Heat Flux Question

A bit of a technical question, I'm messing around with heat flux equations so as to calculate sweet spots on some of my more complex builds. If I want to run around 300 mW/mm² and my heat flux for a coil is 4.28 mW/mm² per watt, how do I calculate this? I think I know but I just want to be sure. Thanks in advance for any help.  


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Coil Ohms And Wattage Solution

Hello Been vaping about 2 years now
My setups are Vaporshark Rdna 30 Istick 30 watt and a provari 2.5 and a IPv mini v2 30 watt
So like many others I have been juggling with wattage I currently Use A couple of kanger subtank minis using the RBA and a kayfun v4 I've been all over the place building ohms but have settled on 1.2 - 1.4 ohms BTW I'm not into sub ohms
So after many months of different ohms and watts with the help of steam engine I have found I like my vape at a heat flux of around 175 so to get to this and I can't believe how simple it was I just take the ohms I am using such as 1.2 @ 12 watts = 178 heat flux 1.3 @ 13 watts = 178 heat flux and so on I can't believe it became that simple
So I suppose all it takes is to find what heat flux you enjoy and adjust from there
I never bought that what I have read thru the last 2 years that 14 watts is 14 watts no matter what ohms you use it seems to me there had to be more factors involved
Just my thoughts


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Sub-ohm On A Regulated Device?

So I've been building my own coils for a short period of time and I'm looking to better understand how my coils can affect my vaping experience, specifically varying ohms and wattage's.

I've been building mainly only one coil as I'm still trying to better understand the basics of coils and more importantly wicking. Ofc all I hear these days is how sub ohming is the best and with all the sub ohm devices I feel like I may be missing out on something if I'm not at .5 or below.

The coil I've been wrapping is a 28g .9 ohm single coil. If I were to go lower, how does this affect my vape on a regulated device? Unless I'm missing something, only the heat flux and quickness to heat would be affected right by lower resistance (given a set wattage)?  

Heat Not Burn On Amazon?!?

So I wonder what the logic is behind Amazon being okay with selling those heat not burn devices but not an e-cigarette I mean I understand they're not wanting to sell Ejuice like an actual tobacco products and instead only sell the separate components without the nicotine but wouldn't the heat not burn device be considered an ends device as well or is there some subtle difference that I'm not really understanding  

My Thoughts About Sub-ohm And Latest Vv/vw Devices...

I've been debating on writing about this topic for a while now, but figured it was time since I've seen quite a bit of posting lately and frankly what I feel is a lot of confusion about the subject.

Let me start off by saying this. This is my opinion and ONLY my opinion. I am basing this on both my own experience as well as my own knowledge given my electrical engineering and information technology background. I'm also a bit of a physics (particle physics as well as general) buff and all around fairly knowledgeable guy. Does that make me an expert on e-cigs? Absolutely not... So again, it's my opinion. It will hopefully seed some food for thought at the very least, and if you downright disagree, then that's your right to have your own opinion as well.

With all that said, let's get started.

Back in the end of August I received my Cloupor T5. This isn't a debate about that device, so let's not go there. I like mine, with the new firmware upgrade. It works wonderfully for what it was designed for. It wasn't the first high power VV/VW mod I owned, but it is the one I generally gravitate towards right now, at least until I make my final decision on which 100W-150W device to buy.

Anyway, I walked into the local B&M one day and one of the guys there was checking it out. He loved the form factor, and was really talking it up seriously considering getting one until he asked how low of a build you could put on it and I mentioned that it goes down to .2 ohm, but it has a 10 amp limit. WHOA!!!!!! Immediately he started trashing it saying he couldn't believe they would "false advertise" something and say it could do 50 (at the time, 75 now) watts when really it couldn't...

No... You don't understand... You don't NEED a .2 ohm build to push high wattage... That's the whole point... The thing can output up to 9.3 volts.... At 9.3 volts that thing can push 75 watts into a 1.1 ohm coil and only push 8 1/2 amps...

"That's crap man... You can't get thick vapor on anything that's not sub-ohm dude..."

I continued to throw "clouds" that dwarfed his... Despite the fact I was running a 1.4 ohm build at 50 watts and he was running a .3 build on his mech which was pushing around the same wattage depending on his battery voltage and voltage drop.

I decided at this point it wasn't worth trying to explain... It seems to me that so many people are wrapped up in this idea that the "clouds" are all completely tied and related to the resistance of their coil(s). Like they are so dependent on one another that there is no other way to see things.

I'm not a "cloud chaser" by any means... But I do love vapor and flavor... I'm more of a flavor chaser than anything.... But in that quest it does mean producing pretty thick and large (that's what she said) clouds.

Again, this is my opinion only, but you guys and gals have GOT to get this idea out of your head that "clouds" or vapor are tied to the resistance. It's just not true.

First of all, there are a LOT of variables that DIRECTLY affect the amount of vapor that's produced, and unfortunately (or rather fortunately) resistance is NOT one of them. Indirectly yes, but not directly.

Vapor, or the production thereof, is a result of the amount of juice that can be vaporized in a given amount of time. It really is that simple. But there's a lot that goes into that.

To vaporize e-juice you must heat it to the point where it vaporizes. In our case, a heating element wrapped into a coil is used to achieve this. The surface of the coil in in contact with the juice and the energy released from the wire in the form of heat in turn heats up the e-juice and vaporizes it.

The surface of the coil? That's right... The key here is surface area... Imagine we had a way to flash heat a metal surface from room temperature to 700 degrees almost instantly. Now if we place a small drop of juice, say 2mm in diameter in the center of this surface and turn it on. That small drop is going to get vaporized almost instantly. The result will be a small puff of vapor. As you would imagine, it won't be a tremendous amount of vapor. Now imagine we rigged up a gravity fed system that would feed juice as fast as it's vaporized... Still though the surface area being used to vaporize is only 1mm in diameter. We turn it on again... What happens? Now we get a stream of vapor... But it's still a very small stream. Sure it keeps going, and overall you're going to end up getting more vapor, but you still aren't going to fill your house with it. BUT... Suppose now we instead place a drop of e-juice that's 20cm in diameter. We've just went from a surface area of 12.57mm2 to 125664mm2! That's a huge difference in surface area... Now what happens when we turn it on? We'll get a GIANT puff of smoke... That's a LOT of juice vaporizing all at one... Now imagine taking it a step further and going back to our gravity fed system, but this time it can supply enough to keep that entire 20cm circle saturated.... We turn it on again... Now we get a giant plume of vapor that's going to fill the house in seconds!

It's surface area that makes the most difference in vaporization... The more surface we have turning juice to vapor the more vapor we can produce.

But, there's still a lot more to it than that when it comes to our e-cigs. First of all, as stated above, you have to keep that juice supplied to the heat source, in this case the surface of our coil. That's where wicking comes in. If your wick isn't good enough to carry a fresh supply of juice as fast as your heat source can vaporize it, then you'll get a nasty burnt dry hit instead of a nice flavorful cloud.

Airflow must be considered. Ever come inside from working in the yard on a hot summers day, covered in sweat and then stood in front of a blowing fan? Best feeling in the world isn't it? That fan is evaporating sweat off your body and carrying away heat with it. Leaving you feeling nice and cool. In the case of our coils, much the same process is taking place. As the juice is vaporized heat is being carried off your coil. However, vapor that's carrying the heat needs to now be carried away... If it's not, then the heat will simply build up. It can't go anywhere and when that happens the amount of heat in a given area (known as the heat flux) increases which results again in a dry nasty burnt hit. Let's back up for a second. Imagine coming in from that yard work and standing in front of the fan, except this time you wrapped up in 5 giant wool blankets first. Not exactly that same wonderful experience is it? You're not getting air flow over your body any more, so the heat is retained. The same happens with our coils.

Now let's talk about heat flux for a moment. Heat flux is the amount of heat being released in a given area. Previously I gave this example. If you take a 5000 watt portable cube heater and place it in the middle of a giant 100' x 100' pole building in the middle of winter, what effect is it going to have? Very very little. It won't warm that building as more heat is escaping than being generated over time and there's such a giant area inside that building that the very small output is going to do nothing. On the other hand, take that same 5000 watt heater and place it inside a 4' x 4' shipping crate and sit inside there with it. Quite a difference huh? It's going to burn you up in no time. You're running the exact same wattage so what gives? That's where heat flux comes in... In your pole building the heat flux was VERY VERY small... On the other hand, in that shipping crate the heat flux was extreme!!!

Our coils and atomizers have heat flux to worry about too. Because the juice vaporizes at a given temperature. Somewhere around 400-500 degrees if I recall. Anything less than that and it won't vaporize... But... There's an important consideration to think about...

How hot is a pot of boiling water? 212 degrees right? But wait... I set my stove on Hi, and the specifications clearly state that should be 500 degrees.... So no, my pot of water is 500 degrees... Um no... Your pot of boiling water is 212 degrees no matter what. Why? Because of what we talking about earlier... As the water boils, the steam carries away heat. It will NEVER reach a temperature above 212 degrees... The more heat you APPLY via the burner, the faster it will boil... The more steam (and therefore heat) is released....

Juice on a coil works exactly the same way. The more heat flux you have, the faster the juice is vaporized and the more that heat is carried away. However there is a big difference between our coils and a pot of water. The water has a large supply. Our coil doesn't. It relies on it being fed via our wick. This is where heat flux and wick come into play. The hotter the heat flux, the more efficient our wick needs to be, otherwise it can't supply enough juice to keep the surface wet. In that cause the heat builds even more and soon you have burning wick, coil, etc.

Airflow is important because without it our heat flux rises, which means our wick has to be even more efficient. No matter how good your wick material is, it can only wick so fast.

Whew......

Got all that so far? Hopefully you have a better understanding of the processes that go on in these remarkable little devices. Let's move on shall we? Let's get to the core of this post, and why you've had to be inundated with all that information.

In the beginning there were mods. Mods were flashlights or just about anything else you can imagine that could be used to power an atomizer. The existing batteries at the time had very small capacities. So with these other devices being utilized it was quickly realized that much larger batteries with higher capacities could be used. Thus "mods" were born.

A mod is really just that... What we these days refer to as a "mechanical mod". A battery and some sort of switch mechanism. This means a FIXED voltage. Now the thing is, with a fixed voltage if I want to produce more watts, and therefore heat, I only have one other variable I can adjust... Resistance.

Soon it was realized that the lower the resistance of the coil, the more wattage was produced, and therefore more heat was released... Meaning a higher heat flux and more juice getting vaporized.

Sub-ohm was born.... As batteries improved and could handle higher and higher currents, lower and lower resistances could be utilized.

This all culminated into the idea that seems to be ingrained in so many's heads to this very day... The lower the resistance, the more vapor I produce. And in the case of a mechanical mod, that's exactly correct.

Early VV and VW devices couldn't handle very much current and/or wattage. So this still held true. If you wanted large clouds of creamy tasty vapor, you needed a mechanical mod with a sub-ohm build.

But more recently there has been a slew of high power regulated mods coming out.

I've recently seen some posts referring to some of the newer regulated devices. Talk of how "stupid" people are going to feel when they get their hands on these things and realize they can't go down to a ridiculously low voltage, or the amp limitations prevent them from running coils of .1 or .2 ohm at full power. Every time I see one of these posts, one half of me laughs and the other half just shakes his head. These people who make such comments just truly don't understand what these devices are all about.

These devices aren't about trying to run a ridiculously low resistance build... They have voltage to spare... They can pump out way more than the 4.2 volts a mech mod is capable of. What does that mean? Well.... Let's remember the above...

It's all about heat flux and surface area... But we know we can "exceed" a certain point where our wicking material just can't keep up with our heat flux. In that case at best we aren't generating vapor as fast as we could, and worst case we get a nasty dry burnt hit full of our burnt wicking material.

Why does that relate? Because in general the lower resistance our build, the less surface area we have. Now, we can work around that, by using a thicker gauge wire. A 24awg build is going to have a lot more coils than a 30awg build given the same resistance..... BUT... what we also have is a lot more metal... Meaning it takes longer to heat up, and also longer to cool down.

Mention a "2 ohm build" to a "cloud chaser" and he'll laugh at you... Because in his mind he imagines this clearomizer type build running a few watts producing almost no vapor at all... That's because in his mind when you talk about a 2 ohm build he's thinking about supplying it with a maximum of 4.2 volts... Which means almost 9 watts...

But suppose you took that same 2 ohm build and ran 9 volts into it? All of a sudden you're kicking out 40 watts of power. And spreading that 40 watts out over a large surface area...

Starting to get the picture?

Let's say we build a .4 ohm build with dual 24awg coils... That's 11 wraps on each coil with a 2mm inner diameter... That's 44 watts on a freshly charged battery with a drop to 27 watts by the time the battery reaches 3.3 volts. (This is NOT accounting for voltage drop in the mod itself) But at 44 watts that's a heat flux of 243mW/mm2.

There are two problems with this build... First, it's going to take a VERY long time to heat up... From the time the switch is thrown till it's ready to vape is going to be a while. That's a lot of metal for 4.2 volts to handle... Likewise, once the switch is thrown back off, it's going to continue to cook juice for a while... It's going to take a good bit for it to cool back down... Which means a lot of excess wasted juice and longer run times meaning lowering of battery life. Second, it's not consistent. Every hit drains the battery and results in a lower voltage. The more hits, the lower the voltage. That means not only is it taking even LONGER to heat up, which means even more battery drain, but not as many watts are going into the coil, so less vapor is being produced with each hit.

Too many times people who build for mech mods try to build the same way for regulated mods. They are different animals. They aren't designed to run the same sorts of builds. It's my belief this is where so much confusion comes in.

But let's say instead we build for a regulated mod. Like the T5 for instance. Now in this case let's say we build a 1.8 ohm build with dual 29awg coils... That's a whooping 19 wraps on each coil at 2mm inner diameter... Now we can run this setup at 8.9 volts to get the same 44 watts we were kicking on a fully charged battery with our mech's .4 build. But what's the difference?

Well... LOTS of difference.... First, since we're using a regulated device that voltage is going to stay at 8.9 volts for the entire ride... From first hit to last it's going to perform exactly the same way... As the battery voltage drops, the boost circuit in the DC to DC will simply draw more current from the battery and "Trade" it for the voltage it needs...

Second, we have less than HALF the heat capacity in the wire... In other words, the lag time from when it's fired to when it's fully heated, and vice versa, when it's stopped and cools down is WAY less than the 24awg build... Because we have less mass to heat and cool.

Third, we have MUCHO surface area... Remember how we learned how important surface area is to vapor production? Well now we've got tons of it... almost 40 wraps worth!

And as for heat flux? We actually have an even higher heat flux on this build at 307mW/mm2... So that larger surface area is being delivered more heat within it than our mech build. As long as our airflow and wick can keep up, we're going to be producing large amounts of vapor...

Starting to see the light? Look, I'm not trashing mech mods here... I have some and use them myself... They are simplistic and small and can give a darn good vape with the right setup... Instead what I'm saying is, the newer regulated devices are being "compared" to these mech's by mech users, and often times being trashed because they can't do .0000001 ohm builds... (some exaggeration inserted.) But these folks just don't realize that that is NOT what they are intended to do. Many of them I don't think even realize WHY they build the sub-ohm builds the run... They don't understand that it's to overcome the limitations their mech mod presents them, and instead think that somehow there's this magical formula that says the lower resistance you can build the better the vape... and that's just bull...

With higher voltages you can build higher resistance builds with much more surface area and good heat flux to produce massive amounts of vapor with absolute consistency. And that my friends is exactly where these high voltage regulated mods shine.

I'll climb off my soap box now....


TL/DR: The delayed choice quantum eraser experiment is super cool!!!  

New Ce4's Won't Work, No Heat Or Vape. Used To Usual Breaking In Quirks

Hi guys,

recently bought some CE4s online, and the first couple in the bunch don't seem to be working, ive let them soak in the long wick for 10 mins, and the battery lights on, but there's just no discharge at all... heat or vape.

Any ideas what the issue is?

thanks  

Iclear 30s Problems?

so i got this used iclear 30s from a friend for like 5 bucks he didnt want it anymore, and i filled it up and let it sit to soak the coils and now that i tarted using it, its barely giving any vapor, takes like 3 seconds to even heat up, and heres the weird part, i am vaping it at 20 watts with no burnt taste ... im not very knowledgable about tanks but im pretty sure at 20 watts that .... should be burning the hell out of my throat? How come it takes so long to heat up, gives no vapor, and im able to vape a t 20 watts??? is their any way to do something to fix it without buying a new coil?  

Coil Question?

Can someone help explain : why thicker wires (lower gauge) since they have less resistance why would they take longer to heat up ? One (me) would think the lower resistance would make heating up quicker- where am I going wrong ?

Thx.


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Vaping Quesitons

Ok I'm hoping I don't get heat for these questions/statements but educating ones self especially with something that is still very new is important to me.

1. Read some articles on how there is second hand vape similar to cigarettes (99% better mind you) what are your thoughts? Vaping may not be as safe as smokers think, research suggests | Society | The Guardian

2. Formaldehyde found in builds running at high watts/voltage? But 0% at low/normal builds, what i can't seem to find is whats considered to high for a Mechanical Mod or even for a V/W, V/V Setup? My normal build for a mech mod is twisted single coil 24 gauge 6-7 wraps, usually gets about 0.28 ohms and single coil 8 wraps of 24 gauge puts out 0.73 ohms on my flavor builds.
Before You Vape: High levels of Formaldehyde Hidden in E-Cigs - NBC News  

Question About Coils

Is there a wire that I can build with that has a lower heat output than kathal? I'm a newb and just starting to build. The only thing I know is that I like a cool vape but I want something that will produce good clouds and flavor.  

Sigelei 150w And Derringer Ohm Jumping Issue.

OK so I have received my new mod. I've been using the derringer for quite so time and never noticed any inconsistency on any other device. But this is the only device I own that reads ohms. I chain vape like a champ and the derringer does get hot when I jump on the train. Once it heats up the ohms jump around erracticly. So I added a keppler heat sink to the derringer and poof problem solved. My questions are has anyone had this happen to them. Is the heat making the ohms jump around? Or is there some issue of contact with the positive pin? Or do I just have a faulty mod? Please share experienxes . Thanks gang.