CGA - P-12
SAFE HANDLING OF CRYOGENIC LIQUIDS
Organization: | CGA |
Publication Date: | 1 January 2009 |
Status: | inactive |
Page Count: | 31 |
scope:
This publication provides general information about the properties, transportation, storage, safe handling, and safe use of the cryogenic liquids commonly used by industry and institutions. It is intended for cryogenic liquid users, shippers, carriers, distributors, equipment designers or installers, safety administrators, and anyone seeking an introduction to cryogenic liquids. If more detailed or specialized information is required, consult your cryogenic liquid supplier. The information in this standard is intended to complement federal, state, provincial/ territorial, local, and insurance company safety requirements.
The most common industrial gases that are transported, handled, and stored as cryogenic liquids are oxygen, nitrogen, argon, hydrogen, and helium. Three rare atmospheric gases, neon, krypton, and xenon, are also transported, handled, and stored as cryogenic liquids. Although not usually classified as industrial gases, liquefied natural gas (LNG), liquid methane, ethylene, and carbon monoxide are also transported, handled, and stored as cryogenic liquids.
Some gases, including fluorine (boiling point -306.8 °F [-188.2 °C]) and nitric oxide (boiling point -241.2 °F [-151.8°C]) can exist as cryogenic liquids due to their low boiling points. Both fluorine and nitric oxide are extremely reactive and hazardous to handle without extraordinary precautions; they are not normally handled as cryogenic liquids due to their reactive nature; it is more common for them to be handled as gases at ambient temperatures in compressed gases industry. They are not discussed in this publication, due to their specialized nature and hazards.
Carbon dioxide and nitrous oxide are not classified as a cryogenic liquids because their normal boiling point is greater than -130 °F (-90 °C). Although carbon dioxide and nitrous oxide are transported and stored as refrigerated liquids, they are not discussed in this publication.