Flow Control Valves: What are the Most Common ...

30 Sep.,2024

 

Flow Control Valves: What are the Most Common ...

There are countless types of valves for use across a variety of industries and applications. When it comes to flow control valves, valve types range from simple to sophisticated; some valves are complex enough to adjust automatically to pressure and temperature variations. No matter their construction, flow control valves are designed to regulate the flow or pressure of fluids, and they typically react to signals generated by flow meters or temperature gauges.

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What&#;s the Function of a Flow Control Valve?

Flow control valves can serve a number of different functions within a hydraulic flow system depending on the specific type that is used. One of the most common uses of a flow control valve is to regulate the speed of motors or cylinders within the system. This function is possible due to the capability of a flow control valve to affect the rate of energy transfer at any given point in a system by impacting the flow rate. 

The ability to reduce or increase pressure in a system has a number of benefits. System operators can use a flow control valve to rapidly depressurize a serviceable hose and change fittings quickly. They are also used in many consumer applications such as showers, faucets, and lawn watering systems to easily reduce the amount of water consumed without impacting the overall system performance. Flow control valves are also known for their reliability and typically have a long operating lifetime as they are not prone to clogging due to their design. 

Due to these flexible performance parameters, flow control valves have found wide use in applications across materials handling, food processing, and automated factory and warehouse equipment. 

The most common valve types in flow control industries include:

Continue reading to learn more about each of these types of flow control valves and their functions.

1. Gate Valves

Gate valves are general service valves primarily used for on/off, non-throttling service. Specifically, gate valves are used in applications requiring a straight-line flow of fluid with minimum restriction is desired. Gate valves operate when the user rotates the stem in a clockwise to close (CTC) motion or a clockwise to open (CTO) motion. The gate moves up or down on the threaded step when an operator moves the stem, which is why it is a multi-turn valve; the valve must turn several times for it to go from open to closed, and it is the slow operation that prevents water hammer effects. Engineers also utilize gate valves when minimum pressure loss and a free bore are required. Typical gate valves have no obstruction in the flow path, which results in a minimal loss of pressure.

Gate valves may be used for several fluids. Generally, gate valves are applicable for potable water, wastewater, and neutral liquids; in temperatures between -20 and 70 degrees Celsius; maximum 5 meter/second flow velocity; and up to 16 bar differential pressure. Gate valves also are applicable for gases with temperatures between -20 and 60 degrees Celsius; maximum 20 meter/second flow velocity; and up to 16 bar differential pressure.

There are two types of gate valves: parallel and wedge-shaped. Parallel gate valves feature a flat gate between two parallel seats. Wedge-shaped gate valves are comprised of two inclined seats and an inclined gate that is just a bit mismatched.

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2. Globe Valves

A linear motion valve, globe valves stop, start, and regulate flow. Globe valves initiate closure via a plug featuring a flat or convex bottom that is lowered onto a horizontal seat situated in the center of the valve. When a user opens the valve, the plug raises to allow fluid to flow. Globe valves are used for on/off and throttling applications because the disk of the valve can be removed from the flow path completely or it can completely close the flow path. While this type of flow control valve does produce slightly higher pressure drops than straight-through valves like gate, plug, and ball valves, they are applicable in situations where the pressure drop through the valve is not a controlling factor.

The practical size limit for globe valves is NPS 12 (DN 300) because the entire system pressure exerted on the disc transfers to the valve stem. It is possible, however, to have globe valves larger than NPS 12 (DN 300), and manufacturers and engineers have created and used globe valves up to NPS 48 (DN ).

3. Pinch Valves

 A cost-effective flow control valve, pinch valves are ideal for applications of slurries or liquids containing significant amounts of suspended solids. Pinch valves seal using one or more flexible elements like rubber tubes that become pinched to turn off the flow. These rubber sleeves are the valve&#;s only wetted part, and their flexibility allows pinch valves to close tightly around entrapped solids. Air or hydraulic pressure is placed directly on the elastomer sleeve to actuate pinch valves. A pinch valve&#;s body acts as a built-in actuator, which eliminates expensive hydraulic, pneumatic, or electric operators and results in the cost-effectiveness of this type of flow control valve.

4. Diaphragm Valves

Diaphragm valves are characterized by a flexible disc that contacts a seat at the top of the valve body and forms a seal. The diaphragm is flexible and pressure-responsive; it transmits force to open, close, or control a valve. While diaphragm valves are related to pinch valves, they use an elastomeric diaphragm rather than an elastomeric liner in the valve body. The elastomeric diaphragm is attached to a compressor and separates the flow stream from the closure element. Diaphragm valves are ideal for handling corrosive, erosive, and dirty services.

There are many advantages to using diaphragm valves: they are extremely clean, feature a leak-proof seal, have a tight shut-off, are easy to maintain, and reduce leakage to the environment. Diaphragm valves also may be repaired without interrupting a pipeline. On the other hand, the disadvantages of using diaphragm valves include only being able to use them in moderate temperatures of -60 to 450 degrees Fahrenheit and in moderate pressures of approximately 300psi. Diaphragm valves cannot be used in multi-turn operations and do not have industry standard face-to-face dimensions. Also, the body of a diaphragm valve must be made of corrosive-resistant materials.

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5. Needle Valves

Needle valves are volume control valves that restrict flow in small lines. Fluid moving through the valve turns 90 degrees and flows through an orifice that serves as the seat for a cone-shape-tipped rod. The orifice size changes when the user positions the cone in relation to the seat. Needle valves are similar to globe valves in that they share a few design features and have similar benefits; for example, both needle valves and globe valves empower operators to change flow rate using a threaded rotating stem. The difference between needle valves and globe valves is the precision that needle valves can achieve. In fact, needle valves are an ideal choice for calibration applications because they are capable of being fine-tuned.

Needle valves can provide positive shutoff in order to allow gauges and other measurement instruments to be installed or removed safely. That&#;s also why needle valves may be used in a range of industries, from petrochemicals to biofuels. It is the needle valve&#;s finely-threaded valve stem that gives it a significant mechanical advantage by allowing operators to seal it using only minimal force. One disadvantage of needle valves, however, is that the visual inspection alone is not enough to determine whether a needle valve is open or closed.

Flow control valves are necessary components in a broad range of industries. Determining which flow control valve type is best for your particular situation depends on a host of criteria, but the most commonly used types include gate valves, globe valves, pinch valves, diaphragm valves, and needle valves.
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Other Types of Flow Control Valves

While the five types of flow control valves described above are some of the most commonly used valve types, there are other types of flow control valves with features that make them suitable for different applications. Here&#;s a look at a few other types of flow control valves.

Butterfly valve. A butterfly valve is operated by rotating a disk within the flow area and, due to this design, it does not have linear flow characteristics.  This makes these valves less precise than the more common flow control valve types above. For this reason, it can often be dismissed as a flow control valve choice even though it is useful in some applications that do not require a very high degree of accuracy. They are also a very affordable valve option, which makes it worthwhile to consider them in the right applications. 

Plug valve. Plug valves come in a variety of configurations and are operated by rotating a cylindrical or cone-shaped plug within the valve body to regulate the flow through a hollow area of the plug. For flow control applications the most common design is an eccentric plug valve, which uses a half plug to create a higher seating force with minimal friction as it is opened and closed. This has the advantage of greater shut off capability which is ideal for flow control situations.  

Ball valve. Ball valves are commonly used in flow systems across numerous industries due to their low cost, durability, and excellent shutoff capability. Similar to butterfly valves, they are not as effective for flow control applications that require a high degree of accuracy and control. One of the reasons for this is that a ball valve requires a high degree of torque to open and close that prevents an operator from making fine adjustments. There is also a certain amount of &#;play&#; between the stem and the ball which can make finding specific flow rates difficult. For flow control applications where a ball valve is possible, such as filling a tank to a reasonable degree of accuracy, a trunnion or v-port ball valve design is usually the best choice.

Flow control valves are used in a variety of applications, such as plumbing, mechanical, and gas dispensing applications. There are many factors to consider when choosing the appropriate flow control valve for an application, such as the characteristics of the fluid, service conditions, how frequently the valve is operated, and maintenance and environmental considerations. With a variety of valve types available, comparing the function and performance of various valves alongside your application specifications will help you identify the most suitable flow control valve for your application.

How Automatic Flow Control Valves Work?

Looking to understand automatic flow control valves work? In the complex world of fluid management, achieving precise and reliable flow control is paramount. One of the key players in this realm is the automatic flow control valve. These remarkable devices have revolutionised the way flow rates are automatically regulated by seamlessly adjusting the valve opening to maintain a desired flow rate.

From controlling the water flow in plumbing and wastewater management systems to managing the flow of gases in industrial processes, automatic flow control valves have become indispensable in countless applications. 

Join us as we take a closer look at the inner workings of automatic flow control valves, unravel the mechanisms behind their operation and discuss their essential role in optimising the flow of liquids and gases in different industries.

Types of Automatic Flow Control Valves

While exploring the diverse landscape of automatic flow control valves, we encounter three primary types that offer distinct functionalities. These types are linear valves, rotary valves, and self-actuated valves. Each type possesses unique characteristics and mechanisms that enable them to fulfil specific control and application requirements. 

  • Linear
    Linear valves regulate flow through linear motion mechanisms. These valves utilise linear actuators, such as pneumatic or hydraulic cylinders, to control the valve opening. Due to their precision and responsiveness, linear valves are ideal for applications that demand accurate flow regulation. Industries such as oil and gas, chemical processing, and water treatment rely on linear valves to maintain optimal process conditions.
  • Rotary
    Rotary valves govern flow rates through rotational motion. These valves feature closure elements, such as balls, butterfly disks, or plugs, that rotate to adjust the fluid flow. Rotary valves excel in providing fine flow control, making them suitable for applications requiring throttling capabilities. HVAC systems, food and beverage processing, and petroleum refining are some industries where rotary valves have widespread use.
  • Self-Actuated
    Self-actuated valves can operate without any external power source or control signals. These valves use the process fluid&#;s energy, pressure, or temperature to automatically regulate the flow. They are often equipped with a self-contained actuator, such as a spring, diaphragm, or pilot valve, which responds to changes in the process conditions to control the valve opening. Self-actuated valves are particularly useful in applications where the power supply is limited or impractical, such as in remote locations or hazardous environments.

Components and Principles of Operations

Automatic flow control valves have various components that work in harmony to ensure precise and efficient flow regulation. Understanding these components and their principles of operation is essential to grasp the functionality of these valves. In addition, exploring their working applications and challenges can provide valuable insights into their real-world usage.

Components of Automatic Flow Control Valves

Automatic flow control valves comprise several key components that are crucial to their operation. These components typically include a flow sensor, actuator, valve body, control mechanism, and sometimes a feedback system. The flow sensor measures the flow rate, providing input to the control mechanism.

The actuator responds to the control signal and adjusts the position of the valve&#;s closure element accordingly, regulating the flow. In some cases, a feedback system may be present to provide additional information on the valve&#;s performance or to enhance control accuracy.

Working Applications

Automatic flow control valves find extensive applications across various industries, such as:

  • HVAC Systems
    Automatic flow control valves are extensively used in heating, ventilation, and air conditioning (HVAC) systems. They regulate the flow of heating or cooling fluids, ensuring optimal temperature control in buildings and improving energy efficiency.
  • Water Distribution Networks
    These valves are a vital part of water distribution networks, ensuring proper water flow and pressure control. They help maintain a consistent water supply, prevent water-hammer, and manage the distribution system efficiently.
  • Industrial Processes
    In industrial settings, automatic flow control valves are responsible for managing the flow of liquids and gases. They optimise production efficiency by precisely controlling the flow rates of various process fluids, ensuring accurate dosing, mixing, and distribution.
  • Wastewater Management
    Automatic flow control valves are integral to wastewater management systems. They assist in regulating the flow of wastewater, preventing overflow, and maintaining consistent flow rates through treatment processes.
  • Oil and Gas Pipelines
    The oil and gas industry relies heavily on automatic flow control valves for pipeline operations. These valves enable precise control of fluid flow, ensuring safe and efficient transportation of oil, gas, and related products.
  • Chemical Processing
    Automatic flow control valves find extensive use in chemical processing plants. They enable precise control of chemical flow rates, allowing for accurate mixing, blending, and dosing to ensure consistent product quality.
  • Other Applications
    Automatic flow control valves are also utilised in pharmaceuticals, food and beverage, pulp and paper, power generation, and many more industries. These valves provide critical flow control in diverse processes, helping improve efficiency and productivity.

The versatile applications of automatic flow control valves highlight their importance in various industries. Their ability to precisely regulate flow rates in different fluid processes makes them indispensable for achieving optimal performance and efficiency in various fluid management systems.

Challenges with Automatic Flow Control Valves

Some of the main challenges associated with these valves include:

  • Sizing
    Incorrect valve sizing can result in flow restrictions or excessive pressure loss, compromising the overall system efficiency. 
  • Performance Maintenance
    Over time, automatic flow control valves can face performance issues due to factors such as wear, corrosion, and a build-up of debris. These factors can affect the valve&#;s operation, accuracy, and responsiveness. 
  • Integration with Control Systems
    Integrating automatic flow control valves with control systems can present technical challenges. It requires compatibility between the valve and the control system, including electrical connections, communication protocols, and control algorithms. 
  • Fluid and Operating Conditions Compatibility
    Automatic flow control valves may encounter challenges in terms of fluid compatibility and varying operating conditions. Different fluids have unique properties, such as viscosity, temperature, and chemical composition, which can impact valve performance.

    Additionally, variations in operating conditions, such as pressure fluctuations or temperature changes, can pose challenges that need to be addressed for optimal valve operation.

Pros and Cons of Using An Automatic Flow Control Valves

Using automatic flow control valves offers numerous benefits in fluid management systems. These valves provide precise flow regulation, enhance process efficiency, and improve system performance. However, it&#;s essential to consider both the advantages and disadvantages associated with their usage.

Pros of Using Automatic Flow Control Valves

  1. Precise Flow Control
    Automatic flow control valves enable accurate and precise control over fluid flow rates. They allow for fine adjustments, ensuring consistent flow rates within desired ranges. This precision is crucial in applications that require tight control of flow parameters.
  2. Improved Efficiency
    By maintaining a steady flow rate, automatic flow control valves contribute to improved system efficiency. They help optimise energy usage, minimise waste, and enhance overall process performance. 
  3. Process Stability
    Automatic flow control valves help in stabilising processes by ensuring reliable and consistent flow rates. This stability is vital in industries where variations in flow rates can impact product quality, system integrity, or operational safety.
  4. Increased Productivity
    With precise flow regulation, automatic flow control valves contribute to increased productivity in various industrial processes. By maintaining consistent flow rates, these valves facilitate reliable and uninterrupted operations, reducing downtime and maximising production output.

Cons of Using Automatic Flow Control Valves

  1. Higher Initial Cost
    Automatic flow control valves can have a higher cost compared to manual valves. The advanced technology, precision engineering, and control mechanisms incorporated into these valves contribute to their higher price point. However, the long-term benefits and cost savings often outweigh the initial investment.
  2. Complexity
    Automatic flow control valves involve more complex designs and systems compared to manual valves. This complexity can lead to challenges in installation, maintenance, and troubleshooting. Adequate training and expertise may be required to ensure proper operation and address any issues that may arise.
  3. Dependency on External Power
    Many automatic flow control valves rely on external power sources for their operation. This dependency can be a limitation in certain applications, especially in remote or off-grid locations where power availability may be limited.
  4. Maintenance Requirements
    Automatic flow control valves may require regular maintenance to ensure optimal performance. Factors such as wear, corrosion, and accumulation of debris can affect valve operation and accuracy. As such, proper maintenance practices, including cleaning, inspection, and component replacement, are necessary to sustain performance.

The Bottom Line

Automatic flow control valves play a significant role in achieving precise and reliable flow regulation. With their seamless ability to adjust the valve opening and automatically maintain the desired flow rates, these valves have revolutionised fluid management systems. As a result, businesses across different sectors have experienced significant advantages by incorporating automatic flow control valves into their operations.

John Valves offers a comprehensive range of automatic flow control valves to meet the diverse demands of the Australian market. With our unwavering commitment to excellence and profound expertise in fluid management, we have established ourselves as the trusted partner for businesses in search of reliable and efficient valve solutions.

We place utmost importance on delivering exceptional quality, unrivalled performance, and unwavering technical support to ensure that our products and services consistently surpass customer expectations. Get in touch with us today and experience the unparalleled difference that John Valves can make in optimising your operational processes and achieving a new level of excellence.

Our dedicated team stands ready to provide personalised assistance and guide you in selecting the ideal valve solution tailored to your specific needs.

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