Umweltbundesamt

Cleanup Technology

Remediation methods must be used whenever it is no longer possible to reduce contaminants in the soil or groundwater with natural breakdown and containment processes.
Recently in Germany, following reunification, great efforts were required to clean up hazardous deposits (former garbage dumps or landfills) and hazardous sites (factory grounds) that had been catalogued and assessed as problematic in the New Laender. In addition to undesirable leftovers from industrial development, there were and are areas in this country that require cleanup. The environmental hazards responsible were created by military usage and the production of armaments.


The processes developed and proven in this context for hazard reduction include encapsulation and hydraulic methods. To address the causes, depending on the local conditions and the existing hazardous material quality, either on-site or in-situ methods should be considered:
On site:
Thermal or biological treatment, washing, extraction, solidification.
In situ:
Ground vapour extraction, groundwater pump out, biological treatment, chemical fixation.
All processes have now been technical optimized, and provide support in many areas for the removal of environmental contamination and the health risks for animals and humans that often accompany it.
Former deposit restoration, however, always involves high costs and takes considerable time. In future, increasing use must be made of preventive measures in order to address the exhaustibility and limited load capacity of soil and water resources.


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Project-Icon(Enhanced) Natural Attenuation als Sanierungsstrategie für die Mineralölraffinerie Schwedt
Das Projekt untersucht, inwiefern kontaminierter Boden und BTEX- sowie MKW belastetes Grundwasser durch (Enhanced) Natural Attenuation (chemische, biologische Selbstreinigungsprozesse) gereinigt werden kann. Es zeigt auf, welche Bedingungen für den Selbstreinigungsprozess besonders förderlich sind und konzipiert eine Sanierungsstrategie. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
Keywords:  Grundwasserverunreinigung, Mineralölraffinerie, BTEX-Kohlenwasserstoff, Schadstoffabbau More keywords , Selbstreinigung
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Project-IconAir injection wells for the activation of self-regulating groundwater stripping: Investigation of well and groundwater hydraulics and the extraction of pollutants
Air injection wells have been developed as a means of optimising the cost of hydraulic decontamination measures. In tests conducted using limited groundwater flows with low pollutant concentrations, air injection wells have performed both effectively and economically for the removal of volatile chlorinated hydrocarbon-based contamination. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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Link-IconAlgae as environmental detectives
Algentest im Mikrotiterplattenformat
© DBU
The newly developed and certified algae test represents a low-cost, automated system with which to assess the likelihood of novel substances and soil and water samples posing an environmental hazard. This well plate based test reduces the number of samples required by a factor of 500.
Source:  Federal Foundation for the Environment (DBU)
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Link-IconAnalysis of contaminated soil samples with laser-spectroscopic procedures
In the context of a research and development project the Fraunhofer Institute of Laser Technology – ILT compiled and provided the bases of a laser-spectroscopic procedure for the simultaneous determination of heavy metal contents in soils under in situ conditions. For the simultaneous determination of heavy metals in soils the laser emission spectrometry (LIBS) is used and combined with the laser-induced fluorescence (LIF), in order to reach detection limits below 1 µg/g. By means of this procedure the 8 heavy metals As, Cd, Cr, Cu, Ni, Pb, Tl and Zn can be determined in soil samples with detection limits that lie underneath the legal limit values common in practice.
Source:  Fraunhofer Institute for Laser Technology (ILT)
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Project-IconAsh sediments for improving the water quality of mining lakes
As part of this project, the project partners examine the use of alkaline suspensions to improve water quality of sulphuric post-mining water bodies formed from the remainders of opencast mines with additional CO2-mineralisation. Following the cleaning-up of mining lakes, this allows to derive economic benefit of it, as well as to recycle ash sediments, and lignite filter ash from power plants. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
Keywords:  Wassergüte, Bodenfunktion, Schadstoffbelastung, Asche More keywords , Sanierung, Bergbaufolgelandschaft, Tagebau
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Project-IconBilateral cooperation between the BMBF and the U.S. EPA; phase II: development and testing of monitoring standards for contaminated sites in the course of German/American cooperation for the clean-up of contaminated land
In the course of German-American cooperation, a number of practical supporting tools for the conduct of operations have been developed: guidelines which, on the German side, can be used to test the technical suitability of decontamination installations; recommendations for a German technical standard on the clean-up of contaminated sites (DETAD) and a procedural instruction for the development and monitoring of reinstated land. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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Project-IconBiodegradation of hydrocarbons: microbiological degradation of residual oil fractions using fatty acid-modified amino acids – increase in bioavailability
The degradation of hydrocarbons in soils can be stimulated by the use of newly-developed surfactants. However, the reduction in the residual oil concentration achieved by this method is not sufficient for the thorough decontamination of soils. A combination of this method with other chemical and physical processes is therefore recommended. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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Project-IconBiological degradation of chlorinated aromatics in solids
A microbiological soil clean-up process for the degradation of chlorinated hydrocarbons has been developed and tested on polychlorinated biphenyls, polychlorinated dibenzodioxins/furans and hexachlorocyclohexane. Although decontamination has proved to be difficult, it has been successfully achieved in some instances with the assistance of site-specific micro-organisms. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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Project-IconBiological processes in a permeable reactive barrier (PRB) with Fe0: evaluation of long-term behaviour of a Fe0-reactive wall, using the Rheine site as an example (Part 17)
The microbiological colonisation of the wall was proven. However, the cell count was so low that clogging effects seem very improbable in the near future. The more reactive DRI (direct reduced iron) is less strongly colonised than the cast iron granulate / gravel mixture. Dechlorinating bacteria could only be identified in the latter, however. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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Project-IconBiological remediation of contaminated sites from industrial carbon chemistry: Humification of PAH: Metabolism of fungi
In trials using various fungi, a series of strains have been identified which would appear to be suitable for industrial use in soil clean-up processes. The application of these strains is associated with the clear stimulation of PAH degradation, which can be further enhanced by the addition of growth substrates. Expand…
Source:  Federal Ministry of Education and Research (BMBF)
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