① Has the lowest flow resistance (actually 0);
The great thing about this device is its ability to work without lubricant, making it reliable for use in corrosive environments and low boiling point liquids. You don't have to worry about it getting stuck during operation, giving you peace of mind knowing that it will work smoothly and efficiently.
It can achieve complete sealing in a large range of pressure and temperature, making it highly effective for various conditions.
One of the benefits of this valve is that it is able to open and close rapidly, with certain structures able to do so in mere seconds. This feature makes it highly suitable for use in automated test bench systems. Furthermore, when the valve operates at high speeds, it does so without causing any undue shock or disturbance. This ensures that the valve is a reliable and efficient component in any system it is employed in.
It is possible to position the spherical closure at the boundary position automatically, without any manual intervention. This feature ensures that the closure fits perfectly and seamlessly with the surrounding structure.
The working medium is securely sealed on both ends; a reliable sealing mechanism is in place to ensure its integrity.
When the ball and valve seat of the valve are in the fully open or fully closed position, the sealing surface is completely separated from the medium. This design feature ensures that the high-speed flow of the medium passing through the valve does not lead to any erosion on the sealing surface.
The most reasonable valve structure for low temperature medium systems is a compact and lightweight design. This structure offers numerous benefits, including enhanced efficiency and ease of installation. By prioritizing these features, operators can optimize their systems and ensure smooth operation. The compact structure allows for greater space utilization while the lightweight design reduces the load on the system, leading to improved performance. Therefore, for low temperature applications, this valve structure is highly recommended.
The valve body, particularly the welded valve body structure, is symmetrical, making it capable of effectively withstanding the pressure exerted by the pipeline.
The fully welded valve body of the ball valve is capable of enduring high pressure differences during closure. This feature makes it a suitable option for oil and natural gas pipelines. Furthermore, its design allows for direct burial in the ground, protecting the valve internals from corrosion. As a result, the maximum lifespan of this valve can extend up to 30 years, making it an extremely durable choice for pipeline applications.