Hi guys,
With all these suggestions for fancy plumbing of on/off board gasses into their rebreathers, has anyone tested the actual performance under arduous OC bailout conditions? I'm wondering what effect all the numerous turns and restrictions inherent in Swagelok and Omniswivel fittings have on actual gas flow.
Not a problem for low flow applications (ie when the rebreather is working) but when you're using the BOV you're essentially putting high flow OC gas requirements through a restricted gas path.
I was doing some experimentation last night using different configurations of onboard/offboard BOV connections using commonly available high flow Swagelok and Omniswivel fittings.I wanted to check the flow rate of gas going through all this new plumbing to test whether it would deliver enough gas during emergency bailout situations requiring high flow (eg deep CO2 hit).
I connected an I.P gauge to the BCD hose (also driven off the DIL first stage) to see the IP drop on large inhalations.
Doing some big inhales (trying to replicate the heaviest type of breathing I might require), there was a significant IP drop when breathing gas delivered through all the rebreather plumbing vs breathing directly from a 2nd stage connected to the bailout tank.
1. Breathing from the BOV was a drop from 140PSI (no flow) to 100PSI (at the end of a big inhale)
2. Breathing a standard 2nd stage (ie 1st stage - hose - 2nd stage) was a drop from 140PSI (no flow) to 130PSI (at the end of a big inhale).
The configurations I was trying were similar to what I've commonly seen so wondering has anyone else noticed this?
Is this something you live with because of the convenience of having a single mouthpiece or do you look at the BOV as a "transition" reg before you switch to a real second stage without all the plumbing attached?
I should note that this wasn't a 2nd stage issue as I got the same result when disconnecting the BOV and using a 2nd stage on the BOV hose (ie it is related to the amount of piping the gas has to pass through before I breathe it).
Thanks
With all these suggestions for fancy plumbing of on/off board gasses into their rebreathers, has anyone tested the actual performance under arduous OC bailout conditions? I'm wondering what effect all the numerous turns and restrictions inherent in Swagelok and Omniswivel fittings have on actual gas flow.
Not a problem for low flow applications (ie when the rebreather is working) but when you're using the BOV you're essentially putting high flow OC gas requirements through a restricted gas path.
I was doing some experimentation last night using different configurations of onboard/offboard BOV connections using commonly available high flow Swagelok and Omniswivel fittings.I wanted to check the flow rate of gas going through all this new plumbing to test whether it would deliver enough gas during emergency bailout situations requiring high flow (eg deep CO2 hit).
I connected an I.P gauge to the BCD hose (also driven off the DIL first stage) to see the IP drop on large inhalations.
Doing some big inhales (trying to replicate the heaviest type of breathing I might require), there was a significant IP drop when breathing gas delivered through all the rebreather plumbing vs breathing directly from a 2nd stage connected to the bailout tank.
1. Breathing from the BOV was a drop from 140PSI (no flow) to 100PSI (at the end of a big inhale)
2. Breathing a standard 2nd stage (ie 1st stage - hose - 2nd stage) was a drop from 140PSI (no flow) to 130PSI (at the end of a big inhale).
The configurations I was trying were similar to what I've commonly seen so wondering has anyone else noticed this?
Is this something you live with because of the convenience of having a single mouthpiece or do you look at the BOV as a "transition" reg before you switch to a real second stage without all the plumbing attached?
I should note that this wasn't a 2nd stage issue as I got the same result when disconnecting the BOV and using a 2nd stage on the BOV hose (ie it is related to the amount of piping the gas has to pass through before I breathe it).
Thanks
