Just to set the tone here and make sure we are all on the same page...I don't care what the answer is to this heating question, I just want it answered once and for all. I find it unacceptable that knowledgeable and experienced people such as yourself, Randy, me and the engineers at Arizer, just to name a few, have differing views on something as simple as the type of heating used in a 6-year old vape technology. We all have too much influence in this industry to be on different pages on this, and it shouldn't be a mystery!
I've been telling people for years these vapes were conduction with very little, if any, convection going on based mostly on one test...letting a full bowl sit in one of them without hitting it until it shuts off. The bowl is always cooked - tada...conduction!
But now I'm doing a lot more testing, and deeper too, and we have a lot more vapes to compare to. Now that I have some actual test data on it I have a hard time reconciling the all-conduction model. The hybrid theory fits it perfectly and the conduction-only model doesn't anymore.
So, please let me know of any tests I can do to support either theory, and anything I can do differently in tests I'm already running. I'm all about testing them all out so we can get to the bottom of this. If test results sway me back to the conduction side, so be it, but it's gonna be data that gets me back there, not theories and analogies.
Thank you, and
@OF, for the work you're doing. I wish I could reimburse you guys some way! Maybe once my woodcarving carreer takes off haha ;D
I was thinking, regarding the two theories you had about convection/conduction, instead of trying to prove either one is right/true, is there any way we can prove either one is false?
I'm only just starting to embark on a scientific carreer (very generous wording), but one of the things I heard/read is that we can never 100% prove something is true, just that it can't be falsified.
So maybe some way if it really was convection (or more convection than conduction), we could see certain results which we wouldn't if it was pure conduction.
I just woke up, so I may be missing something obvious though, or misunderstanding the post, or I may have not read an important sentence
I really wish we could get one of the Arizer engineers to hop in to this thread and confirm/disconfirm our suspicions, or reveal how they test the temperature (and with which devices). Maybe someone could persuade them to do an AMA on r/vaporents?
Maybe the have a huge (like 20x larger) replica of the Oven/entire vape, and because the bowl size is magnified by so much, they can have multiple points of measurement, which can then be re-calculated to what it would amount to in a smaller scale, in the actual vape.
That's the other thing I thought of when reading your posts (and I am sadly not that well versed when it comes to these types of things, I'm more of the 'ideas' guy haha
), but maybe it's possible to have heat sensors in different areas of the bowl/heating pathway and then merging the data to give some kind of total result (not necessarily average..I don't know!)
Also, can you guys control the ambient temperature? I only had the air 2 outdoors once (good thing it's a portable haha!) but I had to crank it up quite a bit higher (20-30°) than usual (it was very cold and windy)
I don't know if fluctuations in ambient room temperature can account for the kinds of variation you got in your measurements though.
Another thing that I thought of was if you guys do tests only with the dry stems, or also with GonGs?
I often use my OG Solo and the Air 2 through a bubbler, where it rests upside down. If I don't fill the bowl up too much, or pack it down a bit, it doesn't touch the bottom of the bowl, so theoretically it would only get a conduction effect from the glass, which appearantly is not so great at conducting heat?
I haven't ever let it sit for a full 12 minutes turned on at temp (I usually do around 380 this way)
on purpose to see if the material turns brown, but I have forgot that I turned it on and let it sit for almost the entire session without taking a draw (haven't we all?
).
The herbs where definitely a little browner on the side that faces the heater, but they where also touching it a little. Also you can smell the terps if you just let it sit without taking a draw, which is one of the ways I get reminded that I have the vape on xD
I'll have to try that with some CBD flower, I don't feel as bad if I waste that in case anything goes wrong. Gonna write that onto my to-do list.
I also feel like if I take longer, slow-ish draws, I get better hits. For me this would speak for more of a convection effect, since if it was the metal part of the bowl that was heating the herbs, it would drop off and not be able to keep up with a long draw? Unless it can constantly increase the temp in relation to how much it cools off due to draw speed.
But then it would be heating the metal, which heats the air that passes over it, and that heated air then passes over the herbs, so also convective?
I think it's good to see this as one group of people trying to figure out the truth, or at least come closer to it (or finding out what is
not true at least!) and not as 2 camps/sides fighting over which is true/better.
Obviously the vapes kick ass!
The vapour doesn't suddenly taste worse after 5 years because we find out it actually isn't a convection vape or even a hybrid
, I feel like I'm being made smarter without even knowing it, reading your Posts 
