The aim of this work was to evaluate the effects of short full scale MBT process (28d) getting a biological stability of DRI<1000mg O2kgVS-1h-1, on the impact of leachate produced in simulated landfill. As consequence of that, waste was processed by full scale MBT and both untreated and treated waste were successively incubated in simulated landfills for 1year. Leachates were collected at different incubation times and characterized. Results obtained indicated that MBT allowed waste-organic matter (OM) reduction favoring, also, optimal condition for successive OM degradation in the simulated landfill.Final results indicated a total reduction of leachate impact for the treated waste (DRI of 978mg O2kgVS-1h-1) with respect to the untreated waste of: -54%, -69%, -77%, -70%, -81% and -16% for NTK, NH3, TOC, COD, BOD5 and total heavy metal contents, respectively.
The use of the dynamic respiration index to predict the potential MSW-leachate impacts after short term mechanical biological treatment / S. Salati, B. Scaglia, A. Di Gregorio, A. Carrera, F. Adani.. - In: BIORESOURCE TECHNOLOGY. - ISSN 0960-8524. - 128(2013), pp. 351-358.
The use of the dynamic respiration index to predict the potential MSW-leachate impacts after short term mechanical biological treatment
S. Salati;B. Scaglia;F. Adani.
2013
Abstract
The aim of this work was to evaluate the effects of short full scale MBT process (28d) getting a biological stability of DRI<1000mg O2kgVS-1h-1, on the impact of leachate produced in simulated landfill. As consequence of that, waste was processed by full scale MBT and both untreated and treated waste were successively incubated in simulated landfills for 1year. Leachates were collected at different incubation times and characterized. Results obtained indicated that MBT allowed waste-organic matter (OM) reduction favoring, also, optimal condition for successive OM degradation in the simulated landfill.Final results indicated a total reduction of leachate impact for the treated waste (DRI of 978mg O2kgVS-1h-1) with respect to the untreated waste of: -54%, -69%, -77%, -70%, -81% and -16% for NTK, NH3, TOC, COD, BOD5 and total heavy metal contents, respectively.
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