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Anhydrous Hydrogen Chloride Gas from Hydrochloric Acid and Calcium Chloride

J. Chem. Ed. 72(12), 1139 (1995)

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Fig. 1.
Assembled apparatus for the generation of HCl(g)

Hydrogen chloride is an important chemical of interest not only by itself but also for preparative purposes. Although available in cylinders of variable capacity and purity, generation of HCl gas is done frequently in chemistry labs.

Hydrogen chloride can bo prepared by a number of methods including1:

However, most procedures found in preparative handbooks make use of concentrated H2SO42,3, for example:

Eq. 1:
NaCl + H2SO4 = NaHSO4 + HCl(g)

Eq. 2:
HCl·(H2O)x + H2SO4 = H2SO4·(H2O)x + HCl(g)

These procedures are the most universally adopted because they work satisfactorily with quite inexpensive chemicals.

Eq. 1 can be explained in terms of a proton transfer from the strong (in the first ionization) non-volatile sulfuric acid to the weakly basic chloride ion. It works at ambient conditions because HCl is a gas. The combination of acidity, redox properties, low volatility, and cost of H2SO4, makes it the acid of choice. The process is conducted conveniently in standard glassware assemblies such as those in the figure. Concentrated H2SO4 is poured through the funnel, and salt is placed in the flask. Even though the generator is properly installed, losses of H2SO4 through the stopcock may be produced eventually.

In Eq. 2 H2SO4 behaves as a water-scavenging agent leading to a system unable to dissolve efficiently the HCl, so it escapes. The well-known dehydrating ability of H2SO4, together with the characteristics mentioned above, invite its use for this purpose.

However, because dehydration of hydrochloric acid can be achieved by reagents other than H2SO4, and because the handling of 98% H2SO4, in the freshman lab should be reduced as much as possible, especially when a significant amount of acid is involved, I want to recommend CaCl2 for the following reasons:

An additional advantage of this procedure with respect to those based on H2SO4 concerns educational aspects. By heating at 200░C, the resulting waxy mixture (or crystalline mass to which it converts after a few hours), the anhydrous CaCl2, can be regenerated for re-use once a solution of HCl is obtained. In this case, some calcium oxychloride formed can be ignored.

Even though this may be without value from a practical viewpoint, it may be of educational significance because it attracts attention to topics of current interest such as optimizing of processes, recycling of chemicals, and reducing of wastes. To this end, the assembly shown in Fig. 1b is more appropriate than that in Fig. 1a because the resulting mixture is ready to be distilled.

 

Literature Cited

  1. Pascal, P., Ed., "Noveau TraitÚ de Chimie MinÚrale"; Masson: Paris, 1960; Vol. XVI, p 194.
  2. Maxson, R. N. Inorganic Syntheses 1, 147 (1939)
  3. Brauer, G. Handbuch der Prńparativen Anorganischen Chemie; Ferdinand Enke, Ed.; Stuttgart, 1954.