Cryogenic Valves

De Road-trip 30 ans
Version du 23 mars 2024 à 03:19 par AngelitaBurdette (discuter | contributions)

(diff) ← Version précédente | Voir la version courante (diff) | Version suivante → (diff)
Aller à : Navigation, rechercher


Cryogenic valves are vital devices which safely transport cryogenic fluids and gasses in various applications which function at very low temperatures. As a result, they are particularly useful in preventing the transportation of combustible gasses into the atmosphere from an oil well or a gas station. This in turn prevents the accidental combustion of these substances. In this book, explore some of the primary considerations of safely designing cryogenic valves, and discuss some common uses in industry.


As stated above, cryogenic valves (also referred to as "anemoid" valves) have been designed with a single control surface at high pressure and low temperature. It is called an "anemoid" because these types of valves are so named due to their shape - the android shape is that of an egg, or egg-shaped region where one wall thickness meets another wall thickness at the android's inner surface. Because they can only be controlled at very high temperatures, they are used in applications where extreme temperatures are encountered, like oil well pumping. If you cherished this write-up and you would like to get a lot more information with regards to check it out kindly visit the webpage. The reason why the anemoid valve can only be used at such high temperatures is because they function by contracting and then expanding at very specific temperatures. Because they are designed in this way, only very small gaps between the walls of the valve would allow the flow of gas or liquid, leading to a very high level of safety for the worker.


Although cryogenic valves can be designed specifically for high-pressure situations, they can also be used for standard circulation systems, like those found in typical industrial workplaces. Some of these types of valves are commonly used as valve seats, which allow the valves to be placed or positioned at an angle to the direction of flow, or at a fixed angle to the flow direction. Standard valve seats are often made from steel and are made to be able to withstand the rigors of both high pressure and low pressure situations. Hydraulic seat types, on the other hand, are specifically designed to be used for cryogenic situations.


These valves come in different forms. One common form of these valves found in industrial gases is the butterfly valve, which is shaped like a butterfly. This type features a butterfly wing design that allows it to adapt to fluctuating temperature. Butterfly valves are known to work very well for liquid and gas flow control in varying environments and are often used in applications where it is important to have the ability to change the flow of liquid or gas with very little effort. Other common forms of cryogenic valves found in industrial gases include the following:


In addition to being used as valve seats, they can also be used as circulation lines for gas or liquid. Typically, stainless steel cryogenic valves feature an inner surface that features an annular shape. The shape of this inner surface is designed to help prevent the flow of liquefied gases from freezing at specific temperatures. This prevents catastrophic leaks that occur in areas where natural gas or liquid may be present at elevated temperatures. In some cases, when there is a low or zero pressure situation, these valves help maintain a consistent pressure that is used as an alarm for safety equipment such as fire extinguishers.


As previously mentioned, cryogenic valves are available in a variety of materials. There are dome-shaped ball valves and globe valves. The former type features an inner ring shaped rim and a dome-shaped body, while the latter features a globe-shaped body with an inner circle-shaped ring. Despite their different appearances, both types of ball valve styles help prevent the escape of high pressures. When considering the purchase of cryogenic valves for industrial applications, it is important to ensure that these products are designed for use in extreme temperatures. For instance, installing a valve that is intended for liquid or gaseous flow in a very cold temperature could prove problematic.