CGIS Datasheets for Industrial Valves
Valves are mechanical devices that control the flow and pressure of liquids, gases, and slurries within a system. They are also known as regulators and are used in a wide variety of applications. Valves vary greatly in size, design, function, and operation.
Industrial Valves: Learn more
| Product Name | Notes |
|---|---|
| A vast majority of valve designs are only manufactured and tested to standards with an “allowable leakage rate”. We don’t think that’s good enough. CGIS’ Isolation Valves – providing Absolute... | |
| Also known as a triple-eccentric design, there are three key offsets involved in creating this feat of engineering. First, the disc is placed forward from the access of stem rotation. | |
| At CGIS we have a different perspective on valves as we know there is more to valve selection – it is a combination of utilizing a high-quality valve and understanding... | |
| Ball Valves can be found in common household applications to the harshest of cryogenic environments. They typically involve a quarter turn valve which uses a pivoting ball to control the... | |
| Does your Knife Gate Valve resemble an artifact from the 1900’s, and perform roughly the same? Well, this could be because many Knife Gate Valves haven’t improved their design over... | |
| Instead of using a large ball as the closing mechanism, a Butterfly Valve can use a disk which enables quick shutoff and drastically reduces the overall footprint of the valve. | |
| No one appreciates a leaky faucet in their kitchen sink, so why is the concept of an allowable leakage rate common within industrial processes, when the consequences are much more... | |
| Typically made up of an actuator, positioner, and body, Control Valves can manage flow, pressure, temperature, and level at the push of a button. Whether the media you are processing... | |
| What adds up to make the perfect Check Valve? Cracking at low pressure, remaining completely open during low flows, and lightning fast closing capabilities are all part of the equation. |