SHELOK YFV Vortex Flow Meter Working Principle and Application Scenarios

The SHELOK YFV Vortex Flow Meter is a versatile instrument that finds extensive application in various industries, including petroleum, chemical, metallurgy, thermal, textile, and paper making. It is specifically designed for the measurement and control of superheated steam, saturated steam, compressed air, gases (such as oxygen, chlorine, natural gas, coal gas), as well as liquids like water, gasoline, alcohol, and benzene. In this blog post, we will explore the working principle of the SHELOK YFV Vortex Flow Meter and highlight its key application scenarios.

Working Principle:

The working principle of the SHELOK YFV Vortex Flow Meter is based on the generation and detection of Karman vortex street. It involves the insertion of a bluff vortex generator, also known as a bluff body, into the fluid flow. As the fluid passes the vortex generator, two regular vortex generators are formed alternately on both sides.

These vortices, collectively known as Karman vortex street, are asymmetrically arranged downstream of the vortex generator. By measuring the separation frequency of these vortices, the instantaneous flow rate can be calculated. The relationship between the frequency of vortex occurrence (f), the average velocity of the fluid (V), the width of the vortex generating body (d), and the diameter of the surface body (D) can be described by the formula:

f = St × V / d

In this equation, f represents the frequency of Karman vortex generated on one side of the generator, St refers to the Strohal number (a dimensionless parameter), V denotes the average velocity of the fluid, and d represents the width of the vortex generator.

Application Scenarios:

The SHELOK YFV Vortex Flow Meter is employed in a wide range of industrial scenarios due to its versatility and reliability. Some notable application scenarios include:

  • Petroleum Industry:Used for measuring the flow of various petroleum products, such as crude oil, gasoline, and diesel fuel.
  • Chemical Industry: Enables precise measurement and control of liquid and gas flows in chemical processes, including the transportation of corrosive chemicals and chemical reactions.
  • Metallurgy Industry:Used in the measurement and control of gases and liquids in metallurgical processes, such as the flow of cooling water and industrial gases.
  • Thermal Industry:Allows for accurate measurement of steam flow in power plants, boilers, and other thermal systems.
  • Textile Industry:Facilitates the measurement of liquid flows in textile dyeing and printing processes.
  • Paper Making Industry:Used for measuring the flow of water and chemicals in paper production and processing.

The SHELOK YFV Vortex Flow Meter operates on the principle of Karman vortex street, enabling precise measurement and control of fluid flows in various industrial applications. Its widespread usage in industries such as petroleum, chemical, metallurgy, thermal, textile, and paper making underscores its reliability and versatility. By understanding the working principle and exploring its application scenarios, industries can leverage the SHELOK YFV Vortex Flow Meter to enhance process efficiency, optimize resource utilization, and ensure accurate measurement and control of fluid flows.

SHELOK YFV Vortex Flow Meter Working Principle and Application Scenarios

The SHELOK YFV Vortex Flow Meter is a versatile instrument that finds extensive application in various industries, including petroleum, chemical, metallurgy, thermal, textile, and paper making. It is specifically designed for the measurement and control of superheated steam, saturated steam, compressed air, gases (such as oxygen, chlorine, natural gas, coal gas), as well as liquids like water, gasoline, alcohol, and benzene. In this blog post, we will explore the working principle of the SHELOK YFV Vortex Flow Meter and highlight its key application scenarios.

Working Principle:

The working principle of the SHELOK YFV Vortex Flow Meter is based on the generation and detection of Karman vortex street. It involves the insertion of a bluff vortex generator, also known as a bluff body, into the fluid flow. As the fluid passes the vortex generator, two regular vortex generators are formed alternately on both sides.

These vortices, collectively known as Karman vortex street, are asymmetrically arranged downstream of the vortex generator. By measuring the separation frequency of these vortices, the instantaneous flow rate can be calculated. The relationship between the frequency of vortex occurrence (f), the average velocity of the fluid (V), the width of the vortex generating body (d), and the diameter of the surface body (D) can be described by the formula:

f = St × V / d

In this equation, f represents the frequency of Karman vortex generated on one side of the generator, St refers to the Strohal number (a dimensionless parameter), V denotes the average velocity of the fluid, and d represents the width of the vortex generator.

Application Scenarios:

The SHELOK YFV Vortex Flow Meter is employed in a wide range of industrial scenarios due to its versatility and reliability. Some notable application scenarios include:

  • Petroleum Industry:Used for measuring the flow of various petroleum products, such as crude oil, gasoline, and diesel fuel.
  • Chemical Industry: Enables precise measurement and control of liquid and gas flows in chemical processes, including the transportation of corrosive chemicals and chemical reactions.
  • Metallurgy Industry:Used in the measurement and control of gases and liquids in metallurgical processes, such as the flow of cooling water and industrial gases.
  • Thermal Industry:Allows for accurate measurement of steam flow in power plants, boilers, and other thermal systems.
  • Textile Industry:Facilitates the measurement of liquid flows in textile dyeing and printing processes.
  • Paper Making Industry:Used for measuring the flow of water and chemicals in paper production and processing.

The SHELOK YFV Vortex Flow Meter operates on the principle of Karman vortex street, enabling precise measurement and control of fluid flows in various industrial applications. Its widespread usage in industries such as petroleum, chemical, metallurgy, thermal, textile, and paper making underscores its reliability and versatility. By understanding the working principle and exploring its application scenarios, industries can leverage the SHELOK YFV Vortex Flow Meter to enhance process efficiency, optimize resource utilization, and ensure accurate measurement and control of fluid flows.