Gases that have been liquefied and kept at exceedingly low temperatures in their liquescent state are known as cryogenic liquids. Other names that are used to denote these substances include deeply refrigerated gases, cryogenic liquefied gasses and refrigerated liquefied gases. Vaporized cryogenic liquids normally form cryogenic gases. In commercial and industrial settings, these elements have a lot of uses.
In one case, these gasses are used because of their low temperature properties. For instance, very low temperatures in the gases are used to contract components in machinery to allow them to form tight joints with other components. Another application is that freezing gasses makes it possible to transport it in extremely large quantities. For instance, between 690 and 850 liters of the gas only forms a single liter of the liquid, which can then be transported with much ease.
The typical boing point of these gasses is below -150 degree Celsius. However, there are a few exceptions to this rule. For instance, even though nitrous oxide and carbon dioxide boil at much higher temperatures, they are still considered as cryogens. Nitrous Oxide boils at -88.5 degrees Celsius while carbon dioxide boils at -78.5 degrees Celsius. Many other cryogens boil at much lower temperatures, with helium boiling at -269 degrees.
The properties of cryogens render them both dangerous and useful to animal and human life. These gasses for example trigger serious burns the instant they come in touch with bare skin and eyes due to their low temperatures. Tissue damage occurs immediately someone makes contact with un-insulated pipes or equipment used in transporting and storing cryogens.
One experiences tissue damage similar to damage generated by heat. Freezing will happen immediately if a stream of the gas is sprayed on the eyes or skin. Therefore, wearing proper protective gear while these gases are being handled is very vital. The bad impacts which these substances cause on the body can be avoided through wearing protective gloves and clothing.
Cryogens also have bad effect on carbon steels, plastics, and some types of rubber. When these materials are exposed to cryogens, they become brittle, making them susceptible to failure when exposed to the slightest amount of stress. On the contrary, some materials do not undergo brittle transition when exposed to low temperatures, allowing them to retain their ductility. Such materials include aluminum, copper, brass, stainless steels, and certain plastics.
Blockages in vessels, equipment and pipes due to humidity and moisture freezing inside the pipe are normally caused by cryogens. The cold quality of cryogens results in the freezing. Apparatus such as stop valves, safety valves, instrument lines and pressure gauges may cease to function correctly due to ice formation. This could lead to a major safety accident or hazard if not corrected.
Cryogens are known for causing catastrophic failure or rupturing of equipment and containers. The rupture is caused by a buildup of pressure caused by vaporization of cryogenic liquid. The liquid vaporizes as it absorbs thermal energy from the surrounding, causing a buildup of pressure.
In one case, these gasses are used because of their low temperature properties. For instance, very low temperatures in the gases are used to contract components in machinery to allow them to form tight joints with other components. Another application is that freezing gasses makes it possible to transport it in extremely large quantities. For instance, between 690 and 850 liters of the gas only forms a single liter of the liquid, which can then be transported with much ease.
The typical boing point of these gasses is below -150 degree Celsius. However, there are a few exceptions to this rule. For instance, even though nitrous oxide and carbon dioxide boil at much higher temperatures, they are still considered as cryogens. Nitrous Oxide boils at -88.5 degrees Celsius while carbon dioxide boils at -78.5 degrees Celsius. Many other cryogens boil at much lower temperatures, with helium boiling at -269 degrees.
The properties of cryogens render them both dangerous and useful to animal and human life. These gasses for example trigger serious burns the instant they come in touch with bare skin and eyes due to their low temperatures. Tissue damage occurs immediately someone makes contact with un-insulated pipes or equipment used in transporting and storing cryogens.
One experiences tissue damage similar to damage generated by heat. Freezing will happen immediately if a stream of the gas is sprayed on the eyes or skin. Therefore, wearing proper protective gear while these gases are being handled is very vital. The bad impacts which these substances cause on the body can be avoided through wearing protective gloves and clothing.
Cryogens also have bad effect on carbon steels, plastics, and some types of rubber. When these materials are exposed to cryogens, they become brittle, making them susceptible to failure when exposed to the slightest amount of stress. On the contrary, some materials do not undergo brittle transition when exposed to low temperatures, allowing them to retain their ductility. Such materials include aluminum, copper, brass, stainless steels, and certain plastics.
Blockages in vessels, equipment and pipes due to humidity and moisture freezing inside the pipe are normally caused by cryogens. The cold quality of cryogens results in the freezing. Apparatus such as stop valves, safety valves, instrument lines and pressure gauges may cease to function correctly due to ice formation. This could lead to a major safety accident or hazard if not corrected.
Cryogens are known for causing catastrophic failure or rupturing of equipment and containers. The rupture is caused by a buildup of pressure caused by vaporization of cryogenic liquid. The liquid vaporizes as it absorbs thermal energy from the surrounding, causing a buildup of pressure.
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