Brad_Horn
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In the 1990’s John Bantin et al in DIVER magazine openly published for the first time the comparative WOB data for a range of common 2nd stages tested at 50m. This caused quite some controversy because no longer was subjective simply good enough a judge of performance. Some regulators that were thought to be good just weren’t and didn’t even meet the mark or minimum expected. Minimum now set by the likes of EN250; which for a BOV, when using the bailout feature in anger, at least provides a GO/no go for its suitability during the pre-dive equipment selection phase of the dive.
For some more recent consideration of regulator performance also see You are being redirected...
"So now, we are back to what constitutes a great breathing regulator. It’s our opinion based on current regulator technology, the regulator should be capable of WOB under 2 J/L or less at 62.5 RMV down to the recreational depth limit of 130 fsw or the depth the user intends to use it to. For the “techi” people making deep air dives, it would be wise to use a regulator that is capable of below 2 J/L performance at 62.5 RMV to the maximum depth of the intended dive. Keep in mind regulator performance has gotten really good and this increase in performance makes diving safer and easier. Even a “hairy chested” deep sea diver in excellent condition diving to depths where WOB approaches 3 J/L leaves little reserve should things go side ways and heavy physical activity is encountered. Those diving into the ”outer limits” should go for the top performance regulators. In general, there is no excuse for the avid scuba diver not to have a good performing regulator, and not just one that squeaks in under the 3 Joule WOB limit.”
Why this post?
Currently there is one (1) BOV on the market with both its OC and CC WOB published. Which ~25 years after BOVs were first introduced to the market is pretty shocking.
This is the Open Safety ALVBOV. For ALVBOV read Bail Out Valve with an integral Automatic Demand and Manual Diluent Add Valve. Open Safety only offer one BOV option, rate it for use to 350m in OC and CC modes, CE’d in 2011 to 100m in CC and OC modes; only produced in Right to Left gas flow.
https://www.opensafetyglobal.com/Safety_files/DV_DL_ALVBOV_Breathing_Params_A3_100318.pdf
EN 250 respiratory performance measurements of the ALVBOV with Apeks and Apollo first stage regulators, and comparison with the Apeks TX100 as the industry performance benchmark. European limit for WOB is 2.5J/L in EN 250:2000, and 3J/L in Appendix A1:2006. Measured WOB for the ALVBOV is 0.89 J/L, similar to the benchmark.
ALVBOV CC WOB 0.57J/L on Air at 40m at 75lpm at 4’C https://www.opensafety.eu/datasheets/ALVBOV_40m_75lpm_air_081014.pdf
This is important because you can retrofit the ALVBOV to ANY rebreather on the market and lower that units measured WOB….
The importance of getting the above performance is why Open Safety engineered our own hyperbaric test lab; which we now sell to industry clients in the know https://www.opensafetyglobal.com/documents/Datasheet-iBreathe-MkIV-190605.pdf
However if you’re not interested in or don’t have the resources for 350m+ hyperbaric testing equipment, I notice and this is the crux of the post that JFD are promoting the really nifty little ANSTI Computerised Surface Test Facility bench top test system suitable for dive shop use for measuring WOB of regulators to EN250 standards.
JFD | Ansti Computerised Surface Test Facility (CSTF)
Once this testing ability gets out in the wider realm, I expect there could be the same controversy or at least interesting debate, over the lack of performance in certain BOVs; just as DIVER observed 30 years ago with OC regulators.
BUT divers having a greater range of safer BOVs to bail out onto in anger can only be a good thing!
It's also not just the BOV but how many have added a flow stop to their already badly performing BOV...
For some more recent consideration of regulator performance also see You are being redirected...
"So now, we are back to what constitutes a great breathing regulator. It’s our opinion based on current regulator technology, the regulator should be capable of WOB under 2 J/L or less at 62.5 RMV down to the recreational depth limit of 130 fsw or the depth the user intends to use it to. For the “techi” people making deep air dives, it would be wise to use a regulator that is capable of below 2 J/L performance at 62.5 RMV to the maximum depth of the intended dive. Keep in mind regulator performance has gotten really good and this increase in performance makes diving safer and easier. Even a “hairy chested” deep sea diver in excellent condition diving to depths where WOB approaches 3 J/L leaves little reserve should things go side ways and heavy physical activity is encountered. Those diving into the ”outer limits” should go for the top performance regulators. In general, there is no excuse for the avid scuba diver not to have a good performing regulator, and not just one that squeaks in under the 3 Joule WOB limit.”
Why this post?
Currently there is one (1) BOV on the market with both its OC and CC WOB published. Which ~25 years after BOVs were first introduced to the market is pretty shocking.
This is the Open Safety ALVBOV. For ALVBOV read Bail Out Valve with an integral Automatic Demand and Manual Diluent Add Valve. Open Safety only offer one BOV option, rate it for use to 350m in OC and CC modes, CE’d in 2011 to 100m in CC and OC modes; only produced in Right to Left gas flow.
https://www.opensafetyglobal.com/Safety_files/DV_DL_ALVBOV_Breathing_Params_A3_100318.pdf
EN 250 respiratory performance measurements of the ALVBOV with Apeks and Apollo first stage regulators, and comparison with the Apeks TX100 as the industry performance benchmark. European limit for WOB is 2.5J/L in EN 250:2000, and 3J/L in Appendix A1:2006. Measured WOB for the ALVBOV is 0.89 J/L, similar to the benchmark.
ALVBOV CC WOB 0.57J/L on Air at 40m at 75lpm at 4’C https://www.opensafety.eu/datasheets/ALVBOV_40m_75lpm_air_081014.pdf
This is important because you can retrofit the ALVBOV to ANY rebreather on the market and lower that units measured WOB….
The importance of getting the above performance is why Open Safety engineered our own hyperbaric test lab; which we now sell to industry clients in the know https://www.opensafetyglobal.com/documents/Datasheet-iBreathe-MkIV-190605.pdf
However if you’re not interested in or don’t have the resources for 350m+ hyperbaric testing equipment, I notice and this is the crux of the post that JFD are promoting the really nifty little ANSTI Computerised Surface Test Facility bench top test system suitable for dive shop use for measuring WOB of regulators to EN250 standards.
JFD | Ansti Computerised Surface Test Facility (CSTF)
Once this testing ability gets out in the wider realm, I expect there could be the same controversy or at least interesting debate, over the lack of performance in certain BOVs; just as DIVER observed 30 years ago with OC regulators.
BUT divers having a greater range of safer BOVs to bail out onto in anger can only be a good thing!
It's also not just the BOV but how many have added a flow stop to their already badly performing BOV...
