Re: Where do carbon dioxide & nitrous oxide come from?

Where do carbon dioxide & nitrous oxide come from?

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PMM Jul 22, 2008 12:45:36

Replying to Rhiannon

Manufacture...

Nitrous oxide is most commonly prepared by careful heating of ammonium nitrate, which decomposes into nitrous oxide and water vapor.[4] The addition of various phosphates favors formation of a purer gas at slightly lower temperatures. One of the earliest commercial producers was George Poe in Trenton, New Jersey.

NH4NO3(s) → 2 H2O(g) + N2O(g)

This reaction occurs between 170 - 240°C, temperatures where ammonium nitrate is a moderately sensitive explosive and a very powerful oxidizer. Above 240 °C the exothermic reaction may accelerate to the point of detonation, so the mixture must be cooled to avoid such a disaster. Superheated steam is used to reach reaction temperature in some turnkey production plants.[6]

Downstream, the hot, corrosive mixture of gases must be cooled to condense the steam, and filtered to remove higher oxides of nitrogen. Ammonium nitrate smoke, as an extremely persistent colloid, will also have to be removed. The cleanup is often done in a train of 3 gas washes; namely base, acid and base again. Any significant amounts of nitric oxide (NO) may not necessarily be absorbed directly by the base (sodium hydroxide) washes.

The nitric oxide impurity is sometimes chelated out with ferrous sulfate, reduced with iron metal, or oxidised and absorbed in base as a higher oxide. The first base wash may (or may not) react out much of the ammonium nitrate smoke, however this reaction generates ammonia gas, which may have to be absorbed in the acid wash.

[edit] Other routes

The direct oxidation of ammonia may someday rival the ammonium nitrate pyrolysis synthesis of nitrous oxide mentioned above. This capital-intensive process, which originates in Japan, uses a manganese dioxide-bismuth oxide catalyst:[7]

2 NH3 + 2 O2 → N2O + 3 H2O

Higher oxides of nitrogen are formed as impurities. In comparison, uncatalyzed ammonia oxidation (i.e. combustion or explosion) goes primarily to N2 and H2O.

Nitrous oxide can be made by heating a solution of sulfamic acid and nitric acid. A lot of gas was made this way in Bulgaria.[citation needed][8]

HNO3 + NH2SO3H → N2O + H2SO4 + H2O

There is no explosive hazard in this reaction if the mixing rate is controlled. However, as usual, toxic higher oxides of nitrogen form.

Nitrous oxide is produced in large volumes as a by-product in the synthesis of adipic acid; one of the two reactants used in nylon manufacture.[9][10] This might become a major commercial source, but will require the removal of higher oxides of nitrogen and organic impurities. Currently much of the gas is decomposed before release for environmental protection. Greener processes may prevail that substitute hydrogen peroxide for nitric acid oxidation; hence no generation of oxide of nitrogen by-products.

Hydroxylammonium chloride can react with sodium nitrite to produce N2O as well:

NH3OH+Cl− + NaNO2 → N2O + NaCl + H2O

If the nitrite is added to the hydroxylamine solution, the only remaining byproduct is salt water. However, if the hydroxylamine solution is added to the nitrite solution (nitrite is in excess), then toxic higher oxides of nitrogen are also formed.

http://en.wikipedia.org/wiki/Nitrous_oxide

That seemed too easy. I can't believe you didn't look there, so my apologies if this doesn't actually answer your question.

grufty jim Jul 22, 2008 14:51:29

Replying to PMM

That all sounds pretty correct to me, though to be honest I never use Wikipedia as a reference source. I could head on over there and alter one or more of those chemical equations and it probably wouldn't be picked up for a couple of days.

When it's not a controversial subject, you can often rely upon Wikipedia, but even then, there are people who spend their free time adding inaccuracies to random Wikipedia articles (I know one of them. He does it in the name of discordianism).

On the specific subject of manufacturing nitrous oxide from fertiliser (ammonia nitrate), I knew a chemistry postgrad who made some cash on the side by selling nitrous to heads. This guy was one of the best chemists I'd ever met, and even he damn near killed himself one evening.

Heat the stuff too quickly and it'll explode rather forcefully. Heat it too slowly (his mistake that night) and you start to get all manner of ammonia-derived vapours being emitted. Inhale them and you're in very serious trouble!

Rhiannon Jul 23, 2008 09:13:45

Replying to PMM

are you really asking about nitrogen dioxide (no2) though - that's what I assumed you were interested in, rather than nitrous oxide (n2o). Though I guess they're both pollutants.
Or are you talking about NOx ie nitrogen oxide NO and nitrogen dioxide NO2.
got to be specific with chemical names haven't you.

Merrick Jul 23, 2008 20:15:08

Replying to PMM

Ta for that (the nylon thing's a mad one), but nope, it doesn't answer the question. That remains: what is the feedstock?

Heat that ammonium nitrate to make nitrous oxide, fine, but what's the ammonium nitrate made of?

Wikipedia says ammonia gas and concentrated nitric acid. Fine, but what's that made from?

My big question is; is this stuff adding new greenhouse gases to the atmosphere (a la burning coal), or is it coming from source that doesn't add any (a la burning wood)?

Yes Jim, it's not as big an issue as whether one uses aeroplanes or whatever, but it's just something I'm curious about and the answer doesn't come readily to hand. And, though it be a small choice, if a few minutes feeling fuzzy has such a big greenhouse impact, certainly there are people who would like to choose to lay off it.

(The next question would be what's the comparitive climate impacts of a balloon of nitrous and, say, a can of beer with all its aluminium and stuff - smelters dish out greenhouse gases tens of thousands of times more potent than CO2)