Understanding the role of valves in industrial processes

Valves play a vital role in governing the movement of liquids and gases in diverse industrial procedures. To ensure utmost effectiveness and safeguard, it is essential to comprehend the valve yield and its influence on the efficiency and efficacy of the system. In this blog, we will investigate everything you need to grasp about valve yield.

What is Valve Yield?

Valve yield refers to the capacity of fluid that a valve can handle or regulate as it progresses through the system. This yield is measured in different units based on the application.
The yield of a valve is typically categorized as a consequence of its dimensions, structure, and composition. A larger valve will possess a superior yield ability compared to a smaller valve, implying that it can govern a more substantial amount of fluid or gas.
Besides size, the variety of valve can also influence its yield capacity. Certain valves are purposefully devised to manage particular types of fluid or gas, hence they may be optimized for specific uses.

Understanding Valve Flow

Valve flow is another pivotal facet of valve yield. When a valve is opened, it grants passage for fluid or gas to travel through and enter the system. The amount of fluid or gas that traverses the valve is commonly known as flow.Valve flow can be either streamlined or turbulent. Streamlined flow is characterized by smooth, constant movement, while turbulent flow is characterized by swift, tumultuous movement.In most scenarios, streamlined flow is favored over turbulent flow due to its predictability and simplicity in control. Nevertheless, there are certain situations where turbulent flow is warranted, such as when the fluid or gas requires mixing or agitation.

Factors Affecting Valve Output

Numerous factors can impact the output of a valve. These include:

1. Pressure: High-pressure systems require valves that can handle the increased load.

2. Temperature: Some fluids and gases are sensitive to temperature, and valves must be designed to withstand extreme temperatures.

3. Viscosity: Thick or viscous fluids require valves that can handle the increased resistance and pressure.

4. Type of fluid or gas: Some fluids and gases have unique chemical properties that can impact the performance of the valve.

By understanding these factors, you can select a valve that will provide optimal performance, longevity, and safety.


Valve output is a critical factor in the performance and safety of industrial processes. When selecting a valve for your application, it’s essential to consider factors such as size, type, flow, pressure, temperature, and viscosity to ensure optimal performance and safety.

With this knowledge, you can choose a valve that meets your unique requirements and provides reliable, long-lasting performance.

Post time: Apr-11-2023