In the haber process why is the yield higher when liquid?

AI Thread Summary
The discussion centers on the production of ammonia and the impact of cooling on the equilibrium of the reaction. It highlights that cooling the reaction mixture to below ammonia's boiling point allows for the condensation of ammonia, which is then removed from the gaseous phase. This process increases the yield of ammonia by shifting the equilibrium position to the right, as explained by Le Chatelier's principle. The conversation also touches on the importance of managing pressure in the reaction chamber, noting that maintaining high pressure can be costly. The participants express a need for clarity on the relationship between temperature changes and equilibrium shifts in the context of ammonia production.
smulc
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I know that setting the conditions so that the product is formed as a liquid will produce a higher yield in the manufacture of Ammonia, but why is this?
 
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No idea what you mean - unless it is a trivial removal of the product from the gaseous phase.
 
For the Van 't Hoff relation, but pressure is expensive to maintain.

After Borek's comment above, yes, ammonia is removed by cooling the mixed gases from the reaction chamber, condensing the ammonia and returning the unreacted nitrogen and hydrogen to the reactin chamber.
 
I was doing this quiz and my question relates to question 5 on here. I may not have explained it very well

http://www.bbc.co.uk/bitesize/quiz/q88871702
 
Thanks, that was an interesting read but I couldn't find anything that seemed to provide an explanation to the question I posted the link to.
 
I have already addressed this.
 
Sorry, I really do appreciate your help, but I can't see how your reply provides an answer to this question that I posted the link to

"What effect would there be on the position of equilibrium if the reaction was cooled to below ammonia's boiling point and ammonia collected as a liquid?"

With the answer being that the equilibrium would shift to the right.
 
It is a direct application of Le Chatelier's principle. Do you know it? If not, google.
 

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