MadScientist625
Well-Known Member
Stu said:
no, you are correct. The manual specifically states that the readout indicates "heater core temperature". The data are counter-intuitive [Edit: not anymore!].
no, you are correct. The manual specifically states that the readout indicates "heater core temperature". The data are counter-intuitive [Edit: not anymore!].
MadScientist625
Well-Known Member
Elbow versus cyclone data. Elbow is about 10-20C cooler over the temperature range 175-230C.
Pappy
shmaporist
Thinking about how to interpret. Empirically I always suspected the Q's readout was more valuable as a reference point than an accurate depiction of herb vaporization temperature. Personally I'd rather it be the latter but obviously Arizer doesn't have the technology to do it. That said interpreting the digital readout is integral in mastering the Q and this method works quite well. It's really no different than figuring out the sweet spot on a DBV. You don't gotta know the temp! I've highlighted the variances in the sweet spots on the same brands of vapes for quite some time.
So I keep my Q on @ 200 and ready to go. A few minutes before I do an elbow I set it to 230 and put on an empty Cyclone bowl. 2 or 3 minutes later I insert an elbow load and drop it to 200. What temp am I vaping the herb at? The data suggests I'm dropping the temp only to see it rapidly rise up in a succession of hotter and hotter temperatures.
So I keep my Q on @ 200 and ready to go. A few minutes before I do an elbow I set it to 230 and put on an empty Cyclone bowl. 2 or 3 minutes later I insert an elbow load and drop it to 200. What temp am I vaping the herb at? The data suggests I'm dropping the temp only to see it rapidly rise up in a succession of hotter and hotter temperatures.
Shiz
Well-Known Member
Pappy, I figured you elbow guys were already compensating about 15-20C. If that data is accurate then I'm glad the display is lower than the actual temps rather than higher.
The rubber end is to protect you from the hot glass when handling it, That side goes up.garruk said:
tdavie
Unconscious Objector
garruk said:
Frosted glass side sits on the heater, and you load the bowl on the black side (the screen should be above the midpoint of the bowl). The elbow goes on top of the black rubber side of the bowl. BTW, the black is NOT latex rubber, a fact that I had to verify for allergic reasons for GF. The black area on the bowl is so that you don't stupidly burn yourself like me
Tom
mysticlaker
Well-Known Member
It looks like 170-200 is where you want to be for q. I never have really gone below 200, but I will be doing it now. Going over 200 seems like overkill for release of most of goods.
mysticlaker
Well-Known Member
MadScientist's last graph. Even with a setpoint of 180 you've reached 230 C where the majority of vaporization for the various cannaboids has occurred based on this post. Maybe I am reading the graph wrong, but that is what it looks like to me.
http://www.fuckcombustion.com/viewtopic.php?id=4135
http://www.fuckcombustion.com/viewtopic.php?id=4135
MadScientist625
Well-Known Member
[Edit: Note that these charts have been changed to reflect a systematic error on my part; I was using the wrong thermocouple calibration JvsK]
Good morning FC, I have more data for you...
Here I was concerned with how the fan speed affects air temperature. The conditions were T,setpoint = 200C, full-warm up, and measuring the temperature in the center of the elbow where the would normally sit. The data was collected starting with a room temperture elblow. The elbow was allowed to sit on top of the unit for 2 min before turning the fan on.
Time-series temperature versus Fan speed
Max temperature versus fan speed
The main conclusion here is that there is a significant decrease in air temperature with fan speed. Basically the heater quickly cools off and is either incapable of keeping up at high fan speeds or the temperature controller is poorly tuned. This explains why bag hits are best at F1. At F2 and F3, the air temperature cools off quickly and you're not really vaping much anymore.
The fact that the heater temperature readout on the display never moves during these run is concerning. I am inclined to believe that the controller is programmed to lie to us or the temperature readout has nothing to do with temperature (maybe just correlated to heat duty or something; i.e. 200C = 70% heat duty).
If it weren't for the warranty, I'd be inclined to dig into the unit to see what's going on in there....
Good morning FC, I have more data for you...
Here I was concerned with how the fan speed affects air temperature. The conditions were T,setpoint = 200C, full-warm up, and measuring the temperature in the center of the elbow where the would normally sit. The data was collected starting with a room temperture elblow. The elbow was allowed to sit on top of the unit for 2 min before turning the fan on.
Time-series temperature versus Fan speed
Max temperature versus fan speed
The main conclusion here is that there is a significant decrease in air temperature with fan speed. Basically the heater quickly cools off and is either incapable of keeping up at high fan speeds or the temperature controller is poorly tuned. This explains why bag hits are best at F1. At F2 and F3, the air temperature cools off quickly and you're not really vaping much anymore.
The fact that the heater temperature readout on the display never moves during these run is concerning. I am inclined to believe that the controller is programmed to lie to us or the temperature readout has nothing to do with temperature (maybe just correlated to heat duty or something; i.e. 200C = 70% heat duty).
If it weren't for the warranty, I'd be inclined to dig into the unit to see what's going on in there....
MadScientist625
Well-Known Member
Pappy said:
Yep. Best thing to do is just do the experiment and observe how toasted the herb is getting with the setpoints you used and optimize from there. Hopefully this data will allow people more quickly find their optimum...
Pappy said:
The percolation/pre-heat temperature in the cyclone or elbow doesn't really vary much once the setpoint is ~200C and higher; it's about 60C on the elbow and 100C on the cyclone bowl. 2min seems to be the perfect amount of time for pre-heating.
Increasing the setpoint to 230C and then decreasing it back to 200C just before you hit is probably giving you a slightly higher temperature max than if you just left it at 200C the whole time. Again, there is some hysteresis behavior with the unit which is not surprising.
mysticlaker
Well-Known Member
It is definitely a heat duty indication. Once set to a temp, it never moves. I imagine during your Fan experiment the "heating" light was on pretty much the whole time after the temp drops occurred.
MadScientist, what are you going to vape at?
MadScientist625
Well-Known Member
mysticlaker said:
The low flash point of some of those compounds (CBD for example) makes me think that the temperature program should start much lower (T,setpoint = 130-140C) so you maximize vaporization of THC and CBD and minimize combustion. However, I don't know how the flashpoint was determined (did they follow a ASTM method?). More than likely, because these compounds are more dilute in our vaporizer versus the flashpoint test and therefore the flash point temperature in the vaporizer is higher...
MadScientist625
Well-Known Member
mysticlaker said:
If T,setpoint actually is indicating heat duty then the manufacturer is lying to us in the manual. If this is true, at least it doesn't ramp up the heat duty (heater voltage) immediately to the setpoint during warmup. That will prolong the life of the heating element.
I haven't been paying much attention to the blinking red "heating" light (shame on me). Have you seen it change its behavior while using it?
mysticlaker said:
I was following everyone else's advice and vaping at 200C in the elbow, which is location I'll use it 90% of the time (vap alone mainly).
[Edit: updated values to reflect updated temperature data] Based on my temperature data and the b.p. and flashpoint data, I think that I'll try doing it at 170C and then increasing it to 190C after that and then finish at 220C. It may not be much different but some of the more delicate ( low b.p. and f.p.) molecules will have a better chance at surviving at low temps and this will probably have the best efficiency.
I suggest that people do their own experiments to see if their unit is any different from mine. you can pick up a digital multimeter with a thermocouple input for $20-30. The unit I used was a $500 8-channel Omega unit
.
Shiz
Well-Known Member
Another good post. I'll try going that low that to see if I notice much difference. I've been starting at higher temps lately, ignoring the actives at lower temps and going for the big bang. It'll be interesting to see if I can gauge the difference.MadScientist625 said:
MadScientist625
Well-Known Member
Shiz said:
Yeah, I think that you're/we're not going to see much difference. If you want to avoid the sedative effects/chemicals, based on that info, I would go lower in temps. Remember that even if you're above the flash-point of your compound of interest, you still need an ignition source and the proper concentration range in air to combust the compound. Really, what we should be concerned with is the auto-ignition temperature (the temperature at which the fuel will burn without an ignition source). Without a flame present, I'm guessing it's going to be very hard to burn most of these molecules. For example, hydrogen has an extremely low flash-point (20 K, lower than the boiling point of oxygen) and ignition energy but will only auto-ignite in air above ~475C and above 4 vol%.
Having said that, molecules may decompose/break-down (pyrolyze) rather than burn so I would stay close to the boiling point as much as possible and increase temperature in stages.
MadScientist625
Well-Known Member
FC,
I feel like an idiot
. I decided to double check my measurements today using a different thermocouple; I was suspicious that the temperatures were incorrect (too high). In the process, I determined that the setting on the thermocouple reader was incorrect for all the transient experiments. I was using a j-type thermocouple and it was set for K. The temperatures can be easily corrected (multiply by 0.72); they will go down significantly.
Stay tuned.
I feel like an idiot
. I decided to double check my measurements today using a different thermocouple; I was suspicious that the temperatures were incorrect (too high). In the process, I determined that the setting on the thermocouple reader was incorrect for all the transient experiments. I was using a j-type thermocouple and it was set for K. The temperatures can be easily corrected (multiply by 0.72); they will go down significantly.Stay tuned.
MadScientist625
Well-Known Member
Stu said:
The data has been updated to take into account my fuck up with the thermocouple calibration. The results are much better now in terms of how well the controller is calibrated. The same transient issues are still present but we can be confident that the unit is accurately giving us air at the temperature we are requesting; at least at F1! I'm actually happy that I was wrong; makes me feel better about my purchase!