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3. Al, OH)3 (am) + 3 H + -10

E. , D. Dabo, L. De-windt, S. Lidelöw, R. Badreddine et al., Reactive transport modeling of MSWI bottom ash evolution in road basement, ) and Dåva (Sweden) sites, in preparation for Waste Management H?rouville

. H?rouville-doeva and . Fig, Top: calculated distribution of chloride concentration within the test roads after 3 years of evolution. Bottom: evolution with time of chloride concentration at the sampling points (symbol !) of the test roads

E. , D. Dabo, L. De-windt, S. Lidelöw, R. Badreddine et al., Reactive transport modeling of MSWI bottom ash evolution in road basement Hérouville (France) and Dåva (Sweden) sites, in preparation for Waste Management H?rouville DOEva Fig. 5. Evolution with time of sodium, calcium, silica and sulfate concentrations at the sampling points (symbol ! of Fig

E. , D. Dabo, L. De-windt, S. Lidelöw, R. Badreddine et al., Reactive transport modeling of MSWI bottom ash evolution in road basement Hérouville (France) and Dåva (Sweden) sites, in preparation for Waste Management H?rouville DOEva Fig. 8. Evolution with time of aluminum, barium, copper and lead concentrations at the sampling points (symbol ! of Fig