so .... who's gonna build a honeycomb atty reducer?
What I have is just a little too big for that, unless you got some huge lungs
Although......I do have a 3D printer......
so .... who's gonna build a honeycomb atty reducer?
yeah the under air coil atties do give great flavor. you can also run a nuppin kinda like that, just put the coil in the center, right under the driptip opening and use both side airholes, then the air will slipstream around the coil straight into the driptip, really kills it when it comes to high flavor single coil, especially in a chamber that's kinda too large for a single otherwise, by positioning the coil like this you are removing the excess chamber size from the equation. the nuppin is one of the only atties that can be built like this and if you got a nuppin you gotta try this
here's a from the top down view of the coil through the driptip
Well said turbo. I hope one day someone would study all this in a scientific manner. Not because it's geeky, but because I'm tired of manufacturers using trial and error with creating atties!Aal, not mixing with the air is the same as stagnant in this context, how much this is a result of delay combined with higher concentrations that are not as diluted is as much a guess to me as it is to you really, prolly a combination of both factors combined with other things that may go on at a molecular level within the vapor that we could only guess at.
that's the problem here, without being able to actually "see" whats going on the best we can do is hypothesize and draw conclusions, in the end I think we are both noticing the same thing but maybe visualizing it slightly differently in our heads or giving more weight to one aspect vs another, I may give a bit more weight to the delay factor where you give more weight to the higher density/less dilution factor, it's more likely a combination of both factors combined with others we both may not even realize, both are correct enough for us to form our own visualizations in our minds to represent what it is we perceive to help us understand what is going on the best we can though at this point