Chemical oxygen generator: Difference between revisions

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Revision as of 13:48, 1 April 2025 edit Fluyt (talk \| contribs) Extended confirmed users 2,739 edits m Replaced "weight" with "mass". Tags: Visual edit Mobile edit Mobile web edit ← Previous edit		Latest revision as of 18:07, 30 August 2025 edit undo 2600:1012:b1a1:c509:be0c:2720:af61:e6f (talk) Replaced "The candle had become contaminated with hydraulic oil" with "Likely had become contamined with hydraulic oil". . The contamination and specificly, oil contamination, could not be conclusivsely proven. It is fact however that the ingredients in the candles will explode when mixed with organic matter Tags: Visual edit Mobile edit Mobile web edit
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Line 10: The oxidizer core is [[sodium chlorate]] ([[Sodium\|Na]][[Chlorine\|Cl]][[Oxygen\|O]]<sub>3</sub>), which is mixed with less than 5{{nbsp}}percent [[barium peroxide]] ([[barium\|Ba]][[Oxygen\|O]]<sub>2</sub>) and less than 1 percent [[potassium perchlorate]] ([[potassium\|K]][[chlorine\|Cl]][[oxygen\|O]]<sub>4</sub>). The explosives in the percussion cap are a [[lead styphnate]] and [[tetrazene explosive]] mixture. The chemical reaction is exothermic and the exterior temperature of the generator will reach {{convert\|260\|°C\|°F\|abbr=on}}. It will produce oxygen for 12 to 22 minutes.<ref>{{cite journal \|title=Functions of Barium Peroxide in Sodium Chlorate Chemical Oxygen \|author1=Yunchang Zhang \|author2=Girish Kshirsagar \|author3=James C. Cannon \|journal=Ind. Eng. Chem. Res. \|volume=32 \|issue=5 \|pages=966–969 \|year=1993 \|url= \|doi=10.1021/ie00017a028 }}</ref><ref>{{cite journal \|title=Chlorate Candles as a Source of Oxygen \|author1=William H. Schechter \|author2=R. R. Miller \|author3=Robert M. Bovard \|author4=C. B. Jackson \|author5=John R. Pappenheimer \|journal=Industrial & Engineering Chemistry \|volume=42 \|issue=11 \|pages=2348–2353 \|year=1950 \|url= \|doi=10.1021/ie50491a045}}</ref> The two-mask generator is approximately {{convert\|63\|mm\|in\|abbr=on}} in diameter and {{convert\|223\|mm\|in\|abbr=on}} long. The three-mask generator is approximately {{convert\|70\|mm\|in\|abbr=on}} in diameter and {{convert\|250\|mm\|in\|abbr=on}} long. InOn May 11, 1996, accidental activation of improperly shipped expired generators, mistakenly labeled as empty "oxy canisters",<ref name=FAA-N904VJ>{{Cite web \|title=McDonnell Douglas DC-9-32 {{!}} ValuJet Airlines Flight 592, N904VJ \|work=[[Federal Aviation Administration]] \|date=19 December 2022 \|access-date=10 October 2024 \|url=https://www.faa.gov/lessons_learned/transport_airplane/accidents/N904VJ}}</ref> caused the [[ValuJet ~~Airlines~~ Flight 592]] crash, killing all on board.<ref>{{cite episode\|series=[[Mayday (Canadian TV series)\|Mayday]]\|title=Fire in the Hold\|season=12\|number=2\|date=10 August 2012}}</ref> An ATA DC-10, Flight 131, was also destroyed while parked at O'Hare Airport, on August 10, 1986. The cause was the accidental activation of an oxygen generator, contained in the back of a broken DC-10 seat, being shipped in the cargo compartment to a repair station. There were no fatalities or injuries because the plane contained no passengers when the fire broke out.<ref>{{cite web \|title= OT McDonnell Douglas DC-10-40 N184AT \|url= https://asn.flightsafety.org/asndb/326951 \|work= [[Aviation Safety Network]] \|url-status= live \|archive-url= https://archive.today/20240621035329/https://asn.flightsafety.org/asndb/326951 \|archive-date= June 21, 2024}}</ref><ref>[http://www.airliners.net/photo/American-Trans-Air/McDonnell-Douglas-DC-10-40/0148751/L/&sid=faf57dd90832c5c13834020fb2255dc2 Airliners.net, Photograph, Dave Campbell]</ref> ==Oxygen candle== Line 18: [[potassium chlorate\|Potassium]] and [[lithium chlorate]], and [[sodium perchlorate\|sodium]], [[potassium perchlorate\|potassium]] and [[lithium perchlorate]]s can also be used in oxygen candles. In the [[Vika oxygen generator]] used on some spacecraft, [[lithium perchlorate]] is the source of [[oxygen]]. At {{convert\|400\|°C\|°F\|abbr=on\|sigfig=2}}, it releases 60% of its mass as [[oxygen]]:<ref>{{cite journal\|title=Lithium Perchlorate Oxygen Candle. Pyrochemical Source of Pure Oxygen\|author1=M. M. Markowitz \|author2=D. A. Boryta \|author3=Harvey Stewart Jr. \|journal=Ind. Eng. Chem. Prod. Res. Dev.\|year=1964\|volume=3\|issue=4\|pages=321–330 \|doi=10.1021/i360012a016}}</ref> :LiClO<sub>4</sub> → LiCl + 2 O<sub>2</sub> Line 30: Self-contained oxygen generators (SCOGs) are used in submarines. * They were successfully used by the [[USS New Hampshire (SSN-778)\|USS ''New Hampshire'']], an American nuclear-powered submarine, in March 2011 when the submarine suffered an oxygen generator failure while under the [[Arctic ice cap]].<ref>{{cite news\| url= https://www.reuters.com/article/us-unitedtechnologies-submarine-idUSTRE72K7U420110321 \| work=Reuters \| title=Exclusive: UTC-built oxygen generator fails on U.S. submarine \| date=21 March 2011 \|access-date=21 February 2021 }}</ref> ** An explosion caused by a so-called oxygen candle killed two Royal Navy sailors on {{HMS\|Tireless\|S88}}, a nuclear-powered submarine, under the Arctic on 21 March 2007.<ref>{{cite web\|last1=Johnson\|first1=C. W.\|title=Degraded Modes and the 'Culture of Coping' in Military Operations: An Analysis of a Fatal Incident on-board HMS Tireless on 20/21 March 2007\|url=http://www.dcs.gla.ac.uk/~johnson/papers/JWSSC2009/Degraded_Modes.pdf}}</ref> The candle had likely become contaminated with hydraulic oil, which would have caused the mixture to explode rather than burn.<ref>{{cite web \|title = 'Oxygen candle' caused explosion\| url = https://www.theregister.co.uk/2007/03/22/sub_blast_oxy_candle/ \| publisher = The Register \| last = Page \| first = Lewis \| date = 22 March 2007 \| accessdate = 2013-09-04 }}</ref>{{Failed verification\|date=April 2024}} [[Self-contained self-rescue device]]s (SCSRs) are used to facilitate escape from [[mining\|mines]]. On the [[International Space Station]], chemical oxygen generators are used as a backup supply. Each Vika oxygen generator can produce enough oxygen for one crewmember for one day.<ref>{{cite web\|last=Barry\|first=Patrick\|title=Breathing Easy on the Space Station\|url=https://science.nasa.gov/science-news/science-at-nasa/2000/ast13nov_1/\|accessdate=9 September 2012\|year=2000\|publisher=[[National Aeronautics and Space Administration]]\|archive-date=11 March 2019\|archive-url=https://web.archive.org/web/20190311204439/https://science.nasa.gov/science-news/science-at-nasa/2000/ast13nov_1\|url-status=dead}}</ref>