Difference between revisions of "Spherical Valves"

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[[Category:Valves]]{{Knoppen}}
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[[File:Spherical valve.jpg|thumb|right|Spherical Valves]]
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[[File:Spherical valve1.jpg|thumb|right|Spherical Valves]]
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'''Spherical Valve'''s are installed as special shut-off valves for high pressures at the end of the penstock in front of the turbine. Their main purpose is to shut-off the penstock during normal shutdown or in the case of turbine trips.
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The valve bodies are either cast or steel-welded. The rotor is normally forged. The stems are either forged on or bolted on and are running in self-lubricating bearing bushings.
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The metal sealing rings are normally situated on the downstream side of the body and are actuated either by water pressure or by means of biodegradable hydraulic oil, pressing them against the rotor after closing. A second seal ring situated on the upstream side is useful for maintenance purposes, i.e. replacing shaft seals, etc., since this seal works as a blind cover so that the penstock does not need to be dewatered.
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The actuation elements are like those for the turbine inlet valve. The high pressure applied from the upstream penstock allows the valve to be operated using the water pressure from the penstock instead of hydraulic oil. Systems controlled using oil or water are also possible.
Spherical valves are one of the most used shut-off devices in middle and high-head power plants.
 
Spherical valves are commonly used as high pressure turbine inlet and pump valves. All spherical valves contain two independent sealings controlled by water - one for operation and one for maintenance. Controlled with hydraulic pressure, the valve can be equipped with counterweight as an emergency closing mechanism. The valve is delivered with all additional devices that guarantee completely automated and safe operations.

Latest revision as of 09:15, 10 January 2013

Spherical Valves
Spherical Valves

Spherical Valves are installed as special shut-off valves for high pressures at the end of the penstock in front of the turbine. Their main purpose is to shut-off the penstock during normal shutdown or in the case of turbine trips.

The valve bodies are either cast or steel-welded. The rotor is normally forged. The stems are either forged on or bolted on and are running in self-lubricating bearing bushings. The metal sealing rings are normally situated on the downstream side of the body and are actuated either by water pressure or by means of biodegradable hydraulic oil, pressing them against the rotor after closing. A second seal ring situated on the upstream side is useful for maintenance purposes, i.e. replacing shaft seals, etc., since this seal works as a blind cover so that the penstock does not need to be dewatered.

The actuation elements are like those for the turbine inlet valve. The high pressure applied from the upstream penstock allows the valve to be operated using the water pressure from the penstock instead of hydraulic oil. Systems controlled using oil or water are also possible. Spherical valves are one of the most used shut-off devices in middle and high-head power plants.

Spherical valves are commonly used as high pressure turbine inlet and pump valves. All spherical valves contain two independent sealings controlled by water - one for operation and one for maintenance. Controlled with hydraulic pressure, the valve can be equipped with counterweight as an emergency closing mechanism. The valve is delivered with all additional devices that guarantee completely automated and safe operations.