For me, vaping was about getting nicotine and feeling that comforting punch at the back of my throat that reminded me of smoking. But somewhere down the line, things changed. As I moved further away from smoking and got familiar with Best Electronic Cigarette Reviews, producing sizable clouds of vapour started to seem a lot more appealing. I’ve never been a full-fledged cloud-chaser, but the wispy vapour from pen-sized and cigalike devices started to feel like it just wasn’t enough.
And So I took some tentative steps towards increasing the vapour production from my device. Over time, because i tweaked my setup and learned a little more about vaping, I started to set out some serious clouds. I won’t be winning a cloud competition in the near future, nevertheless the key lessons vapers learned through the years are enough to make your clouds as huge as you prefer.
However, many posts on improving vapour production concentrate on rebuilding, rather than all vapers are interested in wrapping their very own Clapton coils or fretting regarding the surface with their builds. Modern sub ohm tanks are about so far as more casual vapers are curious about going.
So, if you wish to produce massive clouds of vapour, however are not particularly interested in rebuildable mods, this blog post is perfect for you. Together we’ll explore the devices, techniques as well as the juice you need to maximise the vapour out of your e-cigarette.
Which kind of vape tank to utilize? While smaller tanks like the Aspire BDC are ideal for everyday, and much more discreet use, to get really big clouds, you’re planning to need a low resistance sub ohm clearomiser like the Aspire Atlantis, the Cleito Exo or the Innokin iSub V. The Atlantis features a BVC (bottom vertical coil) using a low resistance of .5ohms. The BVC coils give less air resistance and a lot more vapour compared to still great BDC tanks.
Like the Atlantis, the coils on the Cleito were intended for vapour and flavour, using a dual “Clapton” coil design and keeping the resistance low at .2 or .4 ohms. The iSub V has both BVC and Clapton coils, in addition to standard (yet still low-resistance options) To use the Aspire Atlantis or any other sub ohm tanks, you require a battery powerful enough for sub ohm resistances. Listed below are three compatible e-cig batteries (read on for additional information about these devices): These are generally all great devices, but if you’re relatively recent to e-cigs, they could seem somewhat expensive.
The Aspire Nautilus Mini features the same BVC coil design because the Atlantis and enjoys increased flavour and vapour production but at higher resistance, meaning it works with an array of batteries including variable voltage and standard eGo batteries.
More airflow means more cooling capacity and a lot more vapour. The more air you may get over your coil, the reduced you can keep the temperature. The temperature needs to be low enough so that you tend not to burn your wick eljfsl by excessive power, or insufficient airflow.
Keeping the temperature low minimises the potential risk of burning your wick as it keeps everything cooler, but also brings a brand new flow of air into the mix and encourages condensation of the vapour into a cloud.
As e-liquid is vaporized, the room higher than the coil becomes “saturated” with vapour, and the only way more can be created is that if some condenses back into e-liquid. This effectively prevents new vapour from being created should your airflow is entirely closed off (or near it).
Having air flowing rapidly across the coil removes this “old” vapour and allows that it is replaced by “new vapour.” Which means you have more vapour than you will with less airflow, because you’re providing a constant supply of outdoors to get filled with vapour.