Not a resting sac lol.
45lpm is for 'stressed' situations.
Resting sac calcs are for open circuit good day planning
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I still state that it is entirely possible to maintain "unrealistic" SAC eg 45lpm in a CO2 scenario for a prolonged period of time. This means it can carry on well into deco.
I also can't plan for lower working SAC than 17lpm as I have repeatedly measured this on OC.
I looked at the 45lpm gas volumes and decided that I can't carry that much gas especially if I want a deeper dive than 45m.
I plan for 25lpm until the first stop then drop it to 17lpm. As I'm unlikely to "work" on deco it has some in-built reserve.
As I have said before I do everything I can to avoid CO2 issues, utilising the experience of others and the technology available on my RB.
Thanks tamas, that's exactly what I was trying to say, but you put it better
Mark - I hear what you are saying but the vast majority of tech dives aren't 2.5 hours of required ascent / deco after getting a co2 hit.
Tamas is saying that these breathing rates are sustainable, someone else on another thread (can't recall exactly) was pointing out a possible error in your calculations or assumptions. It's not me that seems not to get it, perhaps the other way around?
Or perhaps we are all actually in the same ballpark but it's the usual Internet translTion???
We all agree 45lpm or more is not realistic volume calc level for deep long dives, (but I maintain it is ok for vast majority of mod1 /2 non overhead dives)
I wouldn't use 45 for a 100m dive, as you say, it's undoable and I agree
As tamas says, you have to pick your strategy and perhaps mitigate onset of c02 hits in the first place
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Just came across this from the commercial sector, they plan for umbilical failure bailout with either OC or CCR at 62.5L/min.
The Norwegian sector of the North Sea recognises this as a significant risk, and stipulates that a diver must have a minimum of 10 minutes of emergency breathing gas, calculated at a breathing rate of 62.5l/min.
Mark I agree with you. My BO planning is 30lpm until my first stop as in previous post. I feel that's a fair balance of risk. I thought it would be interesting to share other philosophies.
No problem but they need to be qualified so people who dont fully understand can read them in context
If somone new reads this threrad and starts planning on a 60lpm SAC to be "safe" then goes out doing 50m dives with three AL80 tanks full of gas, I dont think we have acheived any improvement in safety.
In fact i feer we may have made things worse
ATB
Mark
The question in my poll was (is) about sac-rate from bailing out on an incident to first stop. What sac-rate people use for planning their entire ascent including deco is a completley different question and bringing it up in this thread might be confusing for some as you say. But then your'e the one who keeps bringing it up...
Maybe another poll about sac-rate during ascent/deco is in order. But I'd love to see what someone like S Mitchell has to say on the subject.
/nils
Its one and the same question
There is only one reasion why you would suffer sustained increased SAC and that is a C02 hit
Even on a long deep dive you will not be spending much time on deep bailout so you will still be suffering C02 at the gas switch and still be suffering high SACs
The people I know who have survived C02 hits which cause big SACs all maintain they emptied every available tank
Initial panic induced elevated monster SAC shouldent be more than a few mins before you get it together. If it is then perhaps the issue is with the diver rather than the dive planning
Stress related elevated SAC should be acounted for but thats a totaly diferent matter and I would sugest I have covered that in the gas planing calculations I have offered in every post
ATB
Mark
No, it's not. I wrote the question and it's clearly defined "from bailout to first stop".
There are other reasons to elevated SAC, not finding shot line, getting caught in a current, loss of power on DPV, flooded unit resulting in loss of bouyancy to name a few.
/nils
Found in the discussion following Dan Warkander's presentation in the DAN Technical Diving Conference Proceedings, Jan 2008 (p 217):
"BRUCE PARTRIDGE: Did you come up with any sort of limits for the maximum ventilation under water? Can people ventilate at that rate under water, and did you come up with any maximum consumptions under water? How much oxygen is the most you'd ever need to add to maintain oxygen in the Rebreather?
DAN WARKANDER: The first question is this: How hard can you breathe under water.
We had one of our subjects at 57 meters; he did maintain more than 70 liters a minute throughout the 25 minute period, and he was always in good shape. But 70 liters a minute is probably more than most people can do, but testing and decision making is at 62 and a half. So 70 sounds like a lot, but it can be done even at such a great density."
Thank you. Yet more evidence that these rates ARE ACHIEVABLE