A mathematical model to predict the release of toxic elements immobilized in different cementitious matrices is presented. This model has been obtained on the basis of previous experiments carried out adopting a dynamic leaching test proposed by America Nuclear Society. During the tests lithium and bivalent copper have been used as tracer: different types of cementitious matrices anf lime-pozzolana mortars have been tested. To correlate the release of two toxic elements with the intrinsic properties of the matrix and the immobilized element system a statistical approach has been used. The final semiempirical model obtained has been very satisfactory for the prediction of contaminant loss from the immobilizing matrices.
RELEASE OF TOXIC ELEMENTS FROM SOLIDIFIED WASTES - A MATHEMATICAL-MODEL / Medici, Franco; Carlo, Merli; Giancarlo, Scoccia; Roberto, Volpe. - STAMPA. - 1123(1992), pp. 171-181. ((Intervento presentato al convegno 2ND INTERNATIONAL SYMP ON STABILIZATION/SOLIDIFICATION OF HAZARDOUS, RADIOACTIVE, AND MIXED WASTE tenutosi a WILLIAMSBURG, VA nel MAY 29-JUN 01, 1990. [10.1520/stp19549s].
RELEASE OF TOXIC ELEMENTS FROM SOLIDIFIED WASTES - A MATHEMATICAL-MODEL
MEDICI, Franco;
1992
Abstract
A mathematical model to predict the release of toxic elements immobilized in different cementitious matrices is presented. This model has been obtained on the basis of previous experiments carried out adopting a dynamic leaching test proposed by America Nuclear Society. During the tests lithium and bivalent copper have been used as tracer: different types of cementitious matrices anf lime-pozzolana mortars have been tested. To correlate the release of two toxic elements with the intrinsic properties of the matrix and the immobilized element system a statistical approach has been used. The final semiempirical model obtained has been very satisfactory for the prediction of contaminant loss from the immobilizing matrices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
