User:Milton Beychok/Sandbox: Difference between revisions

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{{Image|LNG block flow diagram.png|right|310px|Add image caption here.}}  
{{Image|LNG block flow diagram.png|right|310px|Add image caption here.}}  
{{Image|LNG tanker Abuja.jpg|right|250px|LNG tanker with 5 spherical LNG tanks. Total length is 285 metres (311 yards).}}  
{{Image|LNG tanker Abuja.jpg|right|250px|LNG tanker with 5 spherical LNG tanks. Total length is 285 metres (311 yards).}}  
{{Image|LNG Terminal.jpg|right|325px|LNG storage tanks in LNG terminal at Yokohama, Japan.).}}
{{Image|LNG Terminal.jpg|right|325px|LNG storage tanks in LNG terminal at Yokohama, Japan.}}
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'''Liquefied natural gas''' or '''LNG''' is [[natural gas]] (predominantly [[methane]], CH<sub>4</sub>) that has been converted into liquid form for ease of transport and storage. When natural gas is liquefied, it becomes a clear, colorless and essentially odorless liquid which is neither corrosive nor toxic.<ref name=CalifEnergyCommission>[http://www.energy,ca.gov./faq.html Frequently Asked Questions About LNG] From the website of the [[California Energy Commission]]</ref>


'''Liquefied natural gas''' or '''LNG''' is [[natural gas]] (predominantly [[methane]], CH<sub>4</sub>) that has been converted into liquid form for ease of transport and storage..
The liquefication process involves separating the raw natural gas from any associated water and high-boiling [[Hydrocarbons|hydrocarbon]] liquids (referred to as [[natural gas condensate]]) that may be associated with the raw gas. The raw gas is then further purified in a [[natural gas processing]] plant  to remove remove impurities such as  the [[acid gas]]es hydrogen sulfide (H<sub>2</sub>S) and  carbon dioxide (CO<sub>2</sub>), any residual water liquid or vapor, [[mercury]], [[nitrogen]] and [[helium]] which could cause difficulty downstream.


The liquefication process involves removal of certain components, such as dust, acid gases, [[helium]], water, and heavy hydrocarbons, which could cause difficulty downstream. The natural gas is then [[condensation|condensed]] into a liquid at close to atmospheric pressure by cooling it to approximately -162 °C (260 °F)
The purified natural gas is then refrigerated and distilled to recover ethane (C<sub>2</sub>H<sub>6</sub>), propane (C<sub>3</sub>H<sub>8</sub>), butanes (C<sub>4</sub>H<sub>10</sub>) and any higher boiling hydrocarbons, collectively referred to as natural gas liquids (NGL). The natural gas is then [[condensation|condensed]] into a liquid at essentially [[atmospheric pressure]] by using further refrigeration to cool it to approximately -162 °C (260 °F).


The reduction in volume makes it much more cost efficient to transport over long distances where pipelines do not exist. Where moving natural gas by pipelines is not possible or economical, it can be transported by specially designed [[Cryogenics|cryogenic]] sea vessels ([[LNG carrier]]s) or cryogenic road tankers.
The reduction in volume makes it much more cost efficient to transport over long distances where pipelines do not exist. Where moving natural gas by pipelines is not possible or economical, it can be transported by specially designed [[Cryogenics|cryogenic]] sea vessels ([[LNG carrier]]s) or cryogenic road tankers.
==References==
{{reflist}}

Revision as of 18:57, 19 February 2011

(CC) Diagram: Milton Beychok
Add image caption here.
(CC) Photo: Xoán Porto
LNG tanker with 5 spherical LNG tanks. Total length is 285 metres (311 yards).
(PD) Photo: Yo-sei Shosi
LNG storage tanks in LNG terminal at Yokohama, Japan.

Liquefied natural gas or LNG is natural gas (predominantly methane, CH4) that has been converted into liquid form for ease of transport and storage. When natural gas is liquefied, it becomes a clear, colorless and essentially odorless liquid which is neither corrosive nor toxic.[1]

The liquefication process involves separating the raw natural gas from any associated water and high-boiling hydrocarbon liquids (referred to as natural gas condensate) that may be associated with the raw gas. The raw gas is then further purified in a natural gas processing plant to remove remove impurities such as the acid gases hydrogen sulfide (H2S) and carbon dioxide (CO2), any residual water liquid or vapor, mercury, nitrogen and helium which could cause difficulty downstream.

The purified natural gas is then refrigerated and distilled to recover ethane (C2H6), propane (C3H8), butanes (C4H10) and any higher boiling hydrocarbons, collectively referred to as natural gas liquids (NGL). The natural gas is then condensed into a liquid at essentially atmospheric pressure by using further refrigeration to cool it to approximately -162 °C (260 °F).

The reduction in volume makes it much more cost efficient to transport over long distances where pipelines do not exist. Where moving natural gas by pipelines is not possible or economical, it can be transported by specially designed cryogenic sea vessels (LNG carriers) or cryogenic road tankers.


References