Rapid phase transition
Rapid phase transition or RPT is a phenomenon realized in liquefied natural gas (LNG) incidents in which LNG vaporizes violently upon coming in contact with water causing what is known as a physical explosion[1] or cold explosion.[2] During such explosions there is no combustion but rather a huge amount of energy is transferred in the form of heat from the room-temperature water to the LNG at a temperature difference of about 175*K (315*F).
LNG Properties
Liquefied natural gas or LNG is a natural gas that gets liquefied at atmospheric pressure and −161.5°C. It is odorless, tasteless, colorless, and not poisonous but causes asphyxia. It can cause frostbite due to its cryogenic temperature. If this extremely cold LNG is mixed with water (e.g. sea water, which has an average temperature of 15°C), heat energy is transferred from the water to the LNG, rapidly vaporizing it from its liquefied state back into its original gaseous state. This results in an explosion because the volume occupied by natural gas in its gaseous form is 600 times greater than when its liquefied. This is the phenomenon of rapid phase transition.
See also
External links
References
- ^ Understand LNG Rapid Phase Transitions (RPT) Archived 2013-08-28 at the Wayback Machine
- ^ Lng Hazard AP