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A Multi-waterways Control Valve has more than two ports and can have three, four, or five ways of control, depending on the application. Most of the time, it is used to choose several flow paths so that the process can go on as planned to meet the needs of the customer.
Using a pre-designed flow path, a Multi-waterways Control Valve can change the internal flow direction, allowing the media to flow through two or three ports, depending on the situation.
The primary purpose of a Multi-waterways Control Valve in industry is to reduce the number of valves in the process line. Instead of installing two x two-port valves, a three-way valve may be installed to perform the same function. There are three, four, and five-way ball valve options for Multi-waterways Control Valves.
The number of ports that can be connected in a three-way valve is three, and the flow positions are determined by the handle’s position in manual valves or by the actuator in automated control.
This would then be referred to as a 3/2 or 3/3 valve, with the designer or end user choosing the ports and positions that best suit their process requirements. These ball valves can be made of a wide range of materials, including carbon steel, 316 stainless steel, and other exotic materials. Other sealing materials are also available, including TFM PTFA.
The Global Multi-waterways Control Valve market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Over various types of multi-waterway control valves are available from Takasago Electric, Inc., which specializes in custom designs to better meet our customers’ individual requirements. Miniature, highly chemically inert solenoid valves are the area of expertise.
By isolating the valve and actuator (solenoid) sections with a diaphragm, the fluid does not come into contact with the metal parts of the solenoid.
The products listed below only represent a portion of our range. Materials with a high inertia, like PTFE, PEEK, PPS, and others are utilized for the components that come into contact with the fluid, resulting in a design that is adaptable to a wide variety of fluids.
Because these valves are so small and light, they are easy to handle. These valves are notable for their high inertness, resistance to corrosion, heat, pressure, chemical resistance, and low power consumption.
The valves can be used for a variety of purposes, including medical diagnosis, environmental analysis, physicochemical analysis (HPLC, etc.), equipment used in biotechnology (cell culture, for example), industrial inkjet printers, etc.
