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  • ...gas, commonly known as '''Entonox''' (a registered trademark of [[British Oxygen Company|BOC]]) or '''Nitronox''',<ref name=jrcalc>{{cite book|publisher=Joi ...poxia caused by a lack of oxygen, and the requirement to have at least 21% oxygen content in the gas was discovered (the same percentage as in [[air]]).<ref
    6 KB (985 words) - 20:03, 24 September 2010

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  • ...an 10% moisture) and low fat can be dry packed in glass canning jars using oxygen absorbers. It is best to use quart or half gallon jars rather than pint jar 5. Remove oxygen absorbers from their container – one for each jar – and reseal the cont
    2 KB (385 words) - 22:45, 4 January 2010
  • ...with Staphylococcus aureus and some anaerobes (bacteria that live without oxygen), are involved in chronic sinusitis <ref name="WebMD"/>.” Fungi can also
    5 KB (834 words) - 19:35, 16 January 2010
  • ...une. A lengthy attack followed, at the close of which the escorts drew the oxygen-exhausted submarine to the surface by feigning their departure from the are
    7 KB (947 words) - 21:07, 2 July 2010
  • ...ing the amount of oxygen allowed into the burn and is stopped by excluding oxygen before the charcoal itself begins to burn. This is the ages old method used ...air can get into the drum. We are trying for a closed system here. If air/oxygen/fire-fuel DOES get into the drum, the charcoal will just burn up. Not what
    9 KB (1,717 words) - 18:40, 2 July 2010
  • ...ing the amount of oxygen allowed into the burn and is stopped by excluding oxygen before the charcoal itself begins to burn. This is the ages old method used
    2 KB (233 words) - 11:49, 19 June 2010
  • ...uch attention as scientists attempted to protect welds from the effects of oxygen and nitrogen in the atmosphere. Porosity and brittleness were the primary ...sion and fire risk; some common precautions include limiting the amount of oxygen in the air and keeping combustible materials away from the workplace.<ref>C
    22 KB (3,345 words) - 11:03, 20 June 2010
  • * Oxygen O<sub>2</sub>: 0.6%. ...ongly dependent on the gasification process, the gasification medium (air, oxygen or steam) and the fuel moisture. Steam-gasification processes typically yie
    11 KB (1,707 words) - 17:26, 24 June 2010
  • production stops as the bacteria deplete the oxygen and die. After a lull of a couple of days the anaerobic bacteria kick in an
    7 KB (1,320 words) - 14:15, 25 June 2010
  • ...o|Type 93]] oxygen-powered torpedo, commonly called the ''Long Lance'', as oxygen generating equipment was installed aboard the cruisers.
    5 KB (655 words) - 08:54, 19 September 2010
  • ...uring initial flight testing.<ref name="usaf"/> Gun exhaust is essentially oxygen-free, and is certainly capable of causing flame-outs of [[gas turbine]]s. T
    14 KB (2,240 words) - 19:12, 2 July 2010
  • Type 94 aerial version [[Type 93 torpedo|oxygen torpedo]] was heavy and unwieldy, so the plan was abandoned. ...ly developed their own Type 94 aerial torpedo, or aerial type of Type 93 ''oxygen torpedo''. Their original challenge of the latest type of giant [[Kawanishi
    63 KB (9,925 words) - 20:39, 2 July 2010
  • ...uel such as [[methyl alcohol|methanol]] or [[ethyl alcohol|ethanol]]. Pure oxygen provides five times as much oxidizer in the same tank volume, increasing sp ...tial enemy, the oxygen tank was named the ''secondary air tank''. The pure-oxygen torpedo was first deployed by IJN in 1935.
    17 KB (2,630 words) - 20:40, 2 July 2010
  • ...to the Type 93 "Long Lance" used by Japanese surface ships. It ran on pure oxygen rather than the compressed air used by most torpedo types at the time. Some
    2 KB (272 words) - 20:41, 2 July 2010
  • ...on Dam]] was found to be contributing to erosion of sand bars. Dissolved [[oxygen]] content of the water may change from pre-construction conditions. Dependi
    39 KB (5,447 words) - 22:02, 2 July 2010
  • ...after D, Adkinson C |title=Ocular quinine toxicity treated with hyperbaric oxygen |journal=Undersea Hyperb Med |volume=24 |issue=2 |pages=131–4 |year=1997
    27 KB (3,844 words) - 15:41, 27 September 2010
  • ...ic cells, release of [[enzyme]]s from [[lysosome]]s, release of [[reactive oxygen species]] from [[macrophage]]s, and production of [[IL-1]].
    16 KB (2,187 words) - 15:41, 27 September 2010
  • ...The effect was similar to that observed following a 3-week exposure to an oxygen-deprived environment (chronic [[hypoxia (medical)|hypoxia]]). The authors a
    28 KB (3,682 words) - 15:42, 27 September 2010
  • ...fur|S]]<sub>2</sub>[[Oxygen|O]]<sub>3</sub>•5[[Hydrogen|H]]<sub>2</sub>[[Oxygen|O]], an [[efflorescent]], [[monoclinic]] crystalline substance also called ...s tetrahedral in shape and is notionally derived by replacing one of the [[oxygen]] atoms by a [[sulfur]] atom in a [[sulfate]] anion. The S-S distance indi
    12 KB (1,720 words) - 15:42, 27 September 2010
  • ...many inflammatory diseases. The respiratory burst uses large quantities of oxygen, and a single neutrophil may produce enough HOCl in one second to destroy 1
    15 KB (2,087 words) - 15:43, 27 September 2010
  • ...excess air. The alkali metal iodide salt, over time and exposure to excess oxygen and carbon dioxide, slowly oxidizes to metal carbonate and elemental iodine
    23 KB (3,281 words) - 15:44, 27 September 2010

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