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Industrial production of oxygen

Two major methods are employed to produce the 100 million tonnes of O³0_{1³ extracted from air for industrial uses annually. The most common method is to fractionally-distill liquefied air into its various components, with Nitrogen N₂ distilling as a vapor while Oxygen O³4_{5³ is left as a liquid.

The other major method of producing O³6_{7³ gas involves passing a stream of clean, dry air through one bed of a pair of identical zeolite molecular sieves, which absorbs the Nitrogen and delivers a gas stream that is 90% to 93% O³8_{9³. Simultaneously, Nitrogen gas is released from the other nitrogen-saturated zeolite bed, by reducing the chamber operating pressure and diverting part of the Oxygen gas from the producer bed through it, in the reverse direction of flow. After a set cycle time the operation of the two beds is interchanged, thereby allowing for a continuous supply of gaseous Oxygen to be pumped through a pipeline. This is known as pressure swing adsorption. Oxygen gas is increasingly obtained by these non-cryogenic technologies (see also the related vacuum swing adsorption). ()}}

Oxygen gas can also be produced through electrolysis of water into molecular oxygen and Hydrogen. A similar method is the electrocatalytic O³10_{11³ evolution from oxides and oxoacids. Chemical catalysts can be used as well, such as in chemical oxygen generators or oxygen candles that are used as part of the life-support equipment on submarines, and are still part of standard equipment on commercial airliners in case of depressurization emergencies. Another air separation technology involves forcing air to dissolve through ceramic membranes based on Zirconium dioxide by either high pressure or an electric current, to produce nearly pure O³12_{13³ gas.}}

In large quantities, the price of liquid oxygen in 2001 was approximately $0.21/kg. () Since the primary cost of production is the energy cost of liquefying the air, the production cost will change as energy cost varies.

For reasons of economy oxygen is often transported in bulk as a liquid in specially-insulated tankers, since one litre of liquefied oxygen is equivalent to 840 liters of gaseous oxygen at atmospheric pressure and 20 °C. Such tankers are used to refill bulk liquid oxygen storage containers, which stand outside hospitals and other institutions with a need for large volumes of pure oxygen gas. Liquid oxygen is passed through heat exchangers, which convert the cryogenic liquid into gas before it enters the building. Oxygen is also stored and shipped in smaller cylinders containing the compressed gas; a form that is useful in certain portable medical applications and oxy-fuel welding and cutting.

See also:
oxygen

From Perodic Table

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Hive Wiki: Industrial production of oxygen

The Hive Wiki Dictionary - Definitions: Wiki: (wih-kee) (n.) 1. Flexible website alternative to blogs! 2. Collaborative, fun to develop, community-oriented website. (v.) 3. To easily create a website without knowing HTML. (do it!) 4. Go Here To Start New HiveWiki Now! Home \| Edit \| Index \| Recent Changes Industrial production of oxygen Two major methods are employed to produce the 100 million tonnes of O³0_{1³ extracted from air for industrial uses annually. The most common method is to fractionally-distill liquefied air into its various components, with Nitrogen N₂ distilling as a vapor while Oxygen O³4_{5³ is left as a liquid. The other major method of producing O³6_{7³ gas involves passing a stream of clean, dry air through one bed of a pair of identical zeolite molecular sieves, which absorbs the Nitrogen and delivers a gas stream that is 90% to 93% O³8_{9³. Simultaneously, Nitrogen gas is released from the other nitrogen-saturated zeolite bed, by reducing the chamber operating pressure and diverting part of the Oxygen gas from the producer bed through it, in the reverse direction of flow. After a set cycle time the operation of the two beds is interchanged, thereby allowing for a continuous supply of gaseous Oxygen to be pumped through a pipeline. This is known as pressure swing adsorption. Oxygen gas is increasingly obtained by these non-cryogenic technologies (see also the related vacuum swing adsorption). ()}} Oxygen gas can also be produced through electrolysis of water into molecular oxygen and Hydrogen. A similar method is the electrocatalytic O³10_{11³ evolution from oxides and oxoacids. Chemical catalysts can be used as well, such as in chemical oxygen generators or oxygen candles that are used as part of the life-support equipment on submarines, and are still part of standard equipment on commercial airliners in case of depressurization emergencies. Another air separation technology involves forcing air to dissolve through ceramic membranes based on Zirconium dioxide by either high pressure or an electric current, to produce nearly pure O³12_{13³ gas.}} In large quantities, the price of liquid oxygen in 2001 was approximately $0.21/kg. () Since the primary cost of production is the energy cost of liquefying the air, the production cost will change as energy cost varies. For reasons of economy oxygen is often transported in bulk as a liquid in specially-insulated tankers, since one litre of liquefied oxygen is equivalent to 840 liters of gaseous oxygen at atmospheric pressure and 20 °C. Such tankers are used to refill bulk liquid oxygen storage containers, which stand outside hospitals and other institutions with a need for large volumes of pure oxygen gas. Liquid oxygen is passed through heat exchangers, which convert the cryogenic liquid into gas before it enters the building. Oxygen is also stored and shipped in smaller cylinders containing the compressed gas; a form that is useful in certain portable medical applications and oxy-fuel welding and cutting. See also: oxygen From Perodic Table Fresh copy to be cached until 12:35:25 PM 379 hits}} This Page: Edit \| History This Wiki: Home \| Related To Industrial_production_of_oxygen \| Index \| Recent Changes \| Random Page \| Search Login \| Create New Wiki \| Wiki List 11/23/2008 4:35 AM v0.61.106 ADBEFEED
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