Oxygen flow meter types

By Published On: January 23rd, 2024Categories: News0 Comments on Oxygen flow meter types

Introduction: An oxygen flow meter is an important instrument widely used in medical devices and industrial applications for monitoring and controlling the flow of oxygen. This article will introduce several common types of oxygen flow meters and their application areas.

  1. Ball Float Flowmeter:

The ball float flowmeter is a traditional type that uses a floating ball to indicate the flow of oxygen. It consists of an upright glass tube, usually with graduated scale marks for reading the flow. Oxygen enters the glass tube through the pipeline, causing the float to rise or fall, reflecting the magnitude of the oxygen flow. This type of flowmeter is simple, cost-effective, and suitable for general oxygen flow monitoring.

  1. Orifice Flowmeter:

The orifice flowmeter determines the flow rate by measuring the pressure difference generated when oxygen passes through an orifice. It typically consists of a fixed orifice and a pressure sensor. When oxygen passes through the orifice, a pressure drop is formed, and by measuring this pressure difference, the flow rate of oxygen can be calculated. Orifice flowmeters offer high accuracy and reliability, making them widely used in medical devices and industrial processes that require precise control of oxygen flow.

  1. Vortex Flowmeter:

The vortex flowmeter is based on the principle of the vortex shedding effect. When oxygen passes through the vortex sensor in the fluid, vortices are formed. The sensor measures the frequency of these vortices and converts it into the flow rate of oxygen. Vortex flowmeters are suitable for high-temperature, high-pressure, and corrosive gas environments. They exhibit high stability and reliability. This type of flowmeter finds wide applications in industries such as chemical and petroleum.

Conclusion: Oxygen flow meters play a crucial role in medical devices and industrial applications. Choosing the appropriate type of oxygen flowmeter is essential to ensure accurate flow monitoring and control, based on specific application requirements. Ball float flowmeters are simple, cost-effective, and suitable for general flow monitoring. Orifice flowmeters offer high accuracy and reliability and are suitable for applications that require precise control of oxygen flow. Vortex flowmeters are ideal for measuring in harsh environments, exhibiting high stability and reliability. By selecting the appropriate type of oxygen flowmeter based on specific application needs, efficiency can be improved, and safety can be ensured.

Oxygen flow meter types

By Published On: January 23rd, 2024Categories: News0 Comments on Oxygen flow meter types

Introduction: An oxygen flow meter is an important instrument widely used in medical devices and industrial applications for monitoring and controlling the flow of oxygen. This article will introduce several common types of oxygen flow meters and their application areas.

  1. Ball Float Flowmeter:

The ball float flowmeter is a traditional type that uses a floating ball to indicate the flow of oxygen. It consists of an upright glass tube, usually with graduated scale marks for reading the flow. Oxygen enters the glass tube through the pipeline, causing the float to rise or fall, reflecting the magnitude of the oxygen flow. This type of flowmeter is simple, cost-effective, and suitable for general oxygen flow monitoring.

  1. Orifice Flowmeter:

The orifice flowmeter determines the flow rate by measuring the pressure difference generated when oxygen passes through an orifice. It typically consists of a fixed orifice and a pressure sensor. When oxygen passes through the orifice, a pressure drop is formed, and by measuring this pressure difference, the flow rate of oxygen can be calculated. Orifice flowmeters offer high accuracy and reliability, making them widely used in medical devices and industrial processes that require precise control of oxygen flow.

  1. Vortex Flowmeter:

The vortex flowmeter is based on the principle of the vortex shedding effect. When oxygen passes through the vortex sensor in the fluid, vortices are formed. The sensor measures the frequency of these vortices and converts it into the flow rate of oxygen. Vortex flowmeters are suitable for high-temperature, high-pressure, and corrosive gas environments. They exhibit high stability and reliability. This type of flowmeter finds wide applications in industries such as chemical and petroleum.

Conclusion: Oxygen flow meters play a crucial role in medical devices and industrial applications. Choosing the appropriate type of oxygen flowmeter is essential to ensure accurate flow monitoring and control, based on specific application requirements. Ball float flowmeters are simple, cost-effective, and suitable for general flow monitoring. Orifice flowmeters offer high accuracy and reliability and are suitable for applications that require precise control of oxygen flow. Vortex flowmeters are ideal for measuring in harsh environments, exhibiting high stability and reliability. By selecting the appropriate type of oxygen flowmeter based on specific application needs, efficiency can be improved, and safety can be ensured.