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Author: Subject: Distilling H2SO4 from NaHSO4
dex
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[*] posted on 10-10-2024 at 07:35
Distilling H2SO4 from NaHSO4


I spent a couple of days searching the forum for a cheap and effective way of producing concentrated H2SO4 and came across an interesting post by JJay, in which he stated that you could heat NaHSO4 to obtain H2SO4 vapors, quoting the book "Small-Scale Synthesis of Laboratory Reagents" by Leonid Lerner.

I have seen this reaction being discussed here for making oleum but not as a cheap way to make H2SO4 for the amateur chemist. In particular, the book states:

Quote:

Oleum can be obtained by the pyrolysis of NaHSO4, which in the fluid state is equiv-
alent to an equimolar mixture of H2SO4 and Na2SO4:

2NaHSO4 ≡ H2SO4 + Na2SO4. (equation 20.5)


The book then further states

Quote:

Equation 20.5 turns out to be a realizable reaction in practice. The present experi-
ment shows that H2SO4 can be distilled from NaHSO4 with almost 100% efficiency.
While collecting the distillate as a single fraction gives 100% H2SO4, unlike the SO3/
H2O system, introducing a cut in the distillate fraction yields oleum, with the lower
bp fraction being therefore a correspondingly weaker acid (because the combined
fractions must give 100% H2SO4).


If I can read this correctly, then why isn't it suggested more often as a common way of producing sulfuric acid? I may be missing something here which is why I'm making this post before attempting anything too dangerous. Honestly, reading about it in the book makes it sound so easy, but then absolutely no one mentions it in the usual H2SO4 talks, nor has anyone posted this reaction on youtube, so that makes me a little anxious about attempting it by myself right now.
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[*] posted on 10-10-2024 at 08:38


I think it's more about when NaHSO₄ is heated and decomposes into H₂SO₄ and Na₂SO₄, the resultant solid sodium sulfate can form a hard block inside the glassware that would be very hard to remove. This block could also expand as it forms, potentially putting stress on the glass and causing it to crack or break.

I was wondering if there might be alternative setups to mitigate this. For example, would it be possible to heat the bisulfate on a glass plate and use vacuum suction connected to an inverted funnel placed above it to collect the H₂SO₄ vapors? That might avoid the risk of damaging enclosed glassware.

Alternatively, maybe using a quartz tube reactor with a dry inert gas flow (like nitrogen or argon) to sweep the H₂SO₄ vapors could work? Quartz can handle higher temperatures and might be less likely to suffer from the thermal stress.
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[*] posted on 10-10-2024 at 09:55


Thank you for your insight. Is the Na2SO4 product that hard to remove? Looking at Thy Labs' video on sodium sulfate it doesn't look that bad but I don't know.

The author of the book I mentioned also wrote a lab report. I can't post the whole book here because of copyright but if you can find it I invite you to read the entire section on SO3, that is very interesting. In particular he does use quartz glassware for heating, but he uses a simple distillation arm, into a 2-neck RBF immersed in a cold bath with a condenser on the 2nd neck.
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[*] posted on 10-10-2024 at 11:17


Lerner writes on page 181 of the same book that a "result of practical significance in the present experiment is that (...) Na2SO4, which is solid at the maximum reaction temperature, does not attack quartz or expand on cooling", so expansion is not an issue.

For me it is both the reaction temperature and the concentration. Unless you're in the UK, you can buy a bottle of ~35% sulfuric acid for batteries, which is more than twice the concentration obtained from decomposition of bisulfate in the range 260 to 420 °C. In either case, bisulfate or battery, distillation will be necessary to remove water. And dealing with sulfur trioxide is not exactly a pleasure.

By the way, could you please share the title or DOI of the report? Lerner was probably too modest to reference his own publication in his book.




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[*] posted on 10-10-2024 at 11:51


Quote:
By the way, could you please share the title or DOI of the report? Lerner was probably too modest to reference his own publication in his book.


Sorry for the confusion, I meant the report that is in the book. :')

Thank you for clearly laying out the downsides. I am not in the UK but I don't think you can buy battery acid in the EU anymore. It's such an important reagent and I just want a reliable way to get as much as I want, and NaHSO4 is so cheap, I might just take the time to replicate his entire setup with the box oven. If I do not take cuts that should avoid having to deal with the SO3 right? I'm not too sure about that, or even how to handle SO3...
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[*] posted on 10-10-2024 at 11:53


Quote: Originally posted by dex  

If I can read this correctly, then why isn't it suggested more often as a common way of producing sulfuric acid? I may be missing something here which is why I'm making this post before attempting anything too dangerous. Honestly, reading about it in the book makes it sound so easy, but then absolutely no one mentions it in the usual H2SO4 talks, nor has anyone posted this reaction on youtube, so that makes me a little anxious about attempting it by myself right now.


This reaction needs blowtorches and a quartz RBF as well as some special glass pieces (a 65° bend, an air condenser…) to be conducted effectively. There are also a lot of SO₃ fumes escaping, which makes it impractical unless you operate in a fume hood or outside.

If you want to make concentrated sulphuric acid you first have to preheat the RBF at 350/400 °C for a while in order to evaporate the major part of the water that the reaction produces, which needs a heating mantle that can reach this high.

Really, the best solution to make sulphuric acid (diluted) is to do what we devised with NurdRage: make a concentrated solution of copper sulphate and add the stoichiometric amount of oxalic acid. You’ll precipitate copper oxalate which is totally insoluble, and be left after filtration with diluted sulphuric acid. Painless, harmless and odorless.
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[*] posted on 11-10-2024 at 01:32


I tried the reaction with NaHSO4.H2O some years ago, without success.

The solid "melts" very easily, the solid NaHSO4.H2O melts in its own water of crystallization at well be low 100 C.
On further heating, the water can be boiled away, leaving behind anhydrous NaHSO4.
The next step occurs at below 300 C. More water is lost. What remains behind is solid Na2S2O7. And here the fun stops.
In order to get free SO3 from the Na2S2O7 you need insane heating. In glass, this is not possible. Maybe in quartz, but I do not have that. I heated until my test tube became soft, but still no SO3.

I also tried with Na2S2O8. You can easily convert this to Na2S2O7 by heating, but again, at that point the fun stops.




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[*] posted on 11-10-2024 at 02:39


Quote: Originally posted by woelen  
Maybe in quartz, but I do not have that. I heated until my test tube became soft, but still no SO3.


I’m surprised. A single blowtorch suffices to get plenty of sulphur trioxide fumes, as shown in the attached picture (the test tube is made of quartz).

IMG_1686.jpeg - 2.1MB
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[*] posted on 11-10-2024 at 10:04


Thanks everyone. Great picture. I'll try to get my hands on quartz glassware. Copper sulfate + oxalic acid are more than twice as expensive as NaHSO4 from what I can see. It'll take some time but I'll report back on my results if I do it.
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[*] posted on 11-10-2024 at 10:19


Please do. We’ll be pleased to help
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[*] posted on 14-10-2024 at 14:11


Check Nurd Rage videos regarding oleum.

https://www.youtube.com/watch?v=hUyJ6CibhSg&t=5s&ab_...

https://www.youtube.com/watch?v=wB2zzm8VP9Y&ab_channel=N...





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