Electronic vs manual CCR

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No flaming here, this is an internet forum :)

they both use the same generation of unreliable o2 sensors
Too true, and thanks GLOC for bringing up AF 447. I had considered talking about that in my original post. It's not diving but bear with me...

To summarize: the commands from the pilots are going through the computer. Think of it as if your manual O2 add was going through the controller to the solenoid. Normally, the computer will check that the command is not dangerous and veto it if it is (will stall the plane/take your ppO2 above 1.6). Note that this can be disabled by the pilot. Sometimes, however, the computer does not have enough information to make that call. In this case, instead of risking vetoing a correct command, it disables the safeties. That's known as "alternate law". This is what happened during AF 447. Probably because the speed probes (cells) iced, the speed (ppO2) readings became inconsistent. So the computer reverted to doing just what the pilots told it to do. And they (or rather, the pilot flying, who apparently ignored his training and instructions from the more senior pilots and kept the nose up) took the plane into a stall, and ultimately a crash.

It's interesting because (as usual :sface:, I might add), what failed is not the electronics, or the software, the things people tend to freak out about. No. What failed is the (mechanical) sensors, and the human being. Although to be fair the pilot changeover and ergonomics of the system have been criticized for maybe hindering the thought process of the pilots.

For those who wants more info, the reports are here: Final report

And I see Mark brought up NASA. That's interesting too. Do you know just what the shuttle pilots did during a flight? They lowered the landing gear. That's it. My bad, they also pushed a button to select the landing site. They used to do the braking after landing, too, but it turns out the computer was better at that too. What Do You Care What Other People Think? Richard Feynman, very interesting book.

Now of course the computers/software we're using (or not ;) ) are nowhere near that complex. And accordingly even more cheaper (ah, ah)(and, to reiterate, it's only expensive once).

I don't think anyone here would want a completely automated CCR, a manual O2 add controlled by the computer, whatever. I wouldn't. What's that quote again? Make it idiot-proof and someone will make a better idiot? And I'm quite happy running manual, thank you very much, and I do that every so often, either with the computer readings or just the HUD. Not to make sure I can, I know I can, but to remove doing it as an additional element of stress should I need to - same reason I'll do a free ascent and deco even though the shot is just there when the conditions allow.

That's not the question.

The question is, is maintaining a ppO2 as close to your setpoint as possible a good thing, and what's better at doing that? Cells, some electronics, a manual add, a constant mass flow valve and your constant attention OR cells, some electronics, a manual add and a solenoid (which does not mean you needn't pay attention)?

OR some mechanical contraption that anarchista keeps talking about ;).

That users should get training and then practice goes without saying.

Cheers,

Matthieu
 
Sorry no system is compared to the SCR of the family CMR.
Only information on levels ppO2, high maintenance.

No offense anarchista but thats yet another post that makes no sense in English. I cannot throw too many stones as I can't speak another language (even badly) but your posts are all so confusing, its not that I don't understand what you are talking about but you use all the wrong words in thw wrong order!

SCR is dead, live with it.
You are wasting your time flogging that horse

Making SCR compete with CCR will require greater complexity than CCR already suffers from IMO
 
The question is, is maintaining a ppO2 as close to your setpoint as possible a good thing, and what's better at doing that? Cells, some electronics, a manual add, a constant mass flow valve and your constant attention OR cells, some electronics, a manual add and a solenoid (which does not mean you needn't pay attention)?

Aha- Now I see one of your misconceptions, you are one of the people who believes in the "constant PPO2 myth" :)

Grab some deco software and a pen, run a bunch of profiles at different PPO2, fixed then averaged, then PPO2 ranges and spot the difference.....

Constant flow and occasional attention keeps you more than close enough (and you can allow it to fall on ascent between stops to save wasting gas as a bonus)

ECCR is fine obviously... but its like hiring 3 accountants to watch you count your spare change, easier to just stick your hand in your pocket and rattle it and guess its about $3 :)

Its more expensive and they are likely to argue with each other :sneeky:

That users should get training and then practice goes without saying.

Yes but who practices?

Many claim to, in my experience divers buy kit, get training and go diving, they claim all sorts online but in reality they don't practice the necessary skills. You get the odd honest bloke like Mark who admitted he doesn't check enough because his JJ is reliable.

Despite all the protestations and training I'd imagine if you swamp over to any CCR diver and caused an instant failure they'd flail around like an idiot trying to fix it- espeacially on an ECCR giving conflicting information on 8 different screens :smash:
 
Pats of one of the best posts I'read in a while:
...............In my mind theres two ways of looking at safety.

The unit with the fewest moving parts is the most reliable. Reliable = safe

The unit with the most automated safety features is the safest because humans are fallible: Automated = Safe.........
Have some green mate!
 
SCR is dead, live with it.
....
Making SCR compete with CCR will require greater complexity than CCR already suffers from IMO
Interspiro have mechanical SCR, Aqua Lung Military have a different type of mechanical SCR. Draeger SCR has mechanical or even of another type. Russians Respirator also produce mechanical SCR with oxygen generating mass (O3). Cobham have SCR constant ppO2 another type (laminar flow).
http://rebreathers.pl/forum/download.php?id=81
Why are they doing, now?

How many you know the SCR SMS constant ppO2, why do you think that the complexity is greater than the CCR. There is no publication of the last report,
is simple.


Aha- Now I see one of your misconceptions, you are one of the people who believes in the "constant PPO2 myth" :)
It's not a myth, it can be realized, and even ppO2 remains almost constant at a rapid ascent, is constant at a rapid immersion.
This variant is called "pure gases".

rc greet
 
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So explain recent deaths on the Poseidon? Arguably the most advanced and most safety focused unit on the market.


Because of age, previous medical conditions and stupidity, there will always be deaths in diving, regardless of OC MCCR SCR or ECCR.

If one has to examine ECCR on the basis that it provides life support when the diver screws up, then its the safer system. If however you look at ECCR in the light of the fact it makes divers switch off mentally and reduces there control of the dive to breath in breathe out, then they are very dangerous.

I am of the opinion that none of the CCR deaths that have occurred are the fault of the unit.

In my opinion we are taught to monitor the unit at all times and we are given the tools to overcome all issues arising from diving a CCR down to the option to bailout on to an adequate gas supply to end the dive.

But still hundreds of dives have died.

MCCR cant fix everything but it can take away the option for divers to ignore what their units are doing. And that fixes quite a bit.

I started out ECCR with a Inspo Classic and Hammer head units and then moved on to the KISS.

Moving over to the kiss made me realize I was kidding my self when i told people i was monitoring my unit properly.

I didn't want to go back to ECCR but due to some strange marketing choices from JJ i ended up on one. At first i can say i was just a vigilant as i was on the KISS but after two years of faultless performance on the JJ i am aware that my attention span has slipped back dramatical.

The statisticians can say what they like. The MCCR units with no automated life support, no buzzers and no flashing lights, should be considerably more dangerous than automated units with compelx warning systems. But they are not and in fact of the only two deaths i know of on the KISS one was illness and the other was a diver who panicked in a cave.

As I said MCCR cant fix everything.

My thoughts, sentiments, and experience with the mccr/eccr thing exactly.
 
The eCCR/mCCR thing is rubbish.
According to some of you, knowing that a few moments inattention could kill you means that you pay attention all the time?

Right...

So, I've not seen someone not paying attention on a kiss and catch it on a PO2 of .11 ish... (I don't recall the exact PO2, but it was very, very low. Resulting in one very shaken up diver)...

Rubbish...
 
The entire subject is one of man/machine interface.

Since the man part of the equation cannot be reduced to a constant, there can be no definitive answer. The entire argument becomes circular, and will be continuing so without end. The same discussion has been taking place for the last 15 years that I've participated on Internet rebreather forums, starting with the NWD email exploder. We're no closer to a concerns now than we were then.

The most important part of the selection is good introspection. What will with for YOU is the safest system. Be honest in your self assessment... Your life will depend on it.


Dave

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The same discussion has been taking place for the last 15 years that I've participated on Internet rebreather forums,
Discussions began in 89r these people participated in creating science and technology diving. record of the discussion is the UHMS Publication Number 76 (UNDBR) 01/10/89

Since the man part of the equation cannot be reduced to a constant, there can be no definitive answer. The entire argument becomes circular, and will be continuing so without end.
OR some mechanical contraption that anarchista keeps talking about ;).

I collected these pieces because of the same issue.
Mechanical SCR SMS (constant ppO2) count ventilationis, which have a physiological response, miss part of consciousness.
It's a big advantage achieved by simple means.

greet rc
 
It's not a myth, it can be realized, and even ppO2 remains almost constant at a rapid ascent, is constant at a rapid immersion.
This variant is called "pure gases".

Sigh... the Myth is not obtaining constant PPO2, thats "easy"... the myth is that is it required at all! :brickwall

A diver who believes they need constant (by that I mean close tolerance at all times to a setpoint) should not be diving SCR or CCR as they do not yet understand Partial Pressures and the Human Body (I assume that is lesson number 1, 2 or 3 in all SCUBA courses worldwide?)

FWIW The absolute Last place constant PPO2 is important is during rapid ascent or descent!
 
Sigh... the Myth is not obtaining constant PPO2, thats "easy"... the myth is that is it required at all! :brickwall

A diver who believes they need constant (by that I mean close tolerance at all times to a setpoint) should not be diving SCR or CCR as they do not yet understand Partial Pressures and the Human Body (I assume that is lesson number 1, 2 or 3 in all SCUBA courses worldwide?)

FWIW The absolute Last place constant PPO2 is important is during rapid ascent or descent!



Yes I always found it odd we all accepted variable PP on OC but seem to see constant PP02 on CCR as some sort of must have thing.


I ran a Sheerwater inline on my KISS for deco and i dont remember having to do longer deco than my buddies on Visions.

ATB

Mark
 
FWIW The absolute Last place constant PPO2 is important is during rapid ascent or descent!

What is the field of work closed circuit ?
Loop in which the compression is high ppO2 since the beginning, give of the problem for high ppO2, in systems with diluent.
The technique of pure gases, has no such problem.

Permanent ppO2 the rapid ascent is the safety, of proper ppO2 on the end.
How easily can calculate deep decompression stops, extend decompression.
Constant ppO2 is shorter decompression.
This is basic, important elements of stability of the system diving.

rc greet
 
What is the field of work closed circuit ?
Loop in which the compression is high ppO2 since the beginning, give of the problem for high ppO2, in systems with diluent.
The technique of pure gases, has no such problem.

Permanent ppO2 the rapid ascent is the safety, of proper ppO2 on the end.
How easily can calculate deep decompression stops, extend decompression.
Constant ppO2 is shorter decompression.
This is basic, important elements of stability of the system diving.

rc greet

The diluent is not likely to cause any problems if you choose the correct diluent.

We are talking seconds before the ppO2 is stable after descending or ascending. That will not cause any problems when you calculate decompression.

The systems you are talking about belong to the commercial divers, not us that do in water decompression. For us CCR´s are superior to any SCR
 
The diluent is not likely to cause any problems if you choose the correct diluent.

We are talking seconds before the ppO2 is stable after descending or ascending. That will not cause any problems when you calculate decompression.

The systems you are talking about belong to the commercial divers, not us that do in water decompression. For us CCR´s are superior to any SCR
You know the universal diluent?
Pure gas, the path to the right of the mixture at any depth.

I posted on the forum Professor Gulyara material on hypoxia occurring at a rapid compression. At the same conference, information was also gathered that the inert gas load is greater for high-speed compression, is the first problem. Second, if you can in the calculations show that you're right. I can show you that you are wrong, especially in those with a low dosage.

You do not know the new technologies that are being developed. Do not apply to commercial diving.

greet rc
 
You know the universal diluent?
Pure gas, the path to the right of the mixture at any depth.

I posted on the forum Professor Gulyara material on hypoxia occurring at a rapid compression. At the same conference, information was also gathered that the inert gas load is greater for high-speed compression, is the first problem. Second, if you can in the calculations show that you're right. I can show you that you are wrong, especially in those with a low dosage.

You do not know the new technologies that are being developed. Do not apply to commercial diving.

greet rc

Im sorry but I don´t understand what you mean.

What is the universal diluent?
And why are you starting to talk about high-speed compression when we talk about constant ppO2?

Are you developing new technoligies that is better then CCR´s or who is doing that?
 
What is the universal diluent?
And why are you starting to talk about high-speed compression when we talk about constant ppO2?

Are you developing new technoligies that is better then CCR´s or who is doing that?

Pure gases and something simple, which gives proper breathing mixture.
In fact, the term diluent is not appropriate.

Problems at the cellular hypoxia occur even when hyperoxia in the lungs. No changes are negligible.

I know who's working on it. Similarly, in 2005, I knew about the work of the Interspiro.

greet rc
 
Pure gases and something simple, which gives proper breathing mixture.
In fact, the term diluent is not appropriate.

Problems at the cellular hypoxia occur even when hyperoxia in the lungs. No changes are negligible.

I know who's working on it. Similarly, in 2005, I knew about the work of the Interspiro.

greet rc

Im sorry but that just made it even more confusing. Are you still talking about constant ppO2 or are you starting a whole other discussion?
 
Im sorry but that just made it even more confusing. Are you still talking about constant ppO2 or are you starting a whole other discussion?
You ask questions, not answer my.
Talk still applies to diving, a number of issues is related to the other, is a broad discipline.

greet rc
 
You ask questions, not answer my.
Talk still applies to diving, a number of issues is related to the other, is a broad discipline.

greet rc

How do you want me to answer to a question I don´t understand? That is why I ask you what you mean.

Ok, if you can write about anything that applies to diving it will be difficult to stay on one subject.
 
Sigh... the Myth is not obtaining constant PPO2, thats "easy"... the myth is that is it required at all! :brickwall

A diver who believes they need constant (by that I mean close tolerance at all times to a setpoint) should not be diving SCR or CCR as they do not yet understand Partial Pressures and the Human Body (I assume that is lesson number 1, 2 or 3 in all SCUBA courses worldwide?)

FWIW The absolute Last place constant PPO2 is important is during rapid ascent or descent!



Absolutely right...and well said.

The old US Navy Mark-15 procedures were to turn the rig on before donning and let it come to 0.7 set point ( standard then). The manual said basically " on descent you should not be surprised to see your primary display high PP02 alarm light illuminate. This is normal, and it will extinguish after some period on the bottom as excess oxygen is metabolized". Similarly the manual told divers to ignore low PP02 primary display light indications on ascent.

Body is happy between about 0.15 and about 2.0... All of the rest is really just decompression and narcosis.


Dave
K
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