DE4333490A1 - Process for soil remediation - Google Patents

Abstract

Process for soil remediation, the contaminated soil being excavated and separated in a screening stage into a coarse fraction and a fine fraction, the fine fraction being decontaminated in a suspension reactor for biological soil treatment, process water being returned to the circulation and the decontaminated soil, if appropriate after readdition of the coarse fraction, being backfilled, a soil analysis being carried out, taking into particular consideration the binding of the pollutants and the pollutant distribution over the grain size categories, a highly polluted soil fraction being separated off from the fine fraction by flotation and the flotated soil being passed to a suspension reactor known per se for biological soil treatment. <IMAGE>

Description

The invention relates to a method for soil remediation the preamble of claim 1.

Such a method is known from DE 41 29 363 A1. At This process uses the bioavailable hydrocarbons, such as B. the polycyclic, aromatic hydrocarbons (PAK), excellently broken down in the fine fraction. The remaining con concentration of the remaining PAH by the microorganisms cannot be dismantled due to lack of availability but especially with highly contaminated soils often above the given renovation target values, so that the renovation of such Soils are limited by biological processes.

The invention has for its object a method for Bo to propose restoration, in which a cleaning neither by a biological process from the prior art known floor washes is possible.

This task is characterized by the characteristic features of Pa claim 1 solved.  

Further developments of the process are never in the subclaims put down.

Through the combination of methods according to the invention, the one compliance with low limit values, such as when using the individual procedures, or only with a disproportionately large amount Effort can be achieved.

The floors of contaminated sites intended for remediation represent an extremely heterogeneous and complex system the selection and design of the renovation ver driving must therefore the type of pollutant and the integration of Pollutants and the distribution of pollutants across the grain sizes classes in the soil are taken into account.

In the combination of methods according to the invention, in Soil analysis in a first step is a strong one polluted soil fraction separated by flotation. At Flotation turns surface properties into enrichment exploitation of the pollutants. This leads to a quick one Depletion of all PAHs. The process parameters the flotation is adjusted so that primarily the particles whose Pollutants are not available for biodegradation, selectively hydrophobic and abge by the selection of the collector be separated.

In addition, the amount of the pollutant concentrate separated minimized, since this is a separate, usually expensive ent supply must be supplied. The floated soil is invented accordingly directly into the bio known from DE 41 29 363 A1 inserted reactor and there a biological treatment un educated. The biological treatment after the Flotation reached residual concentration to values that correspond to the current renovation target, reduced.

According to a development of the invention, the floated Bo a part of the water before it is fed into the bioreactor be fed and then directly as a suspension be introduced into the bioreactor.  

It is also possible between the flotation device and the biore a sludge combined with a drainage of the actuator separated fine grain fraction (e.g. via a hydrocyclone) perform.

By choosing a biodegradable flotation due to its solubilizing properties has a positive influence on the microbiological PAH reduction a shorter treatment time in the bioreactor is possible. The the treatment duration determined is orders of magnitude shorter than with the rental methods common for sandy soils.

According to the invention, fatty acids are used as flotation collectors and triglycerides or mixtures of the two are used.

Commercially available products are used as the foamer are biodegradable.

According to a further embodiment of the invention, the Pro Some or all of the flotation water in the bioreactor biologically cleaned and can be circulated. There This leads to a substantial reduction in the Soil washing measures necessary for wastewater treatment.

Due to the combination of methods according to the invention, an keeping low limits possible, as with On rate of the individual procedures not or only with disproportion moderate effort can be achieved. With better renovators Results are the cost of this combination of processes ter those of the individual processes. This is primarily because the combination with the flotation short Residence times in the bioreactor result and that therefore also in With regard to the integrated biological process water purification an economical and ecological renovation technology for fine some soils.

The invention is based on the drawing and the Examples described in more detail.  

The sole figure shows an embodiment of the invention according to the method in a schematic overview lung.

The figure shows that a contaminated soil, which was previously separated from coarse material in a sieving stage, is introduced together with water into a conditioning container 1 , into which the flotation agents are also fed. After conditioning, the contaminated soil is fed to a flotation 2 , in which a large part of the pollutants is discharged as flotation concentrate (floating material) via a discharge device 3 . The floated soil is fed to a desludging 4 . The contaminated fine grain is discharged via a line 6 after Ent 5 . The desludging is advantageously carried out using a hydrocyclone. The soil thus treated is led directly into a bioreactor 7 , as described in DE 41 29 363 A1. Drainage 8 then takes place. The cleaned floor is obtained via a discharge 9 , while the cleaned washing water is discharged via a line 10 .

Comparative example and embodiment

It is said to be a floor of a former coking plant site with a PAKEPA content of 2354 mg per kg, which is a very strong contami nated fine-grained silt, be cleaned up. The Bo Before the remediation, the pollutant distribution was examined in detail and the bioavailability of the PAHs were examined. On the bottom was closed in the bioreactor, as in DE 41 29 363 A1 is described, treated biologically. The PAK-Ab Construction in the bioreactor came after about 6 weeks, with a remaining concentration tration of 414 mg PAKEPA per kg soil, to succumb. The ver persistent PAHs were no further microbial degradation more accessible, therefore not bioavailable.

The floor described in more detail above was divided into different ones Grain classes separated and the respective PAH contents determined.  

It turned out that the grain size fraction <10 microns had significant amounts of PAH.

Therefore, after a sieving stage (<1 mm), the soil was Laboratory agitator flotation cell (100 g soil per l water) below Add 1.5 g flotation agent / kg soil [collector: Stearic acid; Foamer: methylisobutylcarbinol (MIBC)] behan delt. About 3% solids were found in the flotation concentrate (Float) discharged. The PAK content of the soil was after the flotation 536 mg / kg.

A desludging was then carried out in a 50 mm hydro cyclone, such that the suspension on one for the bioreactor optimal solids content of 725 g / l was dewatered. Here 5% of the solid was removed as a contaminated fine grain carry. The bottom of the bioreactor had one Residual load of 254 mg PAH per kg soil. This residual burden was reduced to 10 mg / kg in the bioreactor within 50 h graces. Then the soil suspension from the bioreak gate pumped and drained.

From the exemplary embodiment and the comparative example that the PAK limit values are reached by flotation (536 mg / kg) or not possible through the bioreactor (414 mg / kg) is. Only the method combination according to the invention leads to falling below the limit values.

Reference list

1 conditioning container
2 flotation
3 discharge device
4 desludging
5 drainage
6 line
7 bioreactor
8 drainage
9 discharge
10 line

Claims (6)

1.Procedure for soil remediation, in which the contaminated soil is excavated and separated into a coarse fraction and a fine fraction in a sieving stage, the fine fraction is decontaminated in a suspension reactor for biological soil treatment, process water is returned to the circuit and the decontaminated soil is optionally mixed again the coarse fraction is refilled as characterized in that

• a) a soil analysis with special consideration of the integration of the pollutants and the pollutant distribution over the grain size
• b) separated from the fine fraction by a flotation of a highly contaminated soil fraction and
• c) the floated soil is fed into a suspension reactor known per se for biological soil treatment.

2. The method according to claim 1, characterized in that the floated soil before biological soil treatment is drained. 3. The method according to claim 1, characterized in that the floated soil removed before biological treatment and is thickened. 4. The method according to claim 1, characterized in that for Conditioning the flotation and the biodegradable flotation agents supporting biological cleaning be set. 5. The method according to claim 4, characterized in that as Flotation agent fatty acids and triglycerides used become. 6. The method according to claim 1, characterized in that the Process water of the flotation is biologically cleaned.