alien Traveler" data-source="post: 19529215"
class="bbCodeBlock bbCodeBlock--expandable bbCodeBlock--quote js-expandWatch">
Oil smoke is not a vapor, it is a smoke.
Smoke point - Wikipedia
Ok, I'll go with that. The "smoke point" of palm oil is 455 F. VG is made from palm oil typically, and Mike had "smoke" which was likely vapor above 300F. So there's that.
Update:
I accept your fact that "smoke" is smoke, and I misused the term, but put forth that vapor is not smoke until its overheated, and that what Mike saw at a lower temperature of 300F and up to the smoke point was vapor, not smoke, based on this:
Heating glycerin or propylen glycol?
Which really gets to the point that PG and VG can produce vapor well before the boiling point (or the smoke point, and I don't know if that's the same as the smoke point for say pure VG) and Mike proved that with his tests.
This chemistry site provides the best description I have seen regarding vaporizing PG/VG vs. higher temperatures (combined with oxygen) that produce aldehydes;
How does propylene glycol/glycerin form formaldehyde/acetaldehyde when vaporized with a vaporizer?
"In a vaporizer, the idea is to get the propylene glycol, glycerine, and and "flavor" molecules into the vapor phase (or into aerosol droplets) without chemically degrading them.
However, the way this is accomplished is with very high-temperature resistor
coils - the idea is that if you have a small amount of heat in a confined space, and the liquid is distributed throughout an absorbent (like cotton, for example), then the heat transfer will happen very quickly and a large amount of liquid will be vaporized.
The problem is that when you have a very high temperature heat source, and there is lots of oxygen in comparison to the liquid, there is a good chance that at least some of the liquid will reach the combustion temperature instead of just vaporizing.
What happens is that the hydrocarbons in the propylene glycol and glycerin molecules are partially oxidized - oxygen reacts with them to "steal" electrons. If the combustion was complete, you would wind up with just carbon dioxide and water. When combustion is incomplete, you can get any number of compounds, two of which happen to be formaldehyde and acetaldehyde. Carbon monoxide is another one I would be concerned about."
