1 Scope
This Technical Specification is applicable for determining the leaching behaviour
of monolithic wastes under dynamic conditions. The test is performed under fixed experimental conditions
in this document. This test is aimed at determining the release as a function of time of inorganic constituents from a monolithic waste, when it is put into contact with an aqueous solution (leachant).
This dynamic monolithic leaching test (DMLT) is a parameter specific test as specified
in EN 12920 and is therefore not aimed at simulating real situations. The application of this
test method alone is not sufficient for the determination of the detailed leaching
behaviour of a monolithic waste under specified conditions.
In the framework of EN 12920 and in combination with additional chemical information, the test results are used
to identify the leaching mechanisms and their relative importance. The intrinsic properties
can be used to predict the release of constituents at a given time frame, in order to assess the leaching behaviour
of monolithic waste materials, placed in different situations or scenarios (including disposal and recycling
scenarios).
The test method applies to regularly shaped test portions of monolithic wastes with minimum dimensions of 40 mm in all directions, that are assumed to maintain
their integrity over a time frame relevant for the considered scenario. The test method
applies to test portions for which the geometric surface area can be determined with the help of simple geometric
equations. The test method applies to low permeable monolithic materials.
NOTE 1 If, in order to comply with the requirements of regular shape, the test portion is prepared by cutting or coring, then new surfaces are exposed which can lead to
change(s) in leaching properties. On the other hand if the test portion is prepared by moulding, the surface will be dependent to the type of mould and the
conditions of storage. If the intention is to evaluate the behaviour of the material
core, the specimen needs to be stored without any contact with air to avoid carbonation.
NOTE 2 For monolithic waste materials with a saturated hydraulic conductivity higher than 10-8 m/s water is likely to percolate through the monolith rather than flow around. In
such cases relating the release to the geometric surface can lead to misinterpretation. A percolation test is then
more appropriate (e.g. CEN/TS 14405).
This procedure may not be applicable to materials reacting with the leachant, leading for example to excessive gas emission or an excessive heat release.
This document has been developed to determine the release of mainly inorganic constituents from wastes. It does not take into account the particular
characteristics of organic constituents, nor the consequences of microbiological processes
in organic degradable wastes.