on cylinders, which can help to reduce waste and promote sustainability.

In conclusion, oxygen generators offer a variety of benefits in various industries. They can help to increase efficiency, improve safety, save costs, provide an on-demand supply of oxygen, improve quality, and provide environmental benefits. If you are in an industry that relies on oxygen, consider using an oxygen generator to achieve better results and save time and effort.

Air is about 78 percent nitrogen and 21 percent oxygen, with other molecules including carbon dioxide, argon and water. The oxygen from Air is very useful because of its high reactivity and is extracted for various industrial uses. It’s the second largest gas, by volume, used in industrial processes worldwide.

Around 55% of artificially produced oxygen is used in the manufacturing of steel where enriching the air with oxygen increases reaction rates. Oxygen is used in metal refining, fabrication, chemical and petroleum processing, pharmaceutical manufacture, glass and ceramic manufacture, paper manufacture, medicine and healthcare. Oxygen is also combined with other gases and used in gas welding, gas cutting, flame cleaning, flame hardening and flame straightening. And the source of all this oxygen is either Oxygen tanks or an on-site Oxygen Generator.

Oxygen Generators and Oxygen Concentrators use a similar working principle - Pressure Swing Adsorption. In Pressure Swing Adsorption the oxygen is separated from a compressed air stream by trapping nitrogen using adsorption.

If you are looking for more details, kindly visit PSA Oxygen Generator(jv,vi,ar).

Pressure swing adsorption relies on a characteristic of gases where, under high pressure, gases tend to get stuck to solid surfaces. They are "adsorbed" by the solid surface. More pressure means more gas is adsorbed by the surface. And if the pressure is decreased then the gas is released or desorbed.

The solid surface is called an adsorbent material, and certain adsorbent materials attract some gas components more strongly than others. In an oxygen generator system air is first compressed and passed through filters that remove any oil, water and other contaminants. The purified air is then passed into two adsorption towers which both have an adsorbent material called a zeolite bed.

Zeolite beds trap nitrogen molecules and allow oxygen molecules to stream through. At high pressure, the zeolite adsorbs nitrogen in large quantities. In the first half of the pressure swing cycle the first adsorption tower receives compressed air from the inlet. The cycle lasts about 3 seconds. The pressure in the first adsorption tower rises above atmospheric pressure and the zeolite traps nitrogen, gradually becoming saturated with it. Once the air passing the zeolite reaches near 100% pure oxygen the valve at the oxygen output opens and the oxygen-rich gas flows into another holding tank or system for productive use or further processing. By this time the zeolite bed has reached its maximum capacity to adsorb nitrogen. It’s capacity is regenerated however because when the pressure in the tower drops the adsorbed nitrogen is released.

The second half cycle begins as the valve to the first tower closes and the valve to the second tower opens. The first half of the cycle ends as the pressure in the first tower drops and nitrogen is desorbed.

The second half of the cycle takes place in the second tower but the process works in exactly the same way. This gives the adsorbent zeolite material in the first tower time to regenerate.

Excess nitrogen is vented through the exhaust to ensure that the oxygen purity at the output end stays above 90%.

Let’s compare having an on-site Oxygen Generator with the common practice of renting tanks from an oxygen tank supplier. Here’s what you need to consider:

You’re paying rent for a minimum of three oxygen tanks all times. One is being used, the second is a replacement and the third is the empty tank waiting to be collected.

Oxygen tanks take up a large amount of valuable floor space as they sit in their racks. And they need to be kept in an area that won’t create a health hazard.

They are also very heavy to maneuver and require special equipment and time to handle correctly.

Contamination inside the oxygen tank can occur over time when the pressure drops below 34 bar g. This creates an estimated 14% wastage of gas when you rent from a oxygen tank supplier.

Most of our customers started off by renting from oxygen tank suppliers. When they started looking into purchasing an oxygen generator it was usually because they had increased capacity needs and the amount of tank they needed to rent became difficult to manage.

For some of them their high oxygen gas requirements meant that their tanks could be consumed in a matter of days. Switching tanks also reduced their overall up-time, which can add up over the course of a year. Then there’s the issue of contaminants and inconsistent purity levels that they discovered when dealing with rented cylinders. They chose to invest in on-site Oxygen Generators because they wanted greater control over purity, cost-efficiency, and a continuous uninterrupted supply of oxygen for their work.

For more information, please visit PSA Nitrogen Generator.