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Author: Subject: Nitromethane, nitroethane, nitropropane synthesis via industrial route
AndersHoveland
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[*] posted on 25-9-2011 at 13:52


Those types of halogen substitution reactions can be difficult. Typically both the reactants must be able to dissolve in the solvent. Either that, or both the products must.
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Alastair
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[*] posted on 26-9-2011 at 07:18


Quote: Originally posted by shivas  

yeah...iodoethane or any other haloethane will yield nitroethane.


In that case, is silver nitrite necsessary or simpler sodium would do? (In one book the synthesis needed AgNO2)
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[*] posted on 26-9-2011 at 08:19


Quote: Originally posted by Alastair  
Quote: Originally posted by shivas  

yeah...iodoethane or any other haloethane will yield nitroethane.


In that case, is silver nitrite necsessary or simpler sodium would do? (In one book the synthesis needed AgNO2)


sodium nitrite will work but silver nitrite gives higher yields.
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Alastair
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[*] posted on 29-9-2011 at 05:13


I've just come up with an amazing idea.
What about excess EtOH + HCl and then just add hexamine and reflux? (ref. Delepine reaction)

Wait, that gives ethylamine, sorry.

[Edited on 29-9-2011 by Alastair]
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Jimmymajesty
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[*] posted on 29-3-2015 at 03:36


Hi folks,

I have been thinking how one could minimize the risk of explosion based on the run I did in a couple of years before, so what do you think about this setup?

Advantages:

The HNO3 flask will be filled up with ceramic rings so the explosion space is limited to ~20cm3
The thermometer is inside the gas stream (Pt100)

Of course it is a 2D version of the setup, you have to rotate back the condenser to have the actual 3D version that will be put under the test. But I am sure you know how it will be used.

Any comments would be welcomed.



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Jimmymajesty
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[*] posted on 31-3-2015 at 12:50


so... I jerry-rigged a lil setup today.

I used a nebulizer to make HNO3 spray the entrainer was P-B gas mixture from a cigarette lighter.

Problems were as expected:
There were large droplets in the spray which came to gether in the tube causing mini explosions.
I could not keep the PB flow constant so in 95% of the 2 min operation there was a flame inside the quartz tube.

I tried to collect the products in water by placing a beaker to the outlet. There was nothing but a strong formaldehyde smell with a pinch of almond.

All in all I quite optimistic about this simple design ---forget the complex glassware posted above--- I think in a couple of weeks I can come back with some real yields!:)


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Magpie
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[*] posted on 1-4-2015 at 05:17


Jimmy I don't know anything about what you are doing here but I'm impressed with your technochemistry creations. IMO you are doing the most exciting research on this forum.

I'm going to have to look into the workings and use of a nebulizer.

For flow control have you considered a needle valve and gas rotameter?

Edit: A pressure regulator would also be a help if the up stream pressure varies. I know this all costs money - but with your creativity you might bring the cost down. ;)

[Edited on 1-4-2015 by Magpie]

[Edited on 1-4-2015 by Magpie]




The single most important condition for a successful synthesis is good mixing - Nicodem
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Jimmymajesty
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[*] posted on 1-4-2015 at 09:12


Magpie, like NurdRage says, we are here to explore the science:)
The 20kg PB tank is on its way, then the flow control problem will be solved.

If I were to measure real flow I would use the heated filament method, but I do not think it is necessary at garage level chemistry.

There are two possibilities:
Spraying form above - glasswork needed
HNO3 vapors from below - explosion risk... but you do not have to worry about large HNO3 droplets. So I favor this.
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Praxichys
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[*] posted on 2-4-2015 at 05:26


This whole thread is very interesting.

What about making a steel bomb, add nitric acid, pressurize with liquid propane, and then heat it (remotely!) to the required temperature, let it cool, relieve pressure, and fractionate the contents?




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Jimmymajesty
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[*] posted on 2-4-2015 at 09:08


Praxichys you do not need to relieve the pressure after the reaction, you surely have to collect the shrapnels though.

Note that in the experimental setup above only nitric acid and CH was present still there was a jet like flame all along the tube, and it is not just some dancing flame it had a sharp noise, if you premix the reactants and heat them I am absolutely sure that a violent explosion will occurr.

If you want to explore alternative routes.. I read somewhere that alkyl nitrites can rearrange under pressure and heating to nitro compounds, so you rather try heating some isopropyl nitrite to get the nitro compound I think there will be oxidation reactions too so, maybe 40-50% yield but depending on the applied temps some nitromethane and ethane will form too.
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[*] posted on 2-4-2015 at 10:54


I would be wary of using nitrites for this because of the possibility of forming carcinogenic nitroso compounds.



The single most important condition for a successful synthesis is good mixing - Nicodem
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Jimmymajesty
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[*] posted on 6-4-2015 at 22:13


Hi Folks,

I did another microscale experiment.

The heating on the vial and reaction tube were controlled. The cc nitric was brought to boil the reactor tube was kept at dull red, the CH gas stream pressure was at 30mbar
Findings:
PB reacts with nitric acid, the top acid layer in the vial turned dark brown on contact with the propane-butane and this layer bubbled intensely without heating, sometimes in the gas mixture before the reactor the acid concentration was too high due to this overboiling phenomena, in this case there was alyways backflame with a peculiar sound... it never ceases to scare the hell out of me.
NOx reacts with mercaptans to form a blue compound as can be seen in the picture. when these blue droplets flowed back to nitric there was an immediate overboil and as a result backflame so...

I will countinue the experiments with 68% nitric and in the final setup will try to avoid the contact between the reactants before the reaction tube.

I also tried to condense the products with cold water, there were small oily droplets that disappeared in a couple of mins upon shaking. There was a strong HCHO and CH3CHO smell which indicates that the temps were too high.

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[*] posted on 9-4-2015 at 12:50


I screwed up my previous post. This replaces it.

What about hydrolysis and decarboxylation of the sodium salt of 3-nitropropionic acid starting from 3-chloropropionic acid?

EDIT: Nevermind. Addressed here: https://www.sciencemadness.org/whisper/viewthread.php?tid=11...

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[Edited on 9-4-2015 by Loptr]
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Jimmymajesty
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[*] posted on 23-10-2015 at 06:50


Hi there

I finally scavenged all the parts to my new gas phase reactor, which happens to be good for preparation of nitro compounds as well.
Based on the previous experiences with middle and small scale equipments this should just do fine. (I think...)

Description:
Dark: Preheated air flush, below that is a small PTFE tube which goes through the boiling nitric and preheats the gas too somewhat.
Blue: Nitric A. vaporizer.
Red: Plug will shot out in case of an explosion, think of it as a PSV, in this picture this is grounded glass plug but it will be replaced with a PTFE disk, and the glass and PTFE contact surface will be wetted with some silicone oil.
Yellow: C3-C4 + Nitric A. contact point.
Light green: C3-C4 + Nitric A. mixing section
Green: Reaction zone with wattage controller
Gray: Pt100
Red: Reaction product wash bottle and explosion trap
Rose: Leakage detector bottle

After the test runs with water the reactor will be filled up with raschig rings.

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shocked.gif posted on 31-10-2015 at 02:06


Jimmymajesty very nice upgrade! Looking forward to hear your reports on this.
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Jimmymajesty
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[*] posted on 8-11-2015 at 14:04


I cut my hand pretty badly, now that the stitches are removed I gained back enough dexterity to make a test run with water.

The only problem was that water accumulated at the ground glass joint and from time to time it flushed down on the evaporation zone and quickly boiled away, this is exactly what needs to be avoided so a 60W heating element was included, also the whole evaporation and reaction zone was filled up with inert ceramic balls. The role of the balls is to make the residence time lower and to decrease the reactor useful volume for fearing of an explosion.
I am quite pessimistic though that the glassware will withstand an explosion... at small scale experiments I managed to shatter the 1cm dia glass reactor tube with 40ml useful volume, now we are talking about ~200ml, of course the reason why the small reactor exploded is eliminated in this setup (I think), namely, the NOx+Gas mixture is not allowed to creep back into the nitric acid boiling flask by continuous air flush. The wall thickness of the present reactor is also higher 2,5mm compared to 1mm, so I am going to beef up on protective gears and hope for the best.

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[*] posted on 15-11-2015 at 14:33


I did a testrun today with cc HNO3.

I flushed the setup with gas.
Heated up the reactor to 320°C
Brough the HNO3 to slight boiling

Everything seemed to work fine for 30min when I noticed that in the first wash flask the gas flow started to fluctuate (lot of bubbles then in the next second hardly any) I thought ok it seems the HNO3 feed is almost over the explosion limit let leave it as it is, the next second the safety plug shot out saving the equipment.

The reason of the mini explosion were the HNO3 condensate droplets running down onto the mixing point, at the first cm of the evaporation zone the HNO3 droplets collected forming a larger drop that quickly evaporated pushing the gas+HNO3 mixture above the explosion limit. I have a nice solution in mind to solve this.

During the 30min experiment small droplets formed at the bottom and on top of the water in the first wash flask indicating that a mixture of nitro paraffins had been formed! :)

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Jimmymajesty
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[*] posted on 18-11-2015 at 14:48


I totally redesigned the reactor today.

Upon disassembling after the test run the first wash flask totally smelled of hydrogen cyanide :o The temp is measured outside the quartz tube reactor @320°C but quartz again a terrible heat conductor so the real temp inside was much higher. Also a lot of formaldehyde was present.

So at the new design:
The HNO3 will be boiling separately under slight pressure, when the vapors leave the small teflon tube right before the reaction zone it is slightly superheated so condensation will not occur immediately(I hope...)
The whole reactor will be open. The beaker will be filled up with water, in case of an explosion the pressure blows down through the water, then the water quickly flows back making the reactor operable again instantly. This was not the case with the teflon disk safety plug that had been shot across the room and while I started to search for it the exhaust ground glass joint bursted into flames.
Now that the HNO3 is in the small teflon tube I do not need air flush at different points, so the reactor design became simpler.
The heating filament will be wounded up on a shorter section and the preheating section will be omitted. This is for shorten the residence time at high temps even further.



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[*] posted on 19-11-2015 at 16:29


Ummmm, well. Most of you seem to be intent on "cracking" propane. It isn't the best approach.

This probably be won't useful to the majority, but the gas of choice to use in these reactions is Ethane.

You want Nitro-ethane? Nitrate Ethane. Ethane isn't a rare gas anymore. So, it isn't very expensive anymore. With the advent of widespread fracking, an excess amount of Ethane has been produced.

Since it burns hotter than Methane, there is a limit to how much Ethane, you can spike your Methane with. High Ethane Mixes, are reputed to burn out natural gas "Burners". Not good!
That endless surplus of Ethane, needs selling somehow too..

Plans were, to sell tons (maybe hundreds, thousands, or millions, of tons)....to European refiners; for cracking into gasolines. Probably, it has become a regular thing by now.

And, you could probably buys a few tons cheap, yourself........ if you had the right story-line, and a way to store the gas. But, what the hell would you do with it all?

If you were planning to pull a "Heisenberg", a few tons of Ethane would make sense. But, we all know how that eventually turns out.



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Jimmymajesty
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[*] posted on 22-11-2015 at 02:46


I do not have ethane at hand, ofc the reaction products with ethane are simpler. My motive was the price for a litre of nitro methane equals to 13 kg of propane butane gas mixture, so even with low yields it would worth a go and if your desired product is hydroxylamine the mixed reaction products are not a problem.

So I tried out the setup described above, and another one as seen on the pic with liquid feed (H2O only) same problem with both ones. The liquid reactant was spit onto the reaction zone. This in case with HNO3 caused mini explosions (in every 1 min). The explosions were handled well by the reactor. I even allowed the reactants to burn in the reactor for some time but nothing formed but water.

To perform this reaction one would need a glass sprinkler nozzle that capable of fixing the molar ratio of the reactants to around 5. This would require some high precision glasswork that is out of my reach. I can not think of any simple solution to bypass this, any ideas?

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[*] posted on 13-12-2015 at 10:09


place the electrode positive just above the water, the nitrogen will react with water and form nitric acid, the other method would bring no2 until a round valve with a large pressure and play heptane?

https://en.wikipedia.org/wiki/Bulk_loaded_liquid_propellants


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[Edited on 13-12-2015 by sclarenonz]
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Jimmymajesty
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[*] posted on 28-3-2016 at 11:36


Hi, I made ~1ml nitroparaffins today.

I used ~80% white fuming NA. Set the temp just below its boiling point. Turned on the gas feed, then cranked up the voltage on the glass tube heating cartridge to have all the NOx disappear at the top of the reactor, you can see how it looked like during operation.
When I heated up first, a flame front went through the apparatus resulting in very mild explosion, this was handled well by the water bath, then I increased the heating so that the brown fumes disappeared, there were still NOx at the low end of the heating cartridge this brown-colorless transition pulsated (moved up and down about ~2cm in every 2 sec).

Some nitroparrafins dropped to the bottom of the beaker and some remained on top of the water, it burned with a grey flame and smelled very nice. The droplets on the botton rose after 10-20min gave their half to the top layer then sank again.

It took me about 1hr to make this much, but I did not really try to optimise anything and I think large amount of the product just swept away by the unreacted gas stream.

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[*] posted on 28-3-2016 at 15:00


Well done Jimmymajesty. I know not a lot of members post replies to your experiments, but I just wanted to say your efforts have not gone unnoticed. I have read all your posts and your perseverance over such a long period of time amazes me. Keep up the good work!
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[*] posted on 29-3-2016 at 23:56


IIRC the only reagent capable of converting non-tert-alkyl-derived primary amines to nitro compounds is dimethyldioxirane:

http://www.sciencedirect.com/science/article/pii/09574166960...

In any case you need a highly electrophilic oxygen transfer agent which is not otherwise a good oxidant. HOF makes sense in that light, taking R=NOH to R=N+(OH)2 and releasing F-
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[*] posted on 3-4-2016 at 03:48


Hey, thanks. I like the difficult ones because they send you on a learning trajectory, honestly I am quite amazed how many times I failed before I got it right, basically I was like the foreign policy of USA, I tried out all bad ideas before I found one that yields some positive result (no offense ofc)

So I collected the vaporized fraction too this time. Surprisingly this was only 1/3 of the total recovered amount. for 10ml 80w% HNO3 I got ~1ml yellowish nitro propane/butane isomers. I am thinking about using recoverable hydrocarbons (bp>50°C), like hexane. I do not know about the yield on C3-C4 but I think it is insanely low.

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