DE3610199A1 - Process for cleaning soils contaminated with pollutants - Google Patents

Abstract

The invention relates to a process for cleaning soils contaminated with pollutants, in which the soil to be cleaned is removed from the pollution site, subjected to cleaning and, cleaned from pollutants, reapplied. The process according to the invention is characterised in that the soil, after mechanical treatment, is subjected to a counter-current extraction with at least one solvent dissolving the pollutants, in that the solvent is circulated in a closed circuit, and in that the pollutants are separated from the solvent in the course of the circulation. In addition, the invention relates to an apparatus for carrying out the process. <IMAGE>

Description

The patent application relates to a method for cleaning of soils contaminated with pollutants, in which the Removed floor to be cleaned at the damage site subjected to cleaning and from the pollutants is cleaned again, as well as a Vorrich tion to carry out the procedure.

Such processes are playing an increasingly important role Role in particular in the area of the so-called "Alt load removal ", i.e. reusable creation of old landfill sites and formerly industrial of used areas. The floor is often in on these contaminated to such an extent that an immediate Use, e.g. B. as a subsoil, is not possible because there are significant health risks for people.

A previously used method for contaminated site is a simple implementation of ver uncleaned soil mass on a hazardous waste landfill. It is disadvantageous and problematic here that Deponievo lumen is becoming increasingly scarce that the cost of a Landfill is constantly increasing and that this is not a beseiti tion, but only a relocation of the problem represents. Another disadvantage is that in the As a rule, the landfilled land is only a pollution level  hold between about 1-10 vol .-% or even less has, so that well over 90% of the landfill volume as are misused.

Another known procedure is the treatment of contaminated soil in incinerators, in which due to very high temperatures the chemical compounds of pollutants, mostly hydrocarbons, into harmless ones Compounds, ideally carbon dioxide and water, be implemented. With this procedure the Soil is applied again after treatment, however, the method has the disadvantage of being enormous Energy requirements and thus extremely high costs. Wei terhin is disadvantageous that the floor after treatment completely free of organic matter and therefore biological is dead. Therefore before the re-release of the be traded soil with untreated and not unclean to mix soil, what the effort and the cost further increased.

It is therefore the task of a process of Specify the type mentioned at the beginning, which the listed Avoids disadvantages, and that effectively, inexpensively and is environmentally friendly, which requires little energy has very little or no landfill volume needed. Furthermore, a device for through management of the procedure.

The solution of this task, regarding the procedure, succeeds according to the invention by a method of the beginning mentioned type, in which the floor after a mechanical treatment of a Counterflow extraction with at least one pollutant is subjected to solvent, the solvent in a closed circuit leads, and the pollutants in the course of the cycle from the Lö  be separated.

The method has compared to the prior art a number of key benefits. So be through the countercurrent extraction with a solvent Pollutants released from the ground, more precisely from the Surface of the soil particles forming the soil solved. By guiding the soil and the solution The countercurrent extraction is very effective. Each depending on the pollutant (s) to be removed most suitable solvents are used. The Pollutants are extracted from the soil and the separation from the solvent as very high concentrated extract obtained. This pollutant ex tract or this pollutant concentrate has a volume of only about 1-10% of the fed into the process contaminated soil. This concentrate can then be burned at high temperature or be deposited securely. The cost of this is towards a corresponding treatment of the whole contaminated soil mass drastically less because single Lich about 1/100 to 1/10 of the original mass falls. The useful life of landfills can be based on the small volume to be deposited, considerably be stretched.

Another major advantage of the process is that Guiding the solvent in the cycle, because of this in principle, the solvent can always be as long as desired can be used again. The environment is not polluted because, apart from in the Low losses to be expected in practice within the Circuit remains. The use of solvents and the associated costs remain relatively low.

To ensure effective extraction of harm substances from the floor mass to be cleaned is pre-selected  hen that countercurrent extraction in one with means to extract the soil provided extractor, in which the solvent from one end and the Bottom introduced from the other end and at each opposite end to be executed. This will achieved that the solvent not only by an in resting soil mass flows or seeps, but that an intensive mutual mixing of solutions medium and soil while promoting the the latter takes place. The pollutant extraction is like this effectively supported mechanically.

To ensure that the process is as economical and fluid as possible race and at the same time a consistently high quality To reach the level of the procedure, the ground advantageously continuously or quasi-continuously largely solvent-tight into the extractor lock and after it has passed through. With appropriate design of the in and out solution of the soil is prevented from solvents the extractor can escape, so that an environmental hazard is excluded.

A preferred way of separating pollutants and solvents after their execution from the Extractor is that with the pollutants freighted solvent is evaporated, that the pollutant concentrate generated thereby separated is withdrawn from the solvent vapor and that the Lö after evaporation and the removal of the harmful substances liquefied again. This represents both technically relatively easy to implement as well mix highly effective separation method, in the single Lich must be ensured that the solvent evaporates lower temperatures than those in it dissolved pollutants. This is a requirement in the Practice but no limitation of the applicability of the  Process represents, since the contamination of soils in generally exist for a long time and the half no longer contain volatile components. Thus, the circulating solvent becomes white purely again the inlet into the extractor leads.

Because the soil after being extracted from the extractor can still be contaminated with solvent residues Recovery of these residues and to clear the soil of these remnants provided that the floor after the Discharge from the extractor of a mechanical loading act to separate residues of the solvent is subjected and that the solvent in the Lö medium cycle is fed back.

An alternative or additional treatment of the soil with the same objective is that the Soil after being discharged from the extractor or after the mechanical treatment of heating for ver evaporation of residues of the solvent is subjected and that the solvent vapor again after removal liquefied and returned to the solvent circuit is fed. Through either of these treatments and especially through a combined treatment of the soil after it has been discharged from the extractor, it becomes safe asked that the Lö solvent residues completely for the solvent circuit be recovered and that the soil after the Cleaning procedure none possibly harmful or contains dangerous solvent residues more.

That too after its separation from the solvent deducted pollutant concentrate can within the scope of Ver undergo further treatment, before it is landfilled, burned or otherwise used becomes. This treatment is that the harm  substance concentrate after deduction of heating for ver evaporation of residues of the solvent is subjected and that the solvent vapor again after removal liquefied and returned to the solvent circuit is fed. This also makes the solvent here minimizes loss and it becomes a very highly enriched pollutant concentrate generated by the process, that is largely free of solvents and soil is most.

Preferred solvents are n-pentane and petroleum ether, especially for cleaning floors with ali phatic, aromatic and / or halogenated coals are contaminated which are the main group of present cases that occur in practice. Both Lö solvents have very low boiling points. So the boiling point of n-pentane is 36-38 ° C and the from petroleum ether at just under 50 ° C. The boiling temperatures are still above those occurring in this country Air temperatures, however, only require the supply to be lower Amounts of heat energy to evaporate. With that method according to the invention a very cheap energy balance achieved, because only a small amount of heat is generated amount required and the heat losses remain low.

Since the above and similar solvents, more specifically whose vapors can form explosive mixtures with air, it is provided that within the solvent circuit run the process the solvent in air conclusion is made. So it can not be Explosive mixtures are formed. To this Purpose are suitable devices, in particular for one and discharge of the soil into the individual ver Parts of the device which carry out the driving steps or a gastight design and connection of this device parts to be provided with each other.  

To relieve the extractor of mechanical work and an extract that is as intense and exhaustive as possible To ensure pollutants is provided that the bottom before slipping into the extractor mechanical crushing and loosening under is pulled. This creates a large target for created the solvent, whose job it is the damage adhering to the surface of the soil particles detach substances from there. The better the crushing and loosening the soil, the easier it gets the solvent for all pollutants.

The solution of the second part of the task, näm Lich the creation of a device for implementation of the method is achieved by a device that is characterized by a closed extractor with an introductory lock and an execution sluice for the floor and with one inlet and one Outlet for the solvent at each opposite opposite ends, with outlet and Inlet connected outside the extractor are and between which a separator for Separation of the pollutants from the solvent is arranged. By closing the extractor executed and with locks for the feed and execution any solvent can be used without endangering the environment. Through the connection existing outside the extractor of Solvent outlet and inlet as well as by the in Course of the connection arranged separation device for Separation of pollutants and solvents is the Recirculation of the solvent realized.

Solvents and pollutants are separated preferably by one with the solvent outlet of the Solvent evaporator connected to an extractor Deduction for the pollutant concentrate generated there and with  a discharge for the solvent vapor. After this is conveniently switched on with the solvent vapor discharge of the solvent evaporator connected Solvent liquefier, its solvent removal connected to the solvent inlet of the extractor is. Furthermore - is also the separator downstream - one with the outlet of the trigger direction-connected reheating chamber for the damage concentrate with one with the inlet of the solution condenser connected outlet for evaporated Lö leftovers provided. The evaporation and ver liquid is preferably carried out by Heating or cooling.

To treat the soil after its execution from the The extractor is preferably used after the extractor ordered, through a solvent-tight bottom design Locked floor treatment station for mechanical separation of solvent residues and / or for heating the floor with returns for the solvent and / or for evaporated solvents residues in the solvent circuit. A solvent tight execution lock directly at the extractor with a correspondingly dense design of the individual parts dispensable. Instead, this lock is advantageous placed at a point where the floor is final processed and is already completely solvent-free.

The preparation of the soil before its introduction to the Extractor takes over one of the Extractor arranged through the floor to be cleaned mechanical processing loosening and crushing Soil preparation station.

It is particularly advantageous because it can be used flexibly an embodiment is provided in which the device several separate, transportable to a site,  interconnectable components.

The process according to the invention for Cleaning floors contaminated with pollutants one in a drawing in the form of a block diagram shown, preferred process flow together hanging are explained.

As can be seen from the single figure of the drawing treatment of the contaminated soil begins with its removal at the damage site. From there the contaminated soil to a soil preparation station tion in which the bottom of a mechani crushing and loosening. The soil arrives from the soil preparation station through an introductory lock into a countercurrent tractor. Through this the soil becomes one leading end to an opposite execution promoted lock. By the extractor in the opposite led to the bottom of the solvent a solvent inlet on that of the introducer sheath for the bottom opposite end of the extractor in this is initiated. Through one of the inlet side of the Solvent opposite solvent outlet the solvent leaves the extractor. During the Soil and the solvent in countercurrent to each other wander through the extractor, there is a solution to the im Soil contained pollutants by the solvent. In addition, a small part of the solvent comes along the soil particles cleaned of the pollutants Execution sluice for the floor. At one end of the Extractor is thus the one with a low solution of the enriched soil, while on the other end of the extractor with the damage solved leaked solvents.  

The floor from the execution lock arrives Contains solvent residues for post-treatment station. In this the solvent residues by mechanical and / or thermal treatment of the Floor separated. The floor, which is now both free of Solvent residues as well as pollutants is then either for re-release to the Damage site or for any other use transported.

That coming from the extractor, with the pollutants Enriched solvent is a solvent supplied steamer. Correspondingly low when used boiling solvent evaporates in the solvent just evaporate the solvent while the Enrich pollutants as a pollutant concentrate. The evaporated solvent is then a Lö supplied liquefier, in which a return condensation of the solvent takes place. That again liquid solvent is the solvent inlet of the Extractor supplied. This is a closed lion medium cycle.

That which accumulates in the solvent evaporator Pollutant concentrate is deducted from this removed and arrives together with still contained therein solvent residues to a concentrate after-treatment action station. In this, preferably by Warming still contained in the pollutant concentrate brought solvent to evaporate until the Pollutant concentrate completely or at least white is test-free solvent-free. The pollutant concentration is then either to landfill or to Ver burned away.

To avoid solvent loss and the environment not polluting with solvent vapors will both  the one from the floor treatment station as well as the one from solution coming to the concentrate after-treatment station medium vapor the solvent liquefier already mentioned siger fed and thus to the solvent cycle returned.

Claims (17)

1. A method for cleaning contaminated soils, in which the floor to be cleaned is removed at the point of damage, subjected to cleaning and cleaned again from the pollutants, characterized in that the floor after mechanical treatment of a countercurrent extraction with at least is subjected to a solvent that removes the pollutants, that the solvent is conducted in a closed circuit, and that the pollutants are separated from the solvent in the course of the circuit. 2. The method according to claim 1, characterized in that that countercurrent extraction in one with means to promote the bottom extractor he follows in which the solvent from one end and the bottom is inserted from the other end and on the opposite end. 3. The method according to claims 1 and 2, characterized characterized in that the floor is continuous or quasi continuously largely solvent tightly inserted into the extractor and after it Going through is discharged. 4. The method according to claims 1 to 3, characterized ge indicates that polluted with the pollutants solvent after running from the Ex tractor is evaporated, that this is separated from the generated pollutant concentrate Solvent vapor is withdrawn and that the Lö after evaporation and withdrawal of the Pollutants are liquefied again.   5. The method according to claims 1 to 4, characterized ge indicates that the floor after discharge from the extractor for mechanical treatment Separation of residues of the solvent subjected will and that the solvent in the solvent circuit is fed back. 6. The method according to claims 1 to 5, characterized ge indicates that the floor after discharge from the extractor or after mechanical loading act of heating to evaporate residues is subjected to the solvent and that the Lö Solvent vapor liquefied again after removal and is fed back into the solvent circuit. 7. The method according to claims 1 to 6, characterized ge indicates that the pollutant concentrate after Deduction of heating to evaporate residues of the Is subjected to solvent and that the solution medium vapor liquefied after removal and in the solvent circuit is fed back. 8. The method according to claims 1 to 7, characterized ge indicates that the solvent is n-pentane or Is petroleum ether. 9. The method according to claims 1 to 8, characterized ge indicates that the solvent in air conclusion is made. 10. The method according to claims 1 to 9, characterized ge indicates that the floor in before the extractor of a mechanical comminution and Loosening is subjected. 11. Device for performing the method according to Claims 1 to 10, characterized by a  closed extractor with an introductory sheath se and an execution lock for the floor and with an inlet and an outlet for the solution against each other overlying ends, with outlet and inlet except half of the extractor are interconnected and with a separating device between them Separation of the pollutants from the solvent is arranged. 12. The apparatus according to claim 11, characterized by one with the solvent outlet of the extractor connected solvent evaporator with a trigger for the pollutant concentrate generated there and with a discharge for the solvent vapor. 13. Device according to claims 11 and 12, marked characterized by a with the solvent vapor Removal of the solvent evaporator connected Solvent liquefier, the solvent ab guide with the solvent inlet of the extractor connected is. 14. The device according to claims 11 to 13, characterized characterized by a with the outlet of the deduction direction connected reheating chamber for the Pollutant concentrate with one with the inlet of the Solvent condenser connected outlet for evaporated solvent residues. 15. The device according to claims 11 to 14, characterized is characterized by a subordinate to the extractor, due to a solvent-tight floor design Locked floor treatment station for mechanical separation of solvent residues and / or for heating the floor, with returns for the solvent and / or for evaporated Lö  residues of solvent in the solvent circuit. 16. The device according to claims 11 to 15, characterized characterized by a in front of the introductory lock of the Extractor arranged, the floor to be cleaned loosening and chopping through mechanical processing ground preparation station. 17. The device according to claims 11 to 16, characterized characterized in that the device consists of several separate, portable to a site, with interconnectable components.