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词条 Chemical oxygen generator
释义

  1. In commercial airliners

  2. Oxygen candle

  3. Pressure swing adsorption (PSA) oxygen generators

  4. Uses

  5. See also

  6. References

A chemical oxygen generator is a device that releases oxygen via a chemical reaction. The oxygen source is usually an inorganic superoxide,[1] chlorate, or perchlorate; ozonides are a promising group of oxygen sources. The generators are usually ignited by a firing pin, and the chemical reaction is usually exothermic, making the generator a potential fire hazard. Potassium superoxide was used as an oxygen source on early manned missions of the Soviet space program, for firefighters, and for mine rescue.

In commercial airliners

Commercial aircraft provide emergency oxygen to passengers to protect them from drops in cabin pressure. Chemical oxygen generators are not used for the cockpit crew, who are typically supplied using compressed oxygen canisters also known as oxygen bottles. In narrow body airliners, for each row of seats there are overhead oxygen masks and oxygen generators. In some wide-body airliners, such as the DC-10 and IL-96, the canisters and oxygen masks are mounted in the top portion of the seat backs, since the ceiling is too high above the passengers. If a decompression occurs, the panels are opened either by an automatic pressure switch or by a manual switch, and the masks are released. When the passengers pull down on the mask they remove the retaining pins and trigger the production of oxygen.

The oxidizer core is sodium chlorate (NaClO3), which is mixed with less than 5

percent barium peroxide (BaO2) and less than 1 percent potassium perchlorate (KClO4). 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 canister will reach {{convert|260|°C|°F|abbr=on}}. It will produce oxygen for 12 to 22 minutes.[2][3] 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.

Accidental activation of improperly shipped expired generators caused the ValuJet Flight 592 crash, killing all on board. 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 canister, 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.[4]

Oxygen candle

A chlorate candle, or an oxygen candle, is a cylindrical chemical oxygen generator that contains a mix of sodium chlorate and iron powder, which when ignited smolders at about {{convert|600|°C|°F|abbr=on}}, producing sodium chloride, iron oxide, and at a fixed rate about 6.5 man-hours of oxygen per kilogram of the mixture. The mixture has an indefinite shelf life if stored properly: candles have been stored for 20 years without decreased oxygen output. Thermal decomposition releases the oxygen. The burning iron supplies the heat. The candle must be wrapped in thermal insulation to maintain the reaction temperature and to protect surrounding equipment. The key reaction is:[5]

2 NaClO3 → 2 NaCl + 3 O2

Potassium and lithium chlorate, and sodium, potassium and lithium perchlorates can also be used in oxygen candles.

An explosion caused by one of these candles killed two Royal Navy sailors on {{HMS|Tireless|S88}}, a nuclear-powered submarine, under the Arctic on 21 March 2007.[6] The candle had become contaminated with hydraulic oil, which caused the mixture to explode rather than burn.[7]

In the Vika oxygen generator used on some spacecraft, lithium perchlorate is the source of oxygen. At 400 °C, it releases 60% of its weight as oxygen:[8]

LiClO4 → LiCl + 2 O2

Pressure swing adsorption (PSA) oxygen generators

{{Main|Oxygen concentrator}}

Advances in technology have provided industrial oxygen generator systems for use where air is available and a higher concentration of oxygen is desired. Pressure swing adsorption (PSA) incorporates a material called molecular sieve for gas separation. In the case of oxygen generation a zeolite-based sieve forces preferential adsorption for nitrogen. Clean, dry air is passed through the sieve beds on the oxygen generator, producing an oxygen-enriched gas. Nitrogen separation membrane equipment is also used.

Uses

Chemical oxygen generators are used in aircraft, breathing apparatus for firefighters and mine rescue crews, submarines, and everywhere a compact emergency oxygen generator with long shelf life is needed. They usually contain a device for absorption of carbon dioxide, sometimes a filter filled with lithium hydroxide; a kilogram of LiOH absorbs about half a kilogram of CO2.

  • Self-contained oxygen generators (SCOGs) are used in submarines.
  • Self-contained self-rescue devices (SCSRs) are used to facilitate escape from mines.
  • On the International Space Station, chemical oxygen generators are used as a backup supply. Each canister can produce enough oxygen for one crewmember for one day.[9]

See also

  • Oxygen storage

References

1. ^ Hayyan M., Hashim M.A., AlNashef I.M., Superoxide Ion: Generation and Chemical Implications, Chem. Rev., 2016, 116 (5), pp 3029–3085. 10.1021/acs.chemrev.5b00407
2. ^{{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 }}
3. ^{{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}}
4. ^Airliners.net, Photograph, Dave Campbell
5. ^{{Greenwood&Earnshaw2nd}}
6. ^{{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}}
7. ^{{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 }}
8. ^{{cite journal|title=Lithium Perchlorate Oxygen Candle. Pyrochemical Source of Pure Oxygen|authors=M. M. Markowitz, D. A. Boryta, and Harvey Stewart, Jr.|journal=Ind. Eng. Chem. Prod. Res. Dev.|year=1964|volume=3|pages=321–330|doi=10.1021/i360012a016}}
9. ^{{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}}
{{DEFAULTSORT:Chemical Oxygen Generator}}

5 : Human spaceflight|Firefighting equipment|Submarine design|Oxygen|Gas technologies

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