Salt conversion: Difference between revisions

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Author: [[user:Hschwarz|Hans-Jürgen Schwarz]]
Author: [[user:Hschwarz|Hans-Jürgen Schwarz]]
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== Abstract  ==
== Abstract  ==
 
Damaging salts can be transformed into less damaging compounds using chemical salt conversion. One method converts soluble salts into poorly soluble or insoluble compounds, resulting in the salts being less damaging. Another method transforms insoluble salts into more soluble ones in order to remove them more easily.
By transforming damaging salts in insoluble or poorly soluble compounds they can no longer take part in damaging processes. Secondly  the chemical converion can be used to make insoluble salts more soluble in order to remove them more easily out of the system.


== [[Removal of salts by salt conversion]]  ==
== [[Removal of salts by salt conversion]]  ==


Various methods for removing soluble salts and salt crusts are common. Often acids such as hydrochloric acid or acetic acid were used to remove calcium carbonate crusts which afterwards favor in many cases further damage processes.<bib id="Hammer:1996" />  Hexafluorosilicic acid was also often used. The forentine method <bib id=Matteini:1991/> of "gipsum transformation" also includes the dissolution of the gypsum crust with ammonium carbonate. Ion exchangers are also used for many years to remove crusts.<bib id="Pursche:2001" />
Conservation practice uses various methods for the removal of soluble salts and salt crusts. Often acids such as hydrochloric acid or acetic acid were used to remove calcium carbonate crusts, but this can lead to subsequent damages if procedures are not followed diligently.<bib id="Hammer:1996" />  The use of hexafluorosilicic acid has been documented, too. The forentine method <bib id=Matteini:1991/> of "gypsum transformation" also includes the dissolution of the gypsum crust with ammonium carbonate. Ion exchangers have been in use for many years to remove crusts.<bib id="Pursche:2001" />


== [[Immobilization of salts]]  ==
== [[Immobilization of salts]]  ==


Immobilization is the conversion of readily soluble salts into sparingly soluble or insoluble, and thus relatively harmless compounds. This sounds simple and obvious but in practice, however, has a number of problems. First, in the masonry you will find not only a defined salt, such as Calcium nitrate or magnesium sulfate, but a more or less complex mixture which may be partly crystalline, partly present as a salt solution. Looking to the usual anions and katoions it should be noted that nitrate compounds can not be converted into insoluble salts, as there are no slighly soluble or insolible nitrate compounds. This leaves us with the possibilities for chlorides, sulfates and some limited options for carbonates.  
Immobilization is the conversion of readily soluble salts into poorly soluble or insoluble salts and thus relatively harmless compounds. This appears to be simple and obvious but problems arise in the practical application. Masonry not only incorporates defined salts, such as calcium nitrate or magnesium sulfate, but also relatively complex mixtures, which may be partly crystalline, partly present as a salt solution. The most common compounds are carbonates, nitrates, chlorides and sulphates, the most common cations are sodium, potassium, magnesium and calcium. It should be noted, that nitrate compounds can not be converted into insoluble salts, as there are no poorly soluble or insoluble nitrate compounds. This leaves chlorides, sulfates and some limited options for carbonates as the only possibilities for immobilization treatment.  


While today in most cases barium solutions are used, formerly lead hexafluorosilicate was often used.
Today, barium solutions are employed most frequently, but formerly lead hexafluorosilicate was often used.


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Revision as of 08:08, 16 November 2011

<<bibimport /> Author: Hans-Jürgen Schwarz

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Abstract

Damaging salts can be transformed into less damaging compounds using chemical salt conversion. One method converts soluble salts into poorly soluble or insoluble compounds, resulting in the salts being less damaging. Another method transforms insoluble salts into more soluble ones in order to remove them more easily.

Removal of salts by salt conversion

Conservation practice uses various methods for the removal of soluble salts and salt crusts. Often acids such as hydrochloric acid or acetic acid were used to remove calcium carbonate crusts, but this can lead to subsequent damages if procedures are not followed diligently.[Hammer:1996]Title: Salze und Salzbehandlung in der Konservierung von Wandmalerei und Architekturoberfläche.
Author: Hammer, Ivo
Link to Google Scholar
The use of hexafluorosilicic acid has been documented, too. The forentine method [Matteini:1991]Title: In Review: An Assessmant of Florentine Methods of Wall Painting Conservation Based on the Use of Mineral Treatments
Author: Matteini, Mauro
Link to Google Scholar
of "gypsum transformation" also includes the dissolution of the gypsum crust with ammonium carbonate. Ion exchangers have been in use for many years to remove crusts.[Pursche:2001]Title: Konservierung von Wandmalerei, Reaktive Behandlungsmethoden zur Bestandserhaltung
Link to Google Scholar

Immobilization of salts

Immobilization is the conversion of readily soluble salts into poorly soluble or insoluble salts and thus relatively harmless compounds. This appears to be simple and obvious but problems arise in the practical application. Masonry not only incorporates defined salts, such as calcium nitrate or magnesium sulfate, but also relatively complex mixtures, which may be partly crystalline, partly present as a salt solution. The most common compounds are carbonates, nitrates, chlorides and sulphates, the most common cations are sodium, potassium, magnesium and calcium. It should be noted, that nitrate compounds can not be converted into insoluble salts, as there are no poorly soluble or insoluble nitrate compounds. This leaves chlorides, sulfates and some limited options for carbonates as the only possibilities for immobilization treatment.

Today, barium solutions are employed most frequently, but formerly lead hexafluorosilicate was often used.


Literature

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