Difference between revisions of "Drying solvents"

Revision as of 16:14, 28 July 2018

Having properly functioning solvents is an absolute necessity for fine home chemistry work, especially for those interested in organic chemistry. Removal of water and other impurities from these which is often required for store-bought or homemade solvents, can be accomplished by many means, depending on the solvent.

Drying with an anhydrous salt

Probably the most commonly used method for removing water from a solvent is by using the anhydrous form of a salt as desiccant. In this process, which is useful for both polar and nonpolar solvents, involves adding the salt (such as anhydrous magnesium sulfate, sodium sulfate, calcium sulfate, calcium chloride or compounds that react with water forming precipitates such as calcium oxide, calcium hydride) directly to the solvent, followed by one or more careful distillations to avoid drawing water out of the hydrated salt. If water is present, a finely powdered anhydrous salt tends to "clump up" upon absorbing the water. Desiccants used for this process typically need to be checked beforehand to ensure that they will not react with the solvent in any way. Though it isn't a salt, sodium metal is often used in the form of shavings in the same manner with nonpolar organic solvents due to its extreme reactivity towards water. Sodium should only be used in very clean solvents with a LOW water content, otherwise the risk is run of explosions and fire.

Salting out

Salting out is a technique that takes advantage of one solvent's reduced solubility in a solution of some compound relative to its solubility in pure water. This is mostly used for polar solvents that are miscible or highly soluble in water, especially when normal distillation produces an azeotrope. This technique is often used prior to distilling with a salt, as it cannot remove all of the water, but is a convenient way to remove most of it without having to use any anhydrous compounds, and it is one of the only ways to break an azeotrope outside of vacuum distillation. Examples of salting out include the separation of ethanol and water using potassium carbonate, the removal of isopropanol from water using sodium chloride, sodium hydroxide, or a mix of the two.

Molecular sieves

Molecular sieves are precise tools for the removal of water or other liquid components of a mixture. Using precisely sized pores in a material such as silica, clay, or alumina, they selectively trap molecules of a certain size by adsorption. While they may not be particularly cheap and can be difficult to re-dry after their use, molecular sieves have the advantage of being able to remove a significant amount of water from a solvent without introducing any of their own impurities. A disadvantage of molecular sieves, however, is the long amount of time they must be given to complete the water-removal process, often in excess of 24 hours.

Solvents and their principal method(s) of water removal

This section includes a commonly used method for drying a solvent that is sufficient enough for that solvent's typical use, either for solvation or as a reagent. This is not an exhaustive list by any means, and other methods can most likely be used.

Compatibility of desiccants with solvents

While most desiccants can be used safely to dry most common solvents, some cannot be used as they will either react with the said solvent or dissolve in it.

References

• http://ccc.chem.pitt.edu/wipf/Web/Solvent_Drying.pdf
• http://www.chem.ucla.edu/~bacher/General/30BL/tips/dryingofsolvents.html
• http://chemwiki.ucdavis.edu/Reference/Lab_Techniques/Distillation/Drying_Solvents
• https://www.scripps.edu/shenvi/Education_files/Drying%20Solvents%20handout.pdf
• http://www.sas.upenn.edu/~marisa/documents/drying.pdf

Relevant Sciencemadness threads

• Drying with molecular seives - how fast?
• drying with sodium metal