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Knowing the most crucial features of each type of valve is critical when choosing the most appropriate type for the intended service.
The ball valve
The rotation of a drilled sphere causes the ball valve to open and close. The fluid can travel through when this bore lines up with the pipe. On the other hand, the fluid cannot circulate when the bore is perpendicular to it.
The sphere rotates 1/4 of a revolution (90°), which causes the opening or shutting to happen very fast. Its speed, which is frequently praised as a quality, might result in a water hammer that has to be considered.
They have a very little pressure drop, need little maintenance, are bidirectional, and are small in size. Due to its affordable pricing, tightness, quick opening and shutting, simplicity of automation, and the numerous material combinations that may be utilized in them, ball valves have grown to be one of the most often used valves.
Door valves
This valve has many turns and closes the flow with a vertical disc with flat sides that moves perpendicular to the seats. Due to the rubber covering on this inner wedge, the sealing is excellent.
This sort of valve's gradual shutting ensures that water hammer will never occur. It is not recommended to control flow rates with this valve. Their construction makes it possible to repair the inner mechanism in the event of a breakdown without removing the valve from the pipeline.
The check valve
The use of check valves differs greatly from the applications previously discussed. A check valve is one that permits fluid to flow in one direction while blocking it in the other. For this sort of valve to function, there is always a mounting direction or location.
The purpose of a valve is to stop a fluid from returning through the pipeline after it has gone through the valve, not to stop a fluid's flow at will. They should always be put at the pump's outlet or downstream of a shut-off valve.
Controlling valves
Regulating valves are valves created specifically to regulate water flow. They feature an internal component with a handwheel that allows them to control the amount of water that flows through the valve.
The so-called balancing valves may be included in this section. Balancing valves are in charge of generating the proper head losses to guarantee proper fluid distribution throughout the installation, depending on the features of the installation.
The fluid will tend to flow through the areas of an installation that have the lowest head loss if it is not balanced, which will cause certain terminal units to be overfed while others to have a flow deficit.