There are a variety of different types of multi-port ball valve available. Each type has different functions and features. Multiport ball valves can be purchased in three-way, four-way, or five-way configurations. They come in several types of body materials, such as stainless steel and carbon steel.
A Multiport ball valve replaces several 2-way valves in a piping system. They have interchangeable balls and are designed to fit specific applications. They can be manifold, or tandem mounted. Each one has different benefits depending on your specific requirements.
Instead of using two or three different types of valves, you can simply use a multiport valve. If you want to know more about a multi ports ball valve, continue reading this article.
What is a Multi-Port Ball Valve?
Multiport ball valves have multiple ports to allow and restrict the flow. It comes in a variety of configurations and has several unique characteristics. Some of these valves have three ports, while others have four or five ports. Common applications include water treatment, mining, aquariums, chemical processing, and bleach plants.
Multiport ball valves can be purchased with a range of different body materials, ports, and end connections. Designed for complete control, multiport ball valves are inexpensive and can provide total fluid handling system control. Whether you’re upgrading your current fluid handling system or replacing an old one, you can get the right multiport ball valve for your needs.
Multiport ball valves have many advantages. Their three-way design lets you divert flow in two directions and saves you money on a tee fitting. They are also very versatile and can replace two-way valves. And because they can be configured for different applications, multiport ball valves are an ideal choice. This versatile valve is great for applications where you want to mix and divert fluids.
How Does a Multi-Port Ball Valve Work?
If you are wondering how a multiport ball valve works, then this article will answer your question. Ball valves use a rotating ball to control flow through the valve. During the closed position, the ball is perpendicular to the flow. When it is open, the ball is connected to a shaft in a slot on one end of the valve. The design of a ball allows it to open and close easily with a quarter turn.
A two-way ball valve is horizontal, while a three-way valve has a vertical T-pattern. Vertically-oriented valves have the bottom or common port always open. To open or close the valve, you can turn the handle counterclockwise or anticlockwise, as long as the direction of the handle is not 180 degrees.
The working mechanism of a multiport ball valve is different from an ordinary ball valve. This type of valve has multiple ports, so you need to turn the handle in the right direction to start, stop, divert and mix the flow. No matter what type of multiport valve you have, you can simply start the flow by turning the valve quarterly. However, in this type of valve, you need to follow the directions to control the flow in different ports.
One feature to consider when choosing a multiport ball valve is the materials that it is made of. Brass is a popular choice and can be made of copper and zinc. Brass is tough and resistant to high temperatures and pressures. The copper in the alloy inhibits the growth of microbes. Brass is inert to most chemicals. In contrast, chloride ions strip the zinc from the alloy, reducing the strength of the material.
When it comes to choosing a multiport ball valve, it is important to keep in mind the purpose for which you want it. A T-port ball valve can shut all parts of the valve during activity, while an L-port can handle three flows simultaneously. The difference between the two is the shut-off capabilities.
- BALL VALVE
- 3-Way L Port Ball Valve
- Full-Welding Ball Valve
- V-Notch Valve
- Undergroud Ball Valve
- Top Entry Ball Valve
- Thread Ball Valve
- Soft Sealing Ball Valve
- Side Entry Ball Valve
- Metal Sealing Ball Valve
- Forged Trunnion Ball Valve
- 3-Way T Port Ball Valve
- Forged Floating Ball Valve
- Flange Type Segment Ball Valve
- Double Block and Bleed Valve
- Casting Trunnion Ball Valve
- Casting Floating Ball Valve
- Bronze Ball Valve
- 4-Way Ball Valve
- Wafer Type Segment Ball Valve
- BUTTERFLY VALVE
- Centerline Lug Type Butterfly Valve
- Centerline Wafer Type Butterfly Valve
- Double Eccentric Butterfly Valves
- High Performance Butterfly Valve
- Lined Butterfly Valve
- Resilient Seated Butterfly Valve
- Triple Eccentric Butterfly Valves
- CHECK VALVE
- Bronze Check Valve
- Butt Welding Check Valve
- Casting Check Valve
- Dual Plate Check Valve
- Forged Check Valve
- Globe Check Valve
- Lift Check Valve
- Pressure Self-Sealing Check Valve
- Socket Welding Check Valve
- Swing Check Valve
- Thread Check Valve
- Wafer Check Valve
- CONTROL VALVE
- Electric Actuator Ball Valve
- Electric Actuator Butterfly Valve
- Electric Actuator Gate Valve
- Electric Actuator Globe Valve
- Gas Over Oil Actuator Ball Valve
- Linear Control Valve
- Pneumatic Actuator Ball Valve
- Pneumatic Actuator Butterfly Valve
- Pneumatic Actuator Gate Valve
- Pneumatic Actuator Globe Valve
- CRYOGENIC VALVE
- Cryogenic Ball Valve
- Cryogenic Check Valve
- Cryogenic Gate Valve
- Cryogenic Globe Valve
- GATE VALVE
- Bellow Gate Valve
- Bidirectional Knife Gate Valve
- Bronze Gate Valve
- Butt Welding Gate Valve
- Casting Wedge Gate Valve
- Forged Wedge Gate Valve
- Knife Gate Valve
- Parallel Slide Gate Valve
- Pressure Self-Sealing Gate Valve
- Socket Welding Gate Valve
- Thread Gate Valve
- Through Conduit Knife Gate Valve
- GLOBE VALVE
- Angle Type Globe Valve
- Bellow Globe Valve
- BS 1873 Globe Valve
- Butt Welding Globe Valve
- Casting Globe Valve
- Forged Globe Valve
- Pressure Self-Sealing Globe Valve
- Socket Welding Globe Valve
- Thread Globe Valve
- Plug Valve
- Plug Valve
- SAFETY VALVE
- High Performance Steam Safety Valve
- Jacketed Safety Relief Valves
- Pilot Operated Safety Valve
- Spring Load Safety Valve
- Basket Strainer
- Cast Iron Y Strainer
- Thread Y Strainer
- Y Strainer