Re-visiting Acceptance Criteria Calculations for Monolithic Waste Landfill with Reactive Transport Modeling: Application to Total Dissolved Salts (TDS) - Mines Paris Accéder directement au contenu
Communication Dans Un Congrès Année : 2009

Re-visiting Acceptance Criteria Calculations for Monolithic Waste Landfill with Reactive Transport Modeling: Application to Total Dissolved Salts (TDS)

Laurent de Windt
Rob Bleijerveld
  • Fonction : Auteur
Nicolas Humez
  • Fonction : Auteur
Arno Keulen
  • Fonction : Auteur
Marie-Claire Magnié
  • Fonction : Auteur
Philippe Ruat
  • Fonction : Auteur
Dirk-Jan Simons
  • Fonction : Auteur

Résumé

Stabilization and solidification of hazardous waste before storage in an engineered landfill has been used at an industrial scale for more than 10 years in several European countries. The European decision 2003/33 specifies a waste acceptance criteria (WAC) for granular waste but there is still no common rules for monolithic waste. One alternative is to define WAC from reverse environmental impact calculations based on compliance of the storage site release with drinkable water criteria at the local water table. However - and contrarily to reactive transport modeling - most published studies do not take into account the physical-chemical processes taking place in the waste and the liners, as well as their long-term evolution with time. Such a simplification can lead to very low acceptance criteria, especially for salts. Chloride and sulfates salts are the major species in air pollution control (APC) residues, which represent the majority of treated waste in France and the Netherlands. A model of the stabilized waste material was set on total element content, mineralogy and physical parameters (diffusion, porosity, density). In a first stage, the model was validated on dynamic leaching tests by modeling element release and mineralogical evolution of leached monoliths. The model was also used to simulate a French compliance leaching test. Modeling is in good agreement with experiment in both cases. These results show that limit values defined by European decision on chloride and total dissolved solid (TDS) are not equivalent. For the studied sample, chloride release is very close to the European limit (25 000 mg/kg) while TDS release is well below the European limit (10%). In a second stage, the model was extended to assess the impact of landfilling stabilized waste on groundwater resources. Modeling hypotheses were similar to the scenario of the European Technical Application Committee (TAC) prescribed for defining acceptance criteria on granular waste, i.e. assuming a complete failure of the geomembranes, a defective drainage system and no effect of the cover slope. The evolution of the waste chemistry and the migration of the pollutant plume were modeled for undamaged monoliths in agreement with recent studies based on the examination of aged site samples. Chloride content in the water table at the point of compliance infinite source term, which is physically impossible as the waste cannot release more chloride than it contains. Chlorides were then assumed to be present in very mobile phases or partly trapped as less soluble Friedel's salts (a chloroaluminate cement phase). Chloride concentrations at POC are below the drinkable water thresholds in both cases, and systematically lower when chlorides are trapped as Friedel's salts. This reactive transport modeling study shows that landfill of monoliths as presently managed should have a negligible impact on the water table. This coupled model is also important for bridging the gap between compliance tests and field conditions. Field modeling is consistent with WAC based on a short monolithic leaching test and the existing TDS limit. Therefore, it is likely that no stricter WAC will need to be defined on salt release for monolithic waste.
Fichier non déposé

Dates et versions

hal-00568748 , version 1 (23-02-2011)

Identifiants

  • HAL Id : hal-00568748 , version 1

Citer

Laurent de Windt, Rob Bleijerveld, Nicolas Humez, Arno Keulen, Marie-Claire Magnié, et al.. Re-visiting Acceptance Criteria Calculations for Monolithic Waste Landfill with Reactive Transport Modeling: Application to Total Dissolved Salts (TDS). International Solid Waste Conference, Oct 2009, Lisbonne, Portugal. 8p. ⟨hal-00568748⟩
110 Consultations
0 Téléchargements

Partager

Gmail Facebook X LinkedIn More