Sciencemadness Discussion Board
Not logged in [Login ]
Search the forums Search   Frequently Asked Questions FAQ   View member list Member List   Today's Posts Today's Posts   Forum Stats Stats Back to: sciencemadness.org
Sciencemadness Discussion Board » Fundamentals » Beginnings » Azeotropes Go To Bottom

Printable Version  
Author: Subject: Azeotropes
Yttrium2
Perpetual Question Machine
*****



Posts: 1104
Registered: 7-2-2015
Member Is Offline


[*] posted on 9-4-2018 at 13:24
Azeotropes

Can someone clue me in as to azeotropes?

Does 91% isopropanol form an azeotropes with water?

How dilute can the mixture be while still firming an azeotropes?


At first the idea of distillation seemed so simple. Now I rarely know what will distill, and what won't because of azeotropes
View user's profile Visit user's homepage View All Posts By User
walruslover69
Hazard to Others
***



Posts: 216
Registered: 21-12-2017
Member Is Offline

Mood: No Mood

[*] posted on 9-4-2018 at 13:43


Isopropanol forms an azeotrope with water. The vapor that is distilled is 91% isopropanol and 9% water. Azeotropes form at all concentrations. This is also assuming you have a proper fractionation, otherwise the vapor will have even more water in it. Distillation seems very simple of the surface but there is actually quite a lot too it.
View user's profile View All Posts By User
DavidJR
National Hazard
****



Posts: 908
Registered: 1-1-2018
Location: Scotland
Member Is Offline

Mood: Tired

[*] posted on 9-4-2018 at 15:00
Some examples

Example 1: Zeotropic mixtures

Consider a mixture of methanol (b.p. 65c) and water (b.p. 100c), which do not form an azeotrope. You can be certain that the boiling point of any such mixture is between the boiling points of the components, which covers the full range of %methanol. More importantly, the vapour produced by boiling such a mixture will always be richer in the lower-boiling component (methanol) than the mixture you started with. This means you can easily separate them by fractional distillation.


Example 2: Minimum-boiling (positive) azeotropic mixtures
Consider a mixture of isopropanol (b.p. 83c) and water (b.p. 100c). Isopropanol and water form an azeotrope at 91% v/v isopropanol, which boils at ~80c.

2a: If our mixture contains 50% v/v isopropanol and we put it in a simple distillation apparatus, with the boiling flask heated by a water/oil/sand bath at 85c, the mixture will boil producing a vapour richer in isopropanol than the starting mixture. Once the mixture stops boiling (since temp only 85c we won't drive over all of the water) we can empty out the boiling flask, and put the distillate in the boiling flask for a second run. This time we'll still increase the % isopropanol in the distillate, but not by as much as we did before. We can repeat this, but with diminishing returns. Essentially a fractionating column would do this work for you as the vapour has the opportunity to recondense/reevaporate many times. The most concentrated you'll ever get is 91% v/v because at this point we have an azeotrope, in other words, the %isopropanol in the vapour produced by boiling the mixture is the same as in the liquid.

2b: If instead our starting mixture contained 95% isopropanol (above the azeotrope) then boiling this would produce vapour containing less isopropanol (though still above the azeotrope). So, if we were to fractionally distill our 95% IPA, the distillate would be the 91% azeotrope. However, if we distill until all of the water has been carried over as the azeotrope, then the residue left in the boiling flask will be ~100% isopropanol.


Example 3: Maximum-boiling (negative) azeotropic mixtures
Consider a mixture of nitric acid (b.p. 83c) and water (b.p. 100c). Nitric acid and water form an azeotrope at 68% w/w HNO3, which boils at 121c.

3a: If our mixture contains 50% w/w HNO3, then we have more water than the azeotrope. So if we perform a fractional distillation, then the excess water will come over first at 100c, and then the azeotrope will come over at 121c.

3b: If instead our starting mixture contained 85% w/w HNO3, then we would have less water than the azeotrope. So if we perform a fractional distillation, then the excess HNO3 will come over first at 83c, and after that, the azeotrope will come over at 121c.



N.B. for simplicity of explanation i've assumed in these examples that your fractionating column is impossibly good
View user's profile View All Posts By User
ninhydric1
Hazard to Others
***



Posts: 345
Registered: 21-4-2017
Location: Western US
Member Is Offline

Mood: Bleached

[*] posted on 9-4-2018 at 15:11


Quote: Originally posted by DavidJR  


2b: If instead our starting mixture contained 95% isopropanol (above the azeotrope) then boiling this would produce vapour containing less isopropanol (though still above the azeotrope). So, if we were to fractionally distill our 95% IPA, the distillate would be the 91% azeotrope. However, if we distill until all of the water has been carried over as the azeotrope, then the residue left in the boiling flask will be ~100% isopropanol.



Wait, so if I, theoretically, distill my 99% isopropanol, I'm able to get 100% isopropanol in my distilling flask and get a small amount of 91% isopropanol in my receiving flask? I'm assuming I'd need a good fractionating column though.



The philosophy of one century is the common sense of the next.
View user's profile View All Posts By User
DavidJR
National Hazard
****



Posts: 908
Registered: 1-1-2018
Location: Scotland
Member Is Offline

Mood: Tired

[*] posted on 9-4-2018 at 15:17


Quote: Originally posted by ninhydric1  

Wait, so if I, theoretically, distill my 99% isopropanol, I'm able to get 100% isopropanol in my distilling flask and get a small amount of 91% isopropanol in my receiving flask? I'm assuming I'd need a good fractionating column though.


Theoretically, yes. But you'd probably be better off using a drying agent.
View user's profile View All Posts By User
unionised
International Hazard
*****



Posts: 5104
Registered: 1-11-2003
Location: UK
Member Is Offline

Mood: No Mood

[*] posted on 10-4-2018 at 12:48


Quote: Originally posted by DavidJR  


But you'd probably be better off using a drying agent.

Theoretically, yes.
But you would need to remove the drying agent (most are at least slightly soluble).
The most practical way to do that is by distillation.
And, unless you have a dry box or something, while you filter off the drying agent and transfer the stuff to a flask, it will pick up moisture from the air.

So the distillation will end up removing the last traces of water anyway.

:-)
View user's profile View All Posts By User
DavidJR
National Hazard
****



Posts: 908
Registered: 1-1-2018
Location: Scotland
Member Is Offline

Mood: Tired

[*] posted on 10-4-2018 at 15:08


Quote: Originally posted by unionised  
Quote: Originally posted by DavidJR  


But you'd probably be better off using a drying agent.

Theoretically, yes.
But you would need to remove the drying agent (most are at least slightly soluble).
The most practical way to do that is by distillation.
And, unless you have a dry box or something, while you filter off the drying agent and transfer the stuff to a flask, it will pick up moisture from the air.

So the distillation will end up removing the last traces of water anyway.

:-)


Sure, but if you have 99% isopropanol and you want to get 100% then you'd distill off the azeotrope and the residue in the boiling flask would be your ~100% isopropanol. If you used a drying agent then distilled, you'd keep the distillate, not the residue. So that method has the advantage of eliminating any potential non-volatile impurities.
View user's profile View All Posts By User

 Sciencemadness Discussion Board » Fundamentals » Beginnings » Azeotropes   Go To Top