How to separate a gaseous mixture ?

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Sulphur trioxide (SO3) can be effectively separated from a gas mixture containing nitrogen (N2) and oxygen (O2) using cryogenic distillation, which is similar to air separation. The procedure involves cooling the gas mixture to around room temperature to condense SO3 into a liquid phase, allowing for its removal through scrubbing or condensation. Additionally, the discussion suggests that sulfur's adhesive properties could facilitate separation by capturing it on surfaces, akin to methods used in diesel engines. Calculating the composition of the streams leaving the separation unit would typically involve using a McCabe-Thiele plot for multicomponent distillation, although foundational knowledge may limit this approach. Overall, the focus is on practical methods for SO3 separation from gas mixtures.
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Sulphur trioxide is to be separated from a gas mixture containing N2, O2, and
SO3. Propose a method for carrying out this separation and briefly outline the
procedure for calculating the composition of streams leaving your chosen
separation unit.

Could anyone provide some guidance to me here. I'm a ChemEng undergrad.

Regards :smile:
 
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This is obviously homework. You'll need to show at least a little effort on your part before we can ethically help you.
 
Oh right haha. It's not quite homework, it's exam revision ... 'sample questions' to give us an idea of the format of the exam. It's for a synoptic exam testing our foundational engineering knowledge and skill.

Thinking about it further I said we could use cryogenic distillation (this how you would go about separating the components of air right?), but the question is asking for a bit more than just naming a method. We have covered multicomponent distillation but it's not considered foundational knowledge, only binary so you would used McCabe-Thiele plot to design the cryogenic column?
 
Sulphur Trioxide's boiling point is only 113 fahrenheit; it seems to me a simple heat exchanger cooling the mixture to around room temperature would be plenty to separate the SO3 into a liquid phase that can be easily removed through scrubbing condensation out of a filter or capture tank.

http://en.wikipedia.org/wiki/Sulfur_trioxide
 
Mech_Engineer said:
Sulphur Trioxide's boiling point is only 113 fahrenheit; it seems to me a simple heat exchanger cooling the mixture to around room temperature would be plenty to separate the SO3 into a liquid phase that can be easily removed through scrubbing condensation out of a filter or capture tank.

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


I can think of an even simpler method. Sulfur, often no matter what form, tends to want to stick to anything. Think about how diesel engines and sulfur generating processes remove sulfur from exhaust streams.
 

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