Add to ORKGIn this study, bioremediation parameters were determined and quantified for different clayey dredged sediments. The research described in this thesis increased the insight into the individual processes of physical ripening, biochemical ripening – including PAH and TPH degradation – that result from drainage of disposed water-logged sediments. This increased insight can be used to optimize conditions for ripening of dredged sediments at upland sediment disposal site
The role of sediments as carriers and potential sources of contaminants is reviewed. A program of se...
PAHs are largely spread in the aquatic environment, and the drawbacks of conventional remediation te...
Purpose: In low lying areas with dense networks of canals for land drainage, sediments accumulate in...
Ripening of polycyclic aromatic hydrocarbons (PAH) and total petroleum hydrocarbons (TPH) polluted d...
Background and Goal. In the Netherlands about 40 million m3 of sediment has to be dredged annually f...
The soil formation process ripening can be used as a bioremediation technique for dredged sediments ...
This study was performed in order to evaluate factors that influence the magnitude and rates of PAH ...
Polynuclear aromatic hydrocarbons (PAHs) are a class of contaminants commonly found in bottom sedime...
The biodegradation of polycyclic aromatic hydrocarbons (PAH) and mineral oil was investigated in hea...
After dredged sediments have settled in a temporary upland disposal site, ripening starts, which tur...
Abstract: Bioremediation of recalcitrant organics was investigated in laboratory, pilot, and demonst...
Coastal sediments subjected to high anthropogenic impacts can accumulate large amounts of polycyclic...
Background and Goal. In the Netherlands about 40 million m3 of sediment has to be dredged annually f...
Dredged contaminated sediments are considered as waste. Traditional solutions to the management of t...
The role of sediments as carriers and potential sources of contaminants is reviewed. A program of se...
PAHs are largely spread in the aquatic environment, and the drawbacks of conventional remediation te...
Purpose: In low lying areas with dense networks of canals for land drainage, sediments accumulate in...
Ripening of polycyclic aromatic hydrocarbons (PAH) and total petroleum hydrocarbons (TPH) polluted d...
Background and Goal. In the Netherlands about 40 million m3 of sediment has to be dredged annually f...
The soil formation process ripening can be used as a bioremediation technique for dredged sediments ...
This study was performed in order to evaluate factors that influence the magnitude and rates of PAH ...
Polynuclear aromatic hydrocarbons (PAHs) are a class of contaminants commonly found in bottom sedime...
The biodegradation of polycyclic aromatic hydrocarbons (PAH) and mineral oil was investigated in hea...
After dredged sediments have settled in a temporary upland disposal site, ripening starts, which tur...
Abstract: Bioremediation of recalcitrant organics was investigated in laboratory, pilot, and demonst...
Coastal sediments subjected to high anthropogenic impacts can accumulate large amounts of polycyclic...
Background and Goal. In the Netherlands about 40 million m3 of sediment has to be dredged annually f...
Dredged contaminated sediments are considered as waste. Traditional solutions to the management of t...
The role of sediments as carriers and potential sources of contaminants is reviewed. A program of se...
PAHs are largely spread in the aquatic environment, and the drawbacks of conventional remediation te...
Purpose: In low lying areas with dense networks of canals for land drainage, sediments accumulate in...