Abstract
Salts in masonry can cause various problems
as decay of the masonry itself, lost adhesion of
plaster and hygroscopic moisture. Chlorides are among
the most common building salts and the present paper
is focused on removal of chlorides from a brick in an
applied electric field as a step towards developing an
electrochemical desalination method for brick
masonry. Experiments were conducted in laboratory
scale with one type of bricks that were contaminated
with either NaCl or KCl through submersion in salt
solutions prior to application of current. It was seen that
NaCl was slower supplied to the brick during submersion
and slower removed in the applied electric field
than KCl. This indicates that the removal rate of
chloride depends on the associated cation and this must
be taken into account when desiding the duration of full
scale actions. The electrochemical desalination was
very efficient and 99% removal of chloride was
obtained. The final concentration in the brick after
treatment was less than 10 mg Cl/kg and this concentration
is unproblematic. When low salt concentrations
were reached during the electrochemical treatment,
electroosmotic dewatering of the brick started, showing
that electroosmotic dewatering occurs at low ionic
concentrations.
Original language | English |
---|---|
Journal | Materials and Structures |
Volume | 42 |
Issue number | 7 |
Pages (from-to) | 961-971 |
ISSN | 1359-5997 |
DOIs | |
Publication status | Published - 2009 |