Hi there, I think your beating your head against a brick wall for nothing, if you added another bubbler and checked that with your test strips you would find that the contamination as stayed in your first bubbler, and doesn't enter the engine, try it I'm interested.
Thanks for doing all this work and posting the video. I am surprised that so much electrolyte is transferring to the bubbler.
AdvanceHydrogen sent me the link to your videos. It will take me a while to watch all of them.
BTY: Not that it makes any difference but the jar of drain cleaner you hold up is 100% NaOH not KOH.
I have been doing some work with voltage leakage and my theory is that most of the fog/smoke is coming from hot spots around unprotected holes or edges.
Hi there, I think your beating your head against a brick wall for nothing, if you added another bubbler and checked that with your test strips you would find that the contamination as stayed in your first bubbler, and doesn't enter the engine, try it I'm interested.
cheers zeropoint132
ZEROPOINT132 3 years ago
Yes, I noticed that myself. I got me chem names wrong as I use both in different cells, this was NaOH in all of these Videos on this cell.
I noticed that after I posted all 5 vids so I said oh well. Too much work to go changin all that. LOL
I would assume that the results would hold true for KoH as well though.
I am gonna do some tests on using PP or HDPE resin to diffuse the gas. I will post that soon as I am done.
DMBing 3 years ago
Thanks for doing all this work and posting the video. I am surprised that so much electrolyte is transferring to the bubbler.
AdvanceHydrogen sent me the link to your videos. It will take me a while to watch all of them.
BTY: Not that it makes any difference but the jar of drain cleaner you hold up is 100% NaOH not KOH.
I have been doing some work with voltage leakage and my theory is that most of the fog/smoke is coming from hot spots around unprotected holes or edges.
Mars
mars1952 3 years ago