NATO/CCMS Pilot Study Evaluation of Demonstrated and ... - CLU-IN
NATO/CCMS Pilot Study Evaluation of Demonstrated and ... - CLU-IN
NATO/CCMS Pilot Study Evaluation of Demonstrated and ... - CLU-IN
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<strong>NATO</strong>/<strong>CCMS</strong> <strong>Pilot</strong> Project on Contaminated L<strong>and</strong> <strong>and</strong> Groundwater (Phase III) January 2002<br />
Figure 6. In the test setting fluid solutions can be put in with the help <strong>of</strong> a time-directed system that is<br />
established on top <strong>of</strong> each column. Furthermore, air fumes can be added in each column. Before entering<br />
the column, the fumes are lead through a shaft filled with glass pearls to enable a uniform separation.<br />
Different column tests will be performed simultaneously to monitor the microbial activity <strong>and</strong> the<br />
evolution <strong>of</strong> the contaminants under different circumstances <strong>and</strong> feedings. The liquid solutions will<br />
mainly consist <strong>of</strong> nutrient mixtures containing nitrogen sources, phosphates <strong>and</strong> oligo-elements. For each<br />
column the effluent is collected <strong>and</strong> analysed on pH, conductivity <strong>and</strong> nutrient concentrations. In order to<br />
measure microbial activity in the column, the production <strong>of</strong> CO2 produced is determined. On the columns<br />
following treatments will be performed: control setting without specific treatment; only addition <strong>of</strong> water,<br />
addition <strong>of</strong> water <strong>and</strong> nutrients, addition <strong>of</strong> water + nutrients + microorganisms; addition <strong>of</strong> water + air +<br />
nutrients; addition <strong>of</strong> water + microorganisms + air + nutrients.<br />
Such soil column lysimeters are extremely well equipped to verify whether contaminated sites can be<br />
decontaminated in-situ with the help <strong>of</strong> bioremediation techniques. In addition, the column tests will be<br />
used for the evaluation <strong>of</strong> ex-situ decontamination techniques, during which the contaminated soil will be<br />
submitted to different preliminary treatments (e.g., mixing with compost). Different compost formulas<br />
<strong>and</strong> relationships in the process will be tested.<br />
Based on the results <strong>of</strong> the experiments on a lab scale, the most appropriate concepts will be tested on a<br />
larger scale, in order to obtain a more realistic idea. Therefore the ex-situ decontamination techniques will<br />
be tested in the soil-recycling centre. Regarding the in-situ decontamination techniques, the different<br />
contaminated zones in different sites will be isolated civil-technically in order to prevent a horizontal<br />
spreading <strong>of</strong> the contamination. The volume <strong>of</strong> isolated cells will amount to approximately 50m³. In order<br />
to prevent spreading towards the ground water, a pump <strong>and</strong> injection system are established around<br />
different cells. If possible slots will be dug to the depth <strong>of</strong> 2 to 3 m around the cells. From these slots<br />
horizontal perforated tubes will be installed under the cells to enable monitoring <strong>of</strong> the groundwater as<br />
well as <strong>of</strong> the soil vapour. With this sampling system the heterogeneity <strong>of</strong> the soil can be optimally<br />
studied.<br />
This decontamination experiments will be conducted on the future soil-recycling centre <strong>of</strong> s.a. Ecoterres<br />
in Brussels. This centre will be built on the van Oss site, owned by the G.O.M.B. Figure 7 gives an<br />
impression <strong>of</strong> the future soil-recycling centre.<br />
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