DE4238430A1 - Microbial cleaning of hydrocarbon-contaminated soil - by adding complexing agent, pref. cyclodextrin, to increase bio-availability of hydrocarbon - Google Patents

Abstract

Microbial cleaning of soil contaminated by hydrocarbons (I), esp. aromatic (I), is improved by adding a complexing agent (II) for (I) directly to the soil or to at least part of a sepd. contaminated soil layer. (II) pref. forms an inclusion complex with polycyclic aromatic (I), monocyclic aromatics (BTX) and/or aliphatic (I). (II) is esp. cyclodextrin (IIa). (II) is added to the fines of a sepd. soil layer, after removal of coarse particles by wet classification. (II) is mixed with the soil fines in a bioreactor, and (I) are microbially degraded with controlled nutrient addn., oxygen supply and pH adjustment. Esp. (II) is added to the suspended fines with mixing for 30-60 mins. to form a suspended or colloidally dissolved (I)/(II) complex, followed by microbial degradation for several days and repeating the first stage (i.e. mixing with (II)). ADVANTAGE - By forming a complex with (II), (I) are desorbed from fine soil particles and made available to microorganisms, esp. if (I)/(II) complexes are water-soluble or form a colloidal soln. or stable suspension. The increased bioavailability of (I) accelerates degradation and improves the cleaning efficiency. Unlike surfactants, (II) are non-toxic to microorganisms and do not disrupt biological membranes.

Description

The invention relates to a method for improving the mi Microbial cleaning with hydrocarbons, in particular aromatic hydrocarbons contaminated soils.

For the remediation of contaminated soils were Recently, various techniques have been developed a destruction, separation or transformation of the contamination targeted substances. Depending on whether the contaminated Ground moved or left in its existing storage One speaks of on-site or in-situ procedures.

In the journal "Chem.-Ing.-Tech.62 (1990) No. 4, p. 286- 298 "are the best known methods of soil remediation too compiled. In particular, it is bio logical processes, thermal processes, soil air processes and floor washes. The following is merely on the biolo will be discussed in more detail.  

In biological soil remediation z. B. with mineral oil contaminated soils through microbial degradation of hydrocarbons cleaned to carbon dioxide and water. The natural one Degradation of pollutants is based on the life activity of microorganisms which are dissolved or in soluble form transferred organic compounds partly as Energiespen the, in part to build up new cell substance and use there by eliminating from the ambient environment.

The microorganisms can go through soil bores in the kontami Neten soil layers introduced and ver with nutrients ver be worried. Another possibility is the kon ablate contaminated soil layers and into a bioreactor fill. In the bioreactor, the microbial degradation of the Pollutants by those present in the soil or through added microorganisms.

The remediation of soils or soil fractions (eg from the Ge velvet grain size spectrum of the soil) in biological reactors is one of the most widely used in research and development at the moment followed technology. However, it is not yet commercial used. In particular, the cleaning of the soil fines with a grain size range of typically less than 100 μm, which is the main part of an organic contamination carry, namely polycyclic aromatic hydrocarbons (PAK), petroleum hydrocarbons (MKW) and monocyclic Aro maten (BTX), is problematic.

Due to often very strong pollutant adsorption and man Geliger hydraulic permeability are the soil fine shares that z. B. residues from soil washes, with the known methods, such as. B. the  Rent biology currently not biologically sanitized. The main problem with cleaning the soil fines is that the pollutant is not or only poorly bioavailable. This means that the pollutant, although biologically per se degradable, adsorbed to the soil matrix or in the layer structures of the clay minerals, especially the silt content, stored and not accessible to the microorganisms.

From EP-A-0 310 005 it is already known that Bioverfüg availability by adding surface-active substances, such as. B. synthetic surfactants or biosurfactants.

The use of relatively poorly degradable aliphatic Koh Hydrocarbons as a solubilizer for polycyclic aroma table hydrocarbons is already from the activity Richt 1991 of the Fraunhofer Gesellschaft, Fraunhofer Institute for interfacial and bioprocess engineering, page 122 ff be known.

The known methods, however, have significant disadvantages on: Aliphatic hydrocarbons themselves are pollutants and are needed in significant concentrations. Some Surfactants are not environmental friendly and can be used in higher Concentration harmful to the microorganisms act. Fer For surfactants, certain minimum concentrations must be exceeded Steps are taken to keep the pollutants in a stable suspen to hold. Biosurfactants are expensive or need to be produced by certain organisms in the reactor itself who the. However, this is only possible with PAK claims additional carbon sources, which in turn does not cause PAH degradation gatively.

The present invention is based on the object Process of the type mentioned in such a way that Improves the bioavailability of pollutants and thus the Cleaning performance is increased.

This object is achieved in that the contaminated soils directly or at least part of contaminated, removed soil layers to adjuvants be given, which are able to with the Kohlenwas to form complex compounds.

As a result of this complex formation with the adjuvants, the ad sorptive binding of the hydrocarbons to the soil Feinan solved parts, so that they are accessible to the microorganisms are. Preferably, such adjuvants are used, the after formation of the inclusion compounds with the hydrocarbons soluble in water, a colloidal solution or form a stable suspension so that the hydrocarbons are immediately bioavailable.

As the soil fines in particular polycyclic aro Hydrocarbons (PAH) and / or mononuclear aromatics (BTX) and / or aliphatic hydrocarbons are adsorbed, Expediently, such adjuvants are added, which in are capable of inclusion compounds with these pollutants to build.

According to a particularly preferred embodiment of the invention are used as excipients cyclodextrins, in particular, - or cyclodextrins. In the cyclodextrins han It is sugar, so they are biodegradable and environmentally friendly. In addition, they can serve as co-substrates, whereby they supply energy to the microorganisms. The in the Cyclodextrins trapped pollutant is at Ab  Construction of the cyclodextrins with metabolized. In contrast to Use of surfactants must be avoided when using cyclodextrins as adjuvants no particular minimum concentration turned on keep the pollutants in a stable suspension to keep. Negative effects on biological system are out concluded that the cyclodextrins, unlike higher ten Side concentrations for the microorganisms are not toxic and do not destroy biological membranes.

Because the main part of the organic contamination of the soil usually adsorbed to the soil fines are expediently, the soil fines only from the coarse material worn soil layers, preferably in a wet class tion, eg B. a floor wash, separated. Then be the adjuvants added to the soil fines.

According to a particularly advantageous embodiment of the invention tion are the excipients in a biological reactor with an aqueous suspension of the soil fines mixed. The microbial degradation of hydrocarbons in the reactor is by targeted nutrient addition, oxygenation and pH control controlled.

In a development of the inventive concept, the Excipients added at intervals to the reactor contents. there The excipients are in a first step in the reactor entered and during a period of approx. 30 - approx. 60 min to form in the aqueous suspension or colloid dissolved inclusion compounds with the aqueous suspension the soil fines mixed, then in a second Step of microbial degradation of hydrocarbons targeted nutrient addition, oxygenation and pH control initiated and for a duration of several days  maintained and finally with the first step again began.

The method according to the invention is suitable in all cases where lack of bioavailability is the limiting factor represents the pollutant degradation. The invention allows the Increasing the bioavailability of strongly to the soil matrix Adsorbed pollutants, especially polycyclic aro matic hydrocarbons. The degradation takes place in the aqueous Phase instead. This will be the biological degradation be accelerated or even made possible. Particularly suitable the inventive method for use in sub mersreaktoren.

In the following the invention with reference to a Ausführungsbei explained in more detail:

With a mixture of polycyclic aromatic coals hydrogens, mononuclear aromatics and aliphatic carbons contaminated soil becomes one Floor wash, the soil fines from the Grobgut be separated. The soil fines with a Grain size spectrum of less than 100 microns carry the majority the organic contamination. This highly contaminated Fine fraction is then placed in a biological reactor, for aqueous suspensions of this fine ground fraction is laid, treated. In this homogeneous system, the necessary for the pollutant-degrading microorganisms Be conditions such as nutrient addition, oxygenation and pH targeted and controlled during the degradation.

In the present exemplary embodiment, a laboratory submitter Bioreactor with a reactor content of 5 l used.  

An amount of 2 kg of soil fines is mixed with a water amount of about 2.5 l slurried and mixed in a bioreactor. A quantity of 2 g - cyclodextrin is added to the bioreactor entered. Subsequently, the reactor contents during a Duration of about 45 min to form the in the aqueous Sus pension dissolved inclusion compounds stirred. It will be a temperature of 25 ° C and a pH of 7.0 upright hold. Subsequently, the microbial degradation of the coals introduced hydrogens. These are the following nutrients for the microorganisms added in the following amounts:

K₂HPO₄ | 5.3 g / l KH₂PO₄ 2.2 g / l (NH₄) ₂SO₄ 4.0 g / l KNO₃ 100 mg / l FeCl₃ 5 mg / l

The reactor contents are pre-charged with an oxygen-containing gas preferably technically pure oxygen, fumigated. In the aqueous Suspension will have an oxygen content of 8-10 mg / l get right. The pH is adjusted to 7.0 while the temperature is kept at 25 ° C. After a duration of 2 Days a pollutant reduction of 65% is achieved. The shouted The operating cycle is repeated until a damage Substance degradation of 80% is reached. This is in the present Example of execution after 8 days of the case.

In principle, however, the operating cycle can be repeated for such a long time until it becomes apparent that the dismantling of one may still be measurable residual content of pollutant no longer by the lack of bioavailability is limited.

Claims (6)

1. A process for improving the microbial cleaning of hydrocarbons contaminated with hydrocarbons, in particular aromatic hydrocarbons soils, characterized in that the contaminated soils are added directly or at least a portion of the contaminated, worn soil layers, excipients, which are in a position with the hydrocarbons To form complex compounds. 2. The method according to claim 1, characterized in that Be added to adjuvants that are able to polycyclic aromatic hydrocarbons (PAHs) and / or mononuclear aromatics (BTX) and / or aliphatic Hydrocarbons to form inclusion compounds. 3. The method according to claim 1 or 2, characterized that as excipients cyclodextrins, in particular -, - or cyclodextrins. 4. The method according to any one of claims 1 to 3, characterized ge indicates that the excipients from the coarse material in a Wet classification separated fines of the ablated Soil layers are added.   5. The method according to claim 4, characterized in that the Auxiliaries in a biological reactor with an aqueous Suspension of soil fines are mixed and the microbial degradation of hydrocarbons by targeted nutrient addition, oxygen supply and pH control is controlled. 6. The method according to claim 5, characterized in that the Feedstocks in a first step eingege in the reactor ben and for a period of about 30 - about 60 minutes below Formation of in the aqueous suspension or colloidally ge dissolved inclusion compounds with the aqueous suspension the soil fines are mixed, then in a second step of microbial degradation of the coals hydrogens through targeted nutrient addition, oxygen drove and pH regulation initiated and for a duration maintained for several days and finally started with the first step again.