Deluxbert
Harmless
Posts: 13
Registered: 24-4-2017
Member Is Offline
Mood: Skurr Skurr
|
|
Wierd reaction in chlorate cell
So i started a chlorate cell because I now finally have the electrodes to do that.
Problem was that I really needed to clean up my psu(smelled burny) so I had to shut the whole cell down after ~6 hours of running at 5v 2.5A
Today i readded the electrodes and for some reason the MMO (Iridium Ruthetium oxide on titanium) started bubbling even though there was no connection
at all (Not between the anodes or psu)
Could this be an indication that the anode is a fake? Or is this a catalyzed reaction?
|
|
Deluxbert
Harmless
Posts: 13
Registered: 24-4-2017
Member Is Offline
Mood: Skurr Skurr
|
|
Also whats to note is that both electrodes are not magnetic and the one that should be pure titanium isnt bubbling at all.
|
|
AJKOER
Radically Dubious
Posts: 3026
Registered: 7-5-2011
Member Is Offline
Mood: No Mood
|
|
To be honest, I do not theoretically or, in practice, advocate an electrolysis path to chlorate.
Theoretically problematic as there is some radical chemistry afoot, just as is occurring in my thread promoting a photolysis approach (see, for
example, my discussion at https://www.sciencemadness.org/whisper/viewthread.php?tid=34... , which I detail and mostly understand), plus more. I have seem only one attempt
to indicate the likely precise mechanics of the chlorate formation pathway via electrolysis. Also, electrolysis is inherently slow by nature, and
chlorate yield may depend on solution temperature and pH control.
So, we have a not so clearly understood, or documented, slow pathway to start with, and now seemingly an unexplained reactions with your new
electrodes. I, for one, am not surprised and can offer limited insight.
Also, this electrolysis method to chlorate is so popular, and expected by legal authorities, that even the main ingredient, KCl, when sold in large
bags as a water softener, may be a watched/flagged purchased. With respect to equipment also, last year in Radio Shack, I was buying clips and wiring
to perform an electrolysis path to CuSO4, on which I was asked about the purpose of my endeavors, that I explained to the sales representative.
Do better, use solar light or your microwave oven, in a faster, cheaper, more understood and discrete path to chlorate, which I am still aiming to
improve!
So, we have a little understood or known process and a possible quality issue with respect to the electrodes, to which something strange appears to
occur. But is 'unknown' + 'uncertain' + 'strange' = 'weird' ?
[Edited on 28-4-2017 by AJKOER]
|
|
softbeard
Hazard to Self
Posts: 69
Registered: 23-7-2013
Member Is Offline
Mood: moody
|
|
Quote: Originally posted by AJKOER |
Do better, use solar light or your microwave oven, in a faster, cheaper, more understood and discrete path to chlorate, which I am still aiming to
improve!
|
I'll probably regret asking this, but just how do you make chlorates with a microwave oven?
With sunlight, at least you can have it shine on a solar cell to make DC current, then use that to electrolyze an aqueous chloride solution.
Seriously, if anyone can improve on the Chlor-Alkali industry's ~130 year-old electrolysis process, they'll be instant billionaires.
Making chlorates through chloride electolysis is slow because it takes 6 moles of electrons for each mole of chlorate formed. That requires a lot of
amps or long time periods, or both. 106.4 g of NaClO3 (1 mole) at 1 amp requires 579,000 sec = 160.8 hrs = 6.7 days @ 100% efficiency.
If you could use 'sunlight'to convert chloride to chlorate, you'd still need a huge number of photons and time, unless you can circumvent conservation
of energy somehow.
|
|
AJKOER
Radically Dubious
Posts: 3026
Registered: 7-5-2011
Member Is Offline
Mood: No Mood
|
|
Read my cited thread and references, especially with respect to the path to chlorate promoted by radical formation.
A short example with aqueous dinitrogen oxide (N2O is sold in stores having some popular demand being able to infuse flavors into drinks) and any
formed solvated electrons:
N2O + e-(aq) ---) N2 + .O-
.O- + H2O = .OH + OH-
where the last reaction moves to the right except at very high pH.
The solvated electrons to promote the above reaction can be formed via many paths including UV photolysis of N2O, solar light on photo active metal
oxides (TiO2, ZnO, MgO, FeOOH..), radiation, irradiation via micro waves, electrolysis,....
Access to cheap NaCl, electrical power and scale considerations are why electrolysis is a commercial favorite. For today's home chemist, I would
assume that discreet access to ingredients (discretion can help avoid the need for bail money, legal fees,...) utilizing a non-traditional path,
relatively low costs, and time to completion would be driving factors (or, at least, should be).
I would note if there is an electric service disruption, there still may be some sunlight available (use it as you will).
[Edited on 30-4-2017 by AJKOER]
|
|
|