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Maximum operating depth

April 06, 2024

In underwater diving activities such as saturation diving, technical diving and nitrox diving, the maximum operating depth (MOD) of a breathing gas is the depth below which the partial pressure of oxygen (pO2) of the gas mix exceeds an acceptable limit. This limit is based on risk of central nervous system oxygen toxicity, and is somewhat arbitrary, and varies depending on the diver training agency or Code of Practice, the level of underwater exertion expected and the planned duration of the dive, but is normally in the range of 1.2 to 1.6 bar.[1]

The MOD is significant when planning dives using gases such as heliox, nitrox and trimix because the proportion of oxygen in the mix determines a maximum depth for breathing that gas at an acceptable risk. There is a risk of acute oxygen toxicity if the MOD is exceeded.[1] The tables below show MODs for a selection of oxygen mixes. Atmospheric air contains approximately 21% oxygen, and has an MOD calculated by the same method.

Safe limit of partial pressure of oxygen edit

Acute, or central nervous system oxygen toxicity is a time variable response to the partial pressure exposure history of the diver and is both complex and not fully understood.

Central nervous system oxygen toxicity manifests as symptoms such as visual changes (especially tunnel vision), ringing in the ears (tinnitus), nausea, twitching (especially of the face), behavioural changes (irritability, anxiety, confusion), and dizziness. This may be followed by a tonic–clonic seizure consisting of two phases: intense muscle contraction occurs for several seconds (tonic phase); followed by rapid spasms of alternate muscle relaxation and contraction producing convulsive jerking (clonic phase). The seizure ends with a period of unconsciousness (the postictal state).[2][3] The onset of seizure depends upon the partial pressure of oxygen in the breathing gas and exposure duration. However, exposure time before onset is unpredictable, as tests have shown a wide variation, both amongst individuals, and in the same individual from day to day.[2][4][5] In addition, many external factors, such as underwater immersion, exposure to cold, and exercise will decrease the time to onset of central nervous system symptoms.[6] Decrease of tolerance is closely linked to retention of carbon dioxide.[7][8][9] Other factors, such as darkness and caffeine, increase tolerance in test animals, but these effects have not been proven in humans.[10][11]

The maximum single exposure limits recommended in the NOAA Diving Manual are 45 minutes at 1.6 bar, 120 minutes at 1.5 bar, 150 minutes at 1.4 bar, 180 minutes at 1.3 bar and 210 minutes at 1.2 bar.[1]

Formula edit

The formula simply divides the absolute partial pressure of oxygen which can be tolerated (expressed in atm or bar) by the fraction of oxygen in the breathing gas, to calculate the absolute pressure at which the mix can be breathed. (for example, 50% nitrox can be breathed at twice the pressure of 100% oxygen, so divide by 0.5, etc.). Of this total pressure which can be tolerated by the diver, 1 atmosphere is due to surface pressure of the Earth's air, and the rest is due to the depth in water. So the 1 atmosphere or bar contributed by the air is subtracted to give the pressure due to the depth of water. The pressure produced by depth in water, is converted to pressure in feet sea water (fsw) or metres sea water (msw) by multiplying with the appropriate conversion factor, 33 fsw per atm, or 10 msw per bar.

In feet

 

In which pO2 is the chosen maximum partial pressure of oxygen in atmospheres absolute and the FO2 is the fraction of oxygen in the mixture. For example, if a gas contains 36% oxygen (FO2 = 0.36) and the limiting maximum pO2 is chosen at 1.4 atmospheres absolute, the MOD in feet of seawater (fsw)[Notes 1] is 33 fsw/atm x [(1.4 ata / 0.36) − 1] = 95.3 fsw.[12]

In metres

 

In which pO2 is the chosen maximum partial pressure in oxygen in bar and the FO2 is the fraction of oxygen in the mixture. For example, if a gas contains 36% oxygen and the maximum pO2 is 1.4 bar, the MOD (msw) is 10 msw/bar x [(1.4 bar / 0.36) − 1] = 28.9 msw.

Tables edit

Maximum Operating Depth (MOD) in feet sea water (fsw) for pO2 1.2 to 1.6
MOD (fsw) % oxygen
4 8 12 16 20 21 24 28 32 36 40 50 60 70 80 90 100
Maximum pO2 (bar) 1.6 1287 627 407 297 231 218 187 156 132 114 99 73 55 42 33 26 20
1.5 1205 586 380 276 215 203 173 144 122 105 91 66 50 38 29 22 17
1.4 1122 545 352 256 198 187 160 132 111 95 83 59 44 33 25 18 13
1.3 1040 503 325 235 182 171 146 120 101 86 74 53 39 28 21 15 10
1.2 957 462 297 215 165 156 132 108 91 77 66 46 33 24 17 11 7

These depths are rounded to the nearest foot.

Maximum Operating Depth (MOD) in metres sea water (msw) for pO2 1.2 to 1.6
MOD (msw) % oxygen
4 8 12 16 20 21 24 28 32 36 40 50 60 70 80 90 100
Maximum pO2 (bar) 1.6 390 190 123 90 70 66 57 47 40 34 30 22 17 13 10 8 6
1.5 365 178 115 84 65 61 53 44 37 32 28 20 15 11 9 7 5
1.4 340 165 107 78 60 57 48 40 34 29 25 18 13 10 8 6 4
1.3 315 153 98 71 55 52 44 36 31 26 23 16 12 9 6 4 3
1.2 290 140 90 65 50 47 40 33 28 23 20 14 10 7 5 3 2

These depths are rounded to the nearest metre.

See also edit

  • Oxygen toxicity – Toxic effects of breathing oxygen at high partial pressures

Notes edit

  1. ^ Feet sea water (fsw) is a unit of pressure. One fsw is equal to the hydrostatic pressure exerted by a standard sea water column of 1 foot height at normal Earth gravity. 33 fsw is approximately equal to one standard atmosphere (atm). A pressure indicated in fsw is gauge pressure (relative to surface pressure) unless specified.

References edit

  1. ^ a b c Lang, M.A. (2001). . Durham, NC: Divers Alert Network. p. 52. Archived from the original on October 24, 2008. Retrieved 21 November 2012.{{cite book}}: CS1 maint: unfit URL (link)
  2. ^ a b Clark & Thom 2003, p. 376.
  3. ^ U.S. Navy Diving Manual 2011, p. 44, vol. 1, ch. 3.
  4. ^ U.S. Navy Diving Manual 2011, p. 22, vol. 4, ch. 18.
  5. ^ Bitterman, N (2004). . Undersea and Hyperbaric Medicine. 31 (1): 63–72. PMID 15233161. Archived from the original on August 20, 2008. Retrieved 29 April 2008.{{cite journal}}: CS1 maint: unfit URL (link)
  6. ^ Donald, Part I 1947.
  7. ^ Lang 2001, p. 82.
  8. ^ Richardson, Drew; Menduno, Michael; Shreeves, Karl, eds. (1996). . Diving Science and Technology Workshop: 286. Archived from the original on September 15, 2008. Retrieved 20 September 2008.{{cite journal}}: CS1 maint: unfit URL (link)
  9. ^ Richardson, Drew; Shreeves, Karl (1996). . South Pacific Underwater Medicine Society Journal. 26 (3). ISSN 0813-1988. OCLC 16986801. Archived from the original on October 24, 2008. Retrieved 2 May 2008.{{cite journal}}: CS1 maint: unfit URL (link)
  10. ^ Bitterman, N; Melamed, Y; Perlman, I (1986). "CNS oxygen toxicity in the rat: role of ambient illumination". Undersea Biomedical Research. 13 (1): 19–25. PMID 3705247. Archived from the original on January 13, 2013. Retrieved 20 September 2008.{{cite journal}}: CS1 maint: unfit URL (link)
  11. ^ Bitterman, N; Schaal, S (1995). "Caffeine attenuates CNS oxygen toxicity in rats". Brain Research. 696 (1–2): 250–3. doi:10.1016/0006-8993(95)00820-G. PMID 8574677. S2CID 9020944.
  12. ^ (PDF). NOAA Diving Manual. National Oceanic and Atmospheric Administration. Archived from the original (PDF) on 31 May 2014. Retrieved 6 September 2013.

Sources edit

  • Clark, James M; Thom, Stephen R (2003). "Oxygen under pressure". In Brubakk, Alf O; Neuman, Tom S (eds.). Bennett and Elliott's physiology and medicine of diving (5th ed.). United States: Saunders. pp. 358–418. ISBN 978-0-7020-2571-6. OCLC 51607923.
  • Donald, Kenneth W (1947). "Oxygen Poisoning in Man: Part I". British Medical Journal. 1 (4506): 667–672. doi:10.1136/bmj.1.4506.667. PMC 2053251. PMID 20248086.
  • Lang, Michael A, ed. (2001). . Durham, NC: Divers Alert Network, 197 pages. Archived from the original on October 24, 2008. Retrieved 20 September 2008.{{cite book}}: CS1 maint: unfit URL (link)
  • U.S. Navy Supervisor of Diving (2011). (PDF). SS521-AG-PRO-010 0910-LP-106-0957, revision 6 with Change A entered. U.S. Naval Sea Systems Command. Archived from the original (PDF) on 2014-12-10. Retrieved 29 Jan 2015.

April 06, 2024
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In underwater diving activities such as saturation diving technical diving and nitrox diving the maximum operating depth MOD of a breathing gas is the depth below which the partial pressure of oxygen pO2 of the gas mix exceeds an acceptable limit This limit is based on risk of central nervous system oxygen toxicity and is somewhat arbitrary and varies depending on the diver training agency or Code of Practice the level of underwater exertion expected and the planned duration of the dive but is normally in the range of 1 2 to 1 6 bar 1 The MOD is significant when planning dives using gases such as heliox nitrox and trimix because the proportion of oxygen in the mix determines a maximum depth for breathing that gas at an acceptable risk There is a risk of acute oxygen toxicity if the MOD is exceeded 1 The tables below show MODs for a selection of oxygen mixes Atmospheric air contains approximately 21 oxygen and has an MOD calculated by the same method Contents 1 Safe limit of partial pressure of oxygen 2 Formula 3 Tables 4 See also 5 Notes 6 References 7 SourcesSafe limit of partial pressure of oxygen editAcute or central nervous system oxygen toxicity is a time variable response to the partial pressure exposure history of the diver and is both complex and not fully understood Central nervous system oxygen toxicity manifests as symptoms such as visual changes especially tunnel vision ringing in the ears tinnitus nausea twitching especially of the face behavioural changes irritability anxiety confusion and dizziness This may be followed by a tonic clonic seizure consisting of two phases intense muscle contraction occurs for several seconds tonic phase followed by rapid spasms of alternate muscle relaxation and contraction producing convulsive jerking clonic phase The seizure ends with a period of unconsciousness the postictal state 2 3 The onset of seizure depends upon the partial pressure of oxygen in the breathing gas and exposure duration However exposure time before onset is unpredictable as tests have shown a wide variation both amongst individuals and in the same individual from day to day 2 4 5 In addition many external factors such as underwater immersion exposure to cold and exercise will decrease the time to onset of central nervous system symptoms 6 Decrease of tolerance is closely linked to retention of carbon dioxide 7 8 9 Other factors such as darkness and caffeine increase tolerance in test animals but these effects have not been proven in humans 10 11 The maximum single exposure limits recommended in the NOAA Diving Manual are 45 minutes at 1 6 bar 120 minutes at 1 5 bar 150 minutes at 1 4 bar 180 minutes at 1 3 bar and 210 minutes at 1 2 bar 1 Formula editThe formula simply divides the absolute partial pressure of oxygen which can be tolerated expressed in atm or bar by the fraction of oxygen in the breathing gas to calculate the absolute pressure at which the mix can be breathed for example 50 nitrox can be breathed at twice the pressure of 100 oxygen so divide by 0 5 etc Of this total pressure which can be tolerated by the diver 1 atmosphere is due to surface pressure of the Earth s air and the rest is due to the depth in water So the 1 atmosphere or bar contributed by the air is subtracted to give the pressure due to the depth of water The pressure produced by depth in water is converted to pressure in feet sea water fsw or metres sea water msw by multiplying with the appropriate conversion factor 33 fsw per atm or 10 msw per bar In feetMOD fsw 33 fsw atm pO2 ataFO2 1 displaystyle MOD fsw 33 mathrm fsw atm times left left pO 2 mathrm ata over FO 2 right 1 right nbsp In which pO2 is the chosen maximum partial pressure of oxygen in atmospheres absolute and the FO2 is the fraction of oxygen in the mixture For example if a gas contains 36 oxygen FO2 0 36 and the limiting maximum pO2 is chosen at 1 4 atmospheres absolute the MOD in feet of seawater fsw Notes 1 is 33 fsw atm x 1 4 ata 0 36 1 95 3 fsw 12 In metresMOD msw 10 msw bar pO2 barFO2 1 displaystyle MOD msw 10 mathrm msw bar times left left pO 2 mathrm bar over FO 2 right 1 right nbsp In which pO2 is the chosen maximum partial pressure in oxygen in bar and the FO2 is the fraction of oxygen in the mixture For example if a gas contains 36 oxygen and the maximum pO2 is 1 4 bar the MOD msw is 10 msw bar x 1 4 bar 0 36 1 28 9 msw Tables editMaximum Operating Depth MOD in feet sea water fsw for pO2 1 2 to 1 6 MOD fsw oxygen4 8 12 16 20 21 24 28 32 36 40 50 60 70 80 90 100Maximum pO2 bar 1 6 1287 627 407 297 231 218 187 156 132 114 99 73 55 42 33 26 201 5 1205 586 380 276 215 203 173 144 122 105 91 66 50 38 29 22 171 4 1122 545 352 256 198 187 160 132 111 95 83 59 44 33 25 18 131 3 1040 503 325 235 182 171 146 120 101 86 74 53 39 28 21 15 101 2 957 462 297 215 165 156 132 108 91 77 66 46 33 24 17 11 7These depths are rounded to the nearest foot Maximum Operating Depth MOD in metres sea water msw for pO2 1 2 to 1 6 MOD msw oxygen4 8 12 16 20 21 24 28 32 36 40 50 60 70 80 90 100Maximum pO2 bar 1 6 390 190 123 90 70 66 57 47 40 34 30 22 17 13 10 8 61 5 365 178 115 84 65 61 53 44 37 32 28 20 15 11 9 7 51 4 340 165 107 78 60 57 48 40 34 29 25 18 13 10 8 6 41 3 315 153 98 71 55 52 44 36 31 26 23 16 12 9 6 4 31 2 290 140 90 65 50 47 40 33 28 23 20 14 10 7 5 3 2These depths are rounded to the nearest metre See also editOxygen toxicity Toxic effects of breathing oxygen at high partial pressuresNotes edit Feet sea water fsw is a unit of pressure One fsw is equal to the hydrostatic pressure exerted by a standard sea water column of 1 foot height at normal Earth gravity 33 fsw is approximately equal to one standard atmosphere atm A pressure indicated in fsw is gauge pressure relative to surface pressure unless specified References edit a b c Lang M A 2001 DAN Nitrox Workshop Proceedings Durham NC Divers Alert Network p 52 Archived from the original on October 24 2008 Retrieved 21 November 2012 a href Template Cite book html title Template Cite book cite book a CS1 maint unfit URL link a b Clark amp Thom 2003 p 376 U S Navy Diving Manual 2011 p 44 vol 1 ch 3 U S Navy Diving Manual 2011 p 22 vol 4 ch 18 Bitterman N 2004 CNS oxygen toxicity Undersea and Hyperbaric Medicine 31 1 63 72 PMID 15233161 Archived from the original on August 20 2008 Retrieved 29 April 2008 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Donald Part I 1947 Lang 2001 p 82 Richardson Drew Menduno Michael Shreeves Karl eds 1996 Proceedings of rebreather forum 2 0 Diving Science and Technology Workshop 286 Archived from the original on September 15 2008 Retrieved 20 September 2008 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Richardson Drew Shreeves Karl 1996 The PADI enriched air diver course and DSAT oxygen exposure limits South Pacific Underwater Medicine Society Journal 26 3 ISSN 0813 1988 OCLC 16986801 Archived from the original on October 24 2008 Retrieved 2 May 2008 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Bitterman N Melamed Y Perlman I 1986 CNS oxygen toxicity in the rat role of ambient illumination Undersea Biomedical Research 13 1 19 25 PMID 3705247 Archived from the original on January 13 2013 Retrieved 20 September 2008 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Bitterman N Schaal S 1995 Caffeine attenuates CNS oxygen toxicity in rats Brain Research 696 1 2 250 3 doi 10 1016 0006 8993 95 00820 G PMID 8574677 S2CID 9020944 Physics of Diving PDF NOAA Diving Manual National Oceanic and Atmospheric Administration Archived from the original PDF on 31 May 2014 Retrieved 6 September 2013 Sources editClark James M Thom Stephen R 2003 Oxygen under pressure In Brubakk Alf O Neuman Tom S eds Bennett and Elliott s physiology and medicine of diving 5th ed United States Saunders pp 358 418 ISBN 978 0 7020 2571 6 OCLC 51607923 Donald Kenneth W 1947 Oxygen Poisoning in Man Part I British Medical Journal 1 4506 667 672 doi 10 1136 bmj 1 4506 667 PMC 2053251 PMID 20248086 Lang Michael A ed 2001 DAN nitrox workshop proceedings Durham NC Divers Alert Network 197 pages Archived from the original on October 24 2008 Retrieved 20 September 2008 a href Template Cite book html title Template Cite book cite book a CS1 maint unfit URL link U S Navy Supervisor of Diving 2011 U S Navy Diving Manual PDF SS521 AG PRO 010 0910 LP 106 0957 revision 6 with Change A entered U S Naval Sea Systems Command Archived from the original PDF on 2014 12 10 Retrieved 29 Jan 2015 Retrieved from https en wikipedia org w index php title Maximum operating depth amp oldid 1119485703, wikipedia, wiki, book, books, library,

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