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Sciencemadness Discussion Board » Fundamentals » Beginnings » Mysterious Brown Gas. Not Bromine.

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SimplyChem16

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posted on 20-7-2014 at 18:16

Mysterious Brown Gas. Not Bromine.

I had recently performed the "smoke bomb" reaction between Potassium Nitrate, and sugar. After the reaction had completed, a thick paste of yellowish/white material covered the reaction vessel. I had read this was Potassium Carbonate, so I decided to try to neutralize it simply using Hydrochloric Acid. Well, much to my surprise, lots of brown looking gas was evolved, and frankly, moved my butt away from that thing as quickly as I could. Could anybody out there provide an explanation to what happened?

(Nitrogen Dioxide Perhaps?)

gdflp

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posted on 20-7-2014 at 18:24

It is unlikely that much K2CO3 was formed. Mostly it would be potassium nitrite (KNO2) depending on the ratio of sugar to nitrate. When this reacts with an acid nitrous acid (HNO2) is formed which is unstable and decomposes to water and nitrogen oxides. The brown gas is most likely nitrogen dioxide.

[Edited on 21-7-2014 by gdflp]

Zyklon-A

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posted on 20-7-2014 at 18:26

Quote: Originally posted by SimplyChem16

(Nitrogen Dioxide Perhaps?)

Yep, your right.
Nitrogen dioxide (or more correctly speaking, dinitrogen tetroxide) is evolved when a nitrite (in this case KNO₂) reacts with an acid:

2 KNO₂ + 2 HCl (aq) → 2 KCl + 2 HNO₂ ↔ 2 HNO₂ → NO₂ + NO + H₂O

[EDIT] Looks like gdflp beat me to it, anyway.

Quote:

I had read this was Potassium Carbonate, so I decided to try to neutralize it simply using Hydrochloric Acid.

There probably is some K₂CO₃, but if the KNO₃ was in excess, then it would have been partially reduced to KNO₂:

2 KNO₃ + H₂CO (relative empirical formula for sucrose) → CO₂ + H₂O + 2 KNO₂

Vs. the correct stoichiometry of the oxidation reaction:

2 KNO₃ + 2 H₂CO (relative empirical formula for sucrose) → 2 CO₂ + 2 H₂O + K₂O

And finally, the CO₂ reacts partially with the K₂O to produce K₂CO₃:

CO₂ + K₂O ↔ K₂CO₃

. At STP, the reaction goes to completion, but at the high temperatures of the reaction, it's at equilibrium.

[Edited on 21-7-2014 by Zyklon-A]

SimplyChem16

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posted on 20-7-2014 at 18:54

Here's a video, since I have the opportunity to provide you with one

http://tinypic.com/r/55p9js/8

Thanks for the replys!

Brain&Force

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posted on 20-7-2014 at 18:59

Most certainly NO₂. However, it is a mixture of colorless dinitrogen tetroxide and nitrogen dioxide, which imparts the brownish color.

At the end of the day, simulating atoms doesn't beat working with the real things...

Zyklon-A

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posted on 20-7-2014 at 19:24

Quote: Originally posted by Brain&Force

However, it is a mixture of colorless dinitrogen tetroxide and nitrogen dioxide, which imparts the brownish color.

Are you sure N₂O₄ is colorless?
Per Absorption of Nitrous Gases:

Which states that at 30°, only ~ 12% N₂O₄ dissociates into NO₂. So, perhaps N₂O₄ exhibits color as well?

I guess you're probably right, ~12% is likely enough to produce the color, we see at STP.

[Edited on 21-7-2014 by Zyklon-A]

Amos

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posted on 20-7-2014 at 21:00

In any case, SimplyChem, if the smell of nitrogen dioxide isn't enough to keep you away, remember that it is acutely toxic, in case you didn't already know. Nasty stuff.

SimplyChem16

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posted on 20-7-2014 at 21:18

To be honest, I hadn't smelled the "characteristic sharp, biting odor" that comes with the gas. There was a fair amount of wind though

papaya

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posted on 21-7-2014 at 09:25

If you could improve the reaction in a way that the end products contain mostly KNO2, then you have a simple way to get nitrites (unless you can buy them).

Fantasma4500

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posted on 21-7-2014 at 12:31

interesting.. nitrites from KNO3 is said to be relatively hard
NaNO3 is preferred at least for charcoal and molten NaNO3
surprisingly pure product if you let all the impurities settle

also NO2 doesnt have a sharp biting odor if you ask me, i'd say its more roundish and thick / choking, ofcourse more choking the more there is in the air of it
SO2 has a sharp biting odor however -- if you ask me, supposing not 100% of all chemists would agree

~25 drops = 1mL @dH2O viscocity - STP
Truth is ever growing - but without context theres barely any such.

https://en.wikipedia.org/wiki/Solubility_table
http://www.trimen.pl/witek/calculators/stezenia.html

Sciencemadness Discussion Board » Fundamentals » Beginnings » Mysterious Brown Gas. Not Bromine.