Greetings, and thanks in advance for your replies.
I recently went diving with an experienced scuba instructor (he's logged a lot more dives and certified a lot more students than I have) who said that he only uses dive computers in gauge mode because he doesn't trust computers to provide him with accurate no-decompression stop limits (NDLs). He's not yet a tech diver, but he has done the GUE Fundamentals course and is an avid DIR convert (as applied to recreational, no-deco stop diving); hence his opposition to replying upon dive computers for NDLs. I commented that I generally trust my computer as long as it's in good working order -- and I suggested that human error is more likely than computer error -- and I noted that using tables really limits one's NDLs on multi-level dives, compared to computers (or to PADI's wheel). He replied that he "averages" the table NDLs of the depths dived during a multi-level dive to extend his dive times beyond those allowed by his table's NDL for the deepest part of a multi-level dive.
We were doing fairly short, briefly deep but mostly shallow dives which turned out to be well within my computer's NDLs (and he was on EAN32 and I was on air so his margin of safety was even greater than mine), and I didn't want to get into a big and under the circumstances, moot, argument about it, but it seemed to me that his approach was quite wrong.
NDLs are determined by a specific M-value for a specific tissue compartment, and when using any table, a different tissue compartment and its M-value determine the NDL for a 30-meter dive than those which determine the NDL for a 15-meter dive, so "averaging" those NDL times (in whatever proportional way he does it -- he didn't elaborate) is like averaging apples and oranges. So in principle, it's wrong. Correct?
Please enlighten me if I'm mistaken, but: all tables assign a pressure group at the end of the dive and those pressure groups take into account not some abstract "total" nitrogen loading, but rather they take into account nitrogen loading vis-a-vis the M-values of each different tissue compartment used in that table's decompression model. So it seems to me that for a diver unwilling to rely upon a dive computer or PADI's wheel, then rather than "averaging" the NDLs of the dive's several depths a much better approach would be to determine the pressure group at the end of the deepest part of the dive and use that to work with the table to then determine the NDL for the next depth, and so on for any subsequently shallower depths. Does that sound correct?
In addition, instead of the standard safety stop at 5 meters for 3 minutes (remember, this is all recreational no-deco stop diving), he insisted upon doing something like "20 seconds at 15m, 30 seconds at 9 m, 50 seconds at 6 m, and 1 and a half minutes at 3m" (I forget the precise times, but you get the idea...). I've read Pyle's "The Importance of Deep Stops" and some related material, but for no-deco stop dives when one is ascending at no faster than 9m/minute, is there really any justification for a safety stop at 15m for a no-deco stop dive starting at 30m? And then additional (very short) stops at 9m and 6m? And then finishing at 3m rather than 5 m? Although the pressure gradient is steeper at 3m than at 5m so theoretically offgassing is a tad faster, many divers find it quite a bit harder to maintain a consistent 3m stop than to maintain a 5m stop due to buoyancy control difficulties or simply due to big waves (I'm at 3m -- here comes a big wave, and now I'm at 4.5m! wave quickly subsides and I'm at 1.5m! etc. etc. Much easier to maintain a consistent depth of about 5m). To me, simply ascending from a no-deco stop dive slowly (9m/minute) and then stopping for 3 minutes at about 5m makes the most sense (and is well-supported by empirical evidence from DAN studies). So, is there any empirical or theoretical support for anything other than a slow ascent rate and a 5m/3 minutes safety stop on no-deco stop dives?
Anyone care to comment? I'm not going to tell this guy what to do -- I'm just curious about the theory and about whatever empirical data might exist. I'd be grateful for your well-informed replies.
Cheers,
M
I recently went diving with an experienced scuba instructor (he's logged a lot more dives and certified a lot more students than I have) who said that he only uses dive computers in gauge mode because he doesn't trust computers to provide him with accurate no-decompression stop limits (NDLs). He's not yet a tech diver, but he has done the GUE Fundamentals course and is an avid DIR convert (as applied to recreational, no-deco stop diving); hence his opposition to replying upon dive computers for NDLs. I commented that I generally trust my computer as long as it's in good working order -- and I suggested that human error is more likely than computer error -- and I noted that using tables really limits one's NDLs on multi-level dives, compared to computers (or to PADI's wheel). He replied that he "averages" the table NDLs of the depths dived during a multi-level dive to extend his dive times beyond those allowed by his table's NDL for the deepest part of a multi-level dive.
We were doing fairly short, briefly deep but mostly shallow dives which turned out to be well within my computer's NDLs (and he was on EAN32 and I was on air so his margin of safety was even greater than mine), and I didn't want to get into a big and under the circumstances, moot, argument about it, but it seemed to me that his approach was quite wrong.
NDLs are determined by a specific M-value for a specific tissue compartment, and when using any table, a different tissue compartment and its M-value determine the NDL for a 30-meter dive than those which determine the NDL for a 15-meter dive, so "averaging" those NDL times (in whatever proportional way he does it -- he didn't elaborate) is like averaging apples and oranges. So in principle, it's wrong. Correct?
Please enlighten me if I'm mistaken, but: all tables assign a pressure group at the end of the dive and those pressure groups take into account not some abstract "total" nitrogen loading, but rather they take into account nitrogen loading vis-a-vis the M-values of each different tissue compartment used in that table's decompression model. So it seems to me that for a diver unwilling to rely upon a dive computer or PADI's wheel, then rather than "averaging" the NDLs of the dive's several depths a much better approach would be to determine the pressure group at the end of the deepest part of the dive and use that to work with the table to then determine the NDL for the next depth, and so on for any subsequently shallower depths. Does that sound correct?
In addition, instead of the standard safety stop at 5 meters for 3 minutes (remember, this is all recreational no-deco stop diving), he insisted upon doing something like "20 seconds at 15m, 30 seconds at 9 m, 50 seconds at 6 m, and 1 and a half minutes at 3m" (I forget the precise times, but you get the idea...). I've read Pyle's "The Importance of Deep Stops" and some related material, but for no-deco stop dives when one is ascending at no faster than 9m/minute, is there really any justification for a safety stop at 15m for a no-deco stop dive starting at 30m? And then additional (very short) stops at 9m and 6m? And then finishing at 3m rather than 5 m? Although the pressure gradient is steeper at 3m than at 5m so theoretically offgassing is a tad faster, many divers find it quite a bit harder to maintain a consistent 3m stop than to maintain a 5m stop due to buoyancy control difficulties or simply due to big waves (I'm at 3m -- here comes a big wave, and now I'm at 4.5m! wave quickly subsides and I'm at 1.5m! etc. etc. Much easier to maintain a consistent depth of about 5m). To me, simply ascending from a no-deco stop dive slowly (9m/minute) and then stopping for 3 minutes at about 5m makes the most sense (and is well-supported by empirical evidence from DAN studies). So, is there any empirical or theoretical support for anything other than a slow ascent rate and a 5m/3 minutes safety stop on no-deco stop dives?
Anyone care to comment? I'm not going to tell this guy what to do -- I'm just curious about the theory and about whatever empirical data might exist. I'd be grateful for your well-informed replies.
Cheers,
M
