Oxygen gas boosters have been around for a long time. These gas boosters are utilized for a variety of applications. As the name suggests, these devices are used for increasing gas pressures of oxygen by compressing them. It is obvious for anyone to think, how do these gas boosters work? Read this post to get answer to this question, and know about applications of these gas booster systems.

Working of an Oxygen Gas Booster

Most Air Driven Gas Boosters feature a cylinder and a piston. The cylinder is designed to withstand different operating pressures. Pressure is usually controlled with a piston, which is driven back and forth inside the cylinder. The cylinder head features discharge and supply ports, which are again connected to pipes or discharge hoses, and non-return valves. These valves help direct the flow of gas in one direction. When the booster is not working, the piston will not act, which means the gas will flow from the inlet hose, and the inlet valve, and fill the space between the piston and the cylinder head.

If the outlet hose has low pressure then gas will flow out towards the component connected to the hose. This flow stops when the pressure equalization takes place. This equalization depends on the opening pressures of valves. The booster starts working when the flow stops. Volume of space between the piston crown and the cylinder head increases when the piston draws along the cylinder.

In the return cycle, the volume of the space between the cylinder head and the piston crown decreases. This state continues until there is sufficient pressure to overcome the opening pressure of the outlet valve, and the outlet line. In this state, gas flows out of the cylinder via the port, and the outlet valve.

Gas compression is always accompanied by a temperature rise. Hence, gas boosters are always cooled with external fins or water jackets. Oxygen gas boosters are always made from oxygen compatible materials to avoid fire initiated by compressed oxygen.

Gas boosters can be configured for continuous or automated operations. Continuous operations help avoid pressure fluctuations, as well as wear and tear on drives, motors, and belts. However, automated operations help control noise, and energy consumption. The choice between the two modes entirely depends on a user’s requirement.

Many advanced oxygen gas boosters are equipped with low inlet pressure device that shuts down, if the set pressure falls below 10 mbar. This helps protect the gas supply main from getting affected during booster operation.

Applications of Oxygen Gas Boosters

The following are a few well-known applications of oxygen gas boosters

• Laser Cutting
• Gas Transfer and Charging in Defense and Aviation
• Life Support
• Fire Fighting
• Industrial Equipment Manufacturing
• Medical Resuscitation
• Diving
• Oxygen bottle charging

By looking at the applications of oxygen gas boosters, one can understand the significant role played by these systems. Hence, it is very important that you source these boosters from a reliable supplier like High Pressure Technologies, LLC. The company provides rebreather oxygen gas boosters from industry-leading brand Maximator. These gas boosters are used for sports and recreation purposes.