I think the point being made concerns NEW CCR's being sold by the manufacturer to members of the public who have no training on the unit. As opposed to every other manufacturer who usually either ship the CCR to your instructor or a vital component of the unit to your instructor.
Sorry I fail to see the differential risk regarding training or lack of, between new and secondhand units.
OSEL supply certified functionally safe rebreathers and are the only manufacturer to do so.
OSEL are not a training agency nor subject matter experts in the training of divers on rebreathers. They simply provide the highest performance kit available; ensure that any user is well informed of the risks they are taking.
Frankley its just bloody anoying your preaching about how good a BOV is that most of us cant use as it flows the wrong way
Mark,
Why folk are not asking manufacturers why they are not providing equivalent performance BOVs is an oddity to me.
Why folk buy or dive BOVs not knowing their performance, is just ludicrous to me. Simon has provided the criteria for both CC and OC WOB, that you should be demanding.
Its worse than anoying to go on about a ECCR unit it should be attached too that isnt actualy available to buy except in the mega expensive comercial twin scrubber version
Elecs from the Type II (the recreational version of the mega expensive commercial twin scrubber version) are interchangeable with the currently shipped Type IV Apoc.
Tool up, change the flow and start selling them
Mark, show me the market. As Simon says he dives a BOV with no idea of the WOB nor does this apparently concern him sufficiently to bother doing anything pro-active about it. If the "experts" are doing it, why would the bulk of the remainder, do any different?
Yes I looked at the diagrahm and I dont see an issue as most of the componants are unaffected
Unfortunately not the expensive bits. In the interim, you appear to just to have to make do with what ever L-R BOV manufacturers think is sufficient. Until "experts" like Simon start demanding better kit, me thinks you could be waiting a while. Or you could just buy a R-L flow unit like an rEvo and fit the ALVBOV to that, if you do not want the rest of the Apocs features: inclusive of the full loop flood recovery and lower WOB.
Build the CCR and if its good you will sell loads. Just look at stuff like the JJ which went from nothing in 2010 to being the second most common CCR I see on dive boats
Agreed. Point out a supplier of a solenoid fitted eCCR controller rated for use to 350m with EN61508 certification for recreational use and OSEL will be at the front of the queue.
There simply is no need for the constant barrage of specifications and CE numbers and Id sugest its doing more harm than good
It will only be seen as doing no good until other BOV manufacturers get off their tails and start to publish their own performance figures. Eventually someone will produce a BOV with identifiable comparative CC and OC to the ALVBOV in L-R flow and this is a good thing for divers.
In the interim, as I said to Simon, give me another comparative means of non-subjective BOV comparison other than hard benchmark able WOB data.
By not ignoring it I maintain realistic expectations of work performance at depth and plan dives accordingly (which includes use of assistive technology and planning of gas density). The biggest vulnerabity is the potential for a requirement for unexpected heavy work and if such a circumstance arose I could be at a potential disadvantage compared to being on a unit with much lower WOB. However, this too can be mitigated (eg by going onto open circuit for a period).
Okay Simon, you might not ignore it; you just do not know what it is.
You can only mitigate it Simon by going to an OC reg as your OCB could be (almost certainly is) part of the problem. When bailing out to the ALVBOV, Hollis BOV and probably Poseidon BOV - as all three have known low OC WOB ~1J/L at 50m/Air/62.5J/L - you are instantly mitigating the problem. What option is better?
The key is not to be ventilating at 75 L/min. Last weekend I spent 5 hours on a bike exercising at 6 Mets (agreed by expert consensus as a realistic sustainable workload during diving) breathing on a rebreather loop (as part of an experimental protocol we are currently running), and my ventilation was 35 L/min. This is less than half of the test figure you cite above. This is an example of why most diving situations are unlikely to take me into the zone where WOB is likely to cause me a problem, and because I am aware of the potential issues (that is, not "ignoring" them) I am able to mitigate the risk, or at the very least anticipate it.
35L/min is lower that the rate for scrubber duration tests agreed in every standard I aware of for overall mixed work/rest dives.
Plenty of NEDU/QinetiQ reporting that the 62.5L/min for OC and 75-90L/min for CC flow rates exist for very valid reasons and are easily achievable during routine diving.
When do you move your experimental protocol into a wet bell like they use in the serious diving trials that utilise exercise bikes?
And why are you reinventing the workrate for testing a rebreather using an exercise bike? I thought those protocols were quite well nailed down by the experts based on empirical evidence and a lot of in-water trial work.
I have not been able to access the NEDU comparative evaluation because it is classified commercial in confidence, but the one thing I do know is that the US Navy has not adopted the use of EACs despite their convenience, and the USN would not be constrained by thier higher cost. It is possible I am misinterpreting these circumstances, but there it is.
Simon, No possibility about it, it is
certain you are misinterpreting these circumstances. Sometimes only having a little bit of information is dangerous.
As you have been advised numerous times before and could very easily check by discussing the matter with subject matter experts. To get the best out of an EAC from micropore, you have to design the rebreather around the EAC (as OSEL and Divex
http://www.divexglobal.com/capabilities/commercial-diving/helmets-masks-and-scuba/show/cobra have done) and not try and jam an EAC into the rebreather (as APD, ISC, VR and KISS did).
That is a strange comment given how disparaging you are about the CE WOB standards met by other rebreather manufacturers.
In the majority of cases it is impossible for me to be disparaging as it is impossible for me to know the WOB in the first place. Please feel free to advise me of a 2nd BOV that you know the CC and OC WOB for.
AFAIK most rebreathers fitted with a BOV fail (unknown WOB counts as a fail in my book) to meet the CE WOB standards let alone come anywhere near close to your cited recommended levels.
And obviously if you could you would blow my argument out of the water by pointing to all the DL eCCRs in general use by happy customers, but you have not done that because there aren't any.
Sometimes hard to discuss things when your phishing and I am under NDA. AFAIK those customers that bought and paid for production specification eCCRs from DL were and continue to be happy with the rebreathers they received. The reasons for why they may or may not be in more general use is I understand it still being debated in court between at least one customer of DL and another party. Those reasons have nothing to do with the rebreather itself, as we discussed in person at Oztek.
matters as important as training?
Simon, your now a subject matter expert in rebreather training?
OSEL is not a training agency. OSEL mitigates the risk of supply of rebreathers direct to customers through supply of certified functionally safe rebreathers and notification of the risk to customers. Trainers provide training. A different protocol to what others use but when you take the real world actions of divers into account, not a demonstrateably unsafe one.
Brad, I want to reiterate that I do not disagree with all your points about WOB. It is an important physiological parameter which is best minimised. At the present point in time it is clear that many commercially available rebreathers may exceed recommended WOB maxima at different combinations of hard work, gas density and depth. This should not be ignored; indeed, it should be borne in mind by divers planning and executing deep dives. The current reality is that there are no viable alternatives for divers who have adapted to the configuation of equipment they currently dive.
Simon, So why is OSEL the only party who has addressed this problem for recreational users? Why are you not demanding better from manufacturers?
Why not start start with APD and have them provide you privately (thus no commercial risk to them) with the WOB of the BOV you dive. Why not point out the suggested recommended level that the WOB should be and have them provide you with a BOV that enables your rebreather to meet this.
Hell, have them buy an ALVBOV direct from OSEL and they can start learning how to reduce the WOB in their rebreather and their BOV. OSEL have knowingly sold more than a few ALVBOVs via proxies to a number of rebreather manufacturers.
and as you know it is not "may" exceed the recommended WOB maxima but rather a factor of how many times they currently exceed it by: for some units like yours even at 40m on Heliox and with a low work rate, you could be too deep.