I have 2.07 J/l at 50m 49.5LPM. I don't see the gas in the report but assume it is air? Do you know, Brad?
I have 3.24J/L for OC WOB, on a test report from a different independent 3rd party on a Shrimp optimised for best OC performance.... albeit it still requiring an inhalation effort of -57.33mbar or twice that allowed in EN250 and crapping out above 50lpm.
As no standard (NOAA?) that I am aware of requires testing at 49.5LPM (50LPM) I am guess they couldn't get it to go to 62.5LPM. Gas would be Air.
Looks like it was tested on a meg and the WOB result for CC was 1.5 J/l. Also at 50m but at 62.5LPM. Again the gas is missing from the report.
If it is at 50m at 62.5LPM that is the EN250 OC criteria so would be Air.
As the Meg WOB exceeds 1.5J/L, and is something like 2.2-2.5J/L (CL dependent) at 40m at 75lpm on Air, that will be the WOB of the Shrimp in isolation. Very very close to the 1.44J/L that I had extrapolated for it from the 0.41J/L at 40lpm. Can you share a link to that test report Matt?
For the JJ in CC I have 1.06 J/l air, 41.3m, 74.8LPM.
Yup. This is what DeepLife tested it for JJ at.
or nearly twice that of the ALVBOV in CC mode.
The JJ BOV was hailed as the bench mark in CC BOV units and I can confirm that as a CC breath it was fantastic.
A BOV with half it's WOB is even better. Why settle for 2nd best.
I am not an Ansti macheen but I cant tell the diferance between my Shrimp BOV as an OC reg and my bailout OC ATX40s. I never felt "wanting" for gas
And Mark at RMVs less than 40LPM your never likely knowing to know the difference; however, as per the HSE report that they just complied bailout RMVs start at 50lpm and go to over 100lpm..... At which point both the ALVBOV (and others such as the Poseidon BOV can be assumed to but without test data are an unknown) and your ATX40's continue to perform for bailout but the Shrimp (and others) simply don't work. AND you know they won't work before you even get in the water, thanks to the unmanned testing data.
I CAN tell the diferance with the old JJ and MK1 KISS units, which is why I got rid of both.
Which tells you just how high their WOB was....
Same problem with my OC bailouts on CCR. I run them a bit "heavy" on the cracking presure to avoid accidental free flows.
Did the ALVBOV you dive with free flow? With the cracking pressure set right, a well designed BOV won't, no matter the orientation or water flow over it.
To the points earlier Brad. Even if a BOV can supply an unlimited amount of OC gas at any depth can you actually carry the gas that you may need.
Yes, because if you can get off the loop onto a low WOB bailout option sooner you most probably won't have needed as much gas in the long run.... as your RMV will be lower. If you start on a low WOB CCR option then your much much less likely to have an issue in the first place.
I agree that a better BOV is better than a shit BOV but if neither of us can carry the adequate bailout gas then we both drown.
So I take it that you don't carry bailout gas?
If you do carry it, why not optimise your kit selection before you even get in the water, so your maximum needed is less to begin with! Still means you end up carrying the same amount, just there is less likelihood that you will drain it in anger. Lower WOB, less work = less gas needed though lower RMV.
The lesson really has to be about avoiding the problem in the 1st place with good packing techniques and proper lung ventilation with limited exertion. As per my point above, scooters become a safety device.
Having a low WOB CCR will then cover the niche times when the scooter won't save your butt.
Good packing is real easy with the right low WOB scrubber media. Noting that the WOB of granular sorb goes through the roof as it gets wet....
I found another labeled Shrimp that has Average WOB is 0.41 J/l (40LPM, 40m, unknown gas). Doesn't say if this is CC or OC though.
That Air as that is the default criteria for the CE scrubber test. Though why an earth they used 40lpm as opposed to the 75lpm required for EN14143 is an unknown: I assume they just didn't have a clue.
As per your other reporting its actually closer to 1.5J/L in comparison to other makes of CE tested BOV when you match test criteria.
Yes but hears where the confusion starts
Is this WOB of the BOV its self? OK great whats the WOB of this BOV on a JJ? or a KISS?
Where is the confusion? If you know that WOB of the BOV it remains a constant no matter what CCR it is fitted to. What then changes is the WOB of the CCR itself.
KISS CCR with KISS (Gordon era) BOV = Highest CC WOB or 5+J/L
KISS CCR with Shrimp (1.44-1.5J/L) = High CC WOB
KISS CCR with JJ-BOV (1.06J/L) = Lower CC WOB
KISS CCR with ALVBOV (0.57J/L) = Lowest CC WOB possible without improving something else in the loop. As the Apoc shows, with the right engineering and design, a CC total unit WOB of 1.44J/L is perfectly possible for the KISS. All it would need a bucket load of R&D $$$ to match the Apoc.
The USN proved this by changing out the DSV and hoses on the Mk15 and seriously lowered its WOB in incremental stages.
This is the problem because the BOV has an impact on the WOB of a CCR but you cant test the BOV as a stand alone unit, then say thats the WOB for the loop.
You don't need to test the BOV as a standalone unit. This should as Randy says be something supplied by the manufacturer.
As an end user, all you really need to know, is if it lowers or raises the total WOB of your unit. The DSV/BOV is such a contributor to the total WOB that it will have a significant effect either way. The JJ has quite good WOB so you have a reasonable starting point, allowing you much more flexibility than say that of an Inspo diver who has a much higher WOB to start from: but as a result more to benefit.
In your case Mark, you know that you have raised the total loop WOB by a fair chunk by fitting a Shrimp over the JJ-BOV.
Whereas an Inspo diver would know from the published testing that they have lowered their units WOB by a fair chunk by fitting a Shrimp over the stock APD DSV/OCB.
Fit an ALVBOV to ANY rebreather and it will lower its WOB. Which is why its such a perfect match for the rEvo.
I am prety sure my Shrimp breathes easier in OC than it does as part of my JJ loop?
Could be wrong but thats how it feels as an end user.
Which would indicate to me that you have increased your JJ-CCR's WOB to something closer to the Shrimps OC WOB.
Now what would interest me is if you did a back to back dive with an identical JJ but one that is fitted with a Hollis BOV and then one fitted with a Poseidon BOV. Both apparently offering near as good OC WOB as the ALVBOV but with unknown though reportedly good CC WOBs. I think you may be surprised by the result if you (we as humans) can feel a <0.5J/L difference in WOB.
Yes, it's very difficult to actually compare anything, isn't it. Exactly as you say, needs testing as a system to be meaningful.
I think you would agree it would be a piece of cake if everyone published as much testing openly as DL have done.... Why haven't they!
The system is already there: EN14143 for CC and EN250 for OC.
We should have the WOBs for all CCRs.
We should have the WOBs for CC mode of all BOVs/DSVs.
We should have the WOBs for OC modes for all BOVs and Regs
it would be good to have WOBs for mix and match units but that will come I am sure. The ALVBOV on the rEvo for example, as its stock DSV has quite a high WOB, is something that OSEL will publish down the track to support the number of ALVBOVs that they are selling to rEvo divers.
Manufacturers attempting to fudge things by giving WOB for anything other than Air or the test criteria for CE immediately red flags that something is off. The Hollis P2 is a classic for this as the Apoc offers the same WOB at 200m on heliox as the P2 does at 100m: yet no 40m/Air/75lpm test results for the P2 have been published by Hollis.
Comparing rebreathers on WOB should be no different to say comparing the colour of a car or its fuel consumption: you just pick what works for you!