The fundamentals of the biological treatment of contaminated soils were investigated in bioreactors with the aim to optimize the processes of biological soil treatment in order to achieve the highest possible degree of degradation within the shortest period of time. Preinvestigations using test systems at different scales have provided information about the possibilities of enhancing the decomposition processes which are dependent on various factors, such as milieu conditions, additives, etc., that must be known before remedial actions are taken.
The investigations made so far have shown that compost is a favourable additive when oil-contaminated soils are biologically treated. The degradation of contaminants can be enhanced by the addition of compost. This positive effect is attributed to various mechanisms. In this paper, results of a variety of test systems at different scales are presented.
In test series, different amounts of biocompost were added to investigate the influence on the degradation of diesel fuel. It was demonstrated that by increasing the compost content – the cumulative O2 consumption caused by the degradation of the diesel fuel contaminants increased.
It could be shown that the reduction of the diesel fuel contaminants in the soil was independent of the compost age and amounted to approximately 94% of the initial quantity.
The addition of biocompost could also enhance the degradation of real contaminants. After a test period of 162 days in set-ups with compost addition, more than 75% of the lubricating oil contaminants disappeared, while less than 37% of the contaminants disappeared in set-ups without compost addition.
Moreover, by the addition of compost, the formation of pellets during the dynamic treatment of soil materials could be reduced.
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