DE4337192A1 - In-situ process for the remediation of polluted soils - Google Patents

Abstract

Technical problem of the invention For the in-situ remediation of incidents of pollution by hydrocarbon compounds, the processes soil-air extraction and microbiological pollutant conversion have established themselves. In soil-air extraction, volatile hydrocarbons (VHCs) and volatile chlorinated hydrocarbons (VCHCs) are extracted by suction, which compounds convert to the gas phase on contact with air. This process fails at low soil temperatures and/or with higher-boiling hydrocarbon compounds. In addition, the remediation period is not inconsiderable and can last for months. In the work with pollutant-adapted microorganisms, the constant maintenance of the required environmental conditions for these organisms in the remediation area has a disadvantageous effect. Temperatures below 15 DEG C in the soil produce remediation times of several vegetation periods. The novel process enables pollution incidents due to hydrocarbon compounds to be cleaned up within the course of shorter remediation times. Structural peculiarities or special environmental conditions on site can be taken into account as far as possible in the remediation. Solution of the problem The process is based on heating the soil by introducing high-frequency energy. For this purpose, eg. three rows of electrodes (1) are introduced into the soil. The [lacuna] given off by the HF generator (4) ... Original abstract incomplete. <IMAGE>

Description

The invention relates to an in-situ method for remediating contaminated soils, Taking the pollutants by the action of high-frequency electromagnetic waves brought to a boil and collected after emerging from the ground and a Reuse or orderly disposal. For the renovation of areas whose floors are contaminated with hydrocarbon compounds It is often necessary that due to structural features and environmental requirements a pollutant removal must be made on site. Also, the elimination of damage damage on commercial areas, railway areas or similar areas that require rapid disposal in order to To avoid consequential damage, to the other to loss of production or traffic disruption Preventing the use of an in situ method is required. It is important that to avoid uncontrolled leakage of pollutants the soil to be machined volume is limited electrotechnically. In addition, it is necessary to avoid unnecessary radiation of RF energy, or the permissible To comply with the highest levels of BAPT regulations. Prerequisite for a damage to be carried out with economically justifiable expense Substance disposal is an almost uniform heating of the contaminated soil.

State of the art

There are known methods in which contaminated with chlorinated hydrocarbons (CHC) Soils are rehabilitated by a Bodenluftabsaugung on site. In this process, vacuum wells are sunk into the contaminated soil. Thereafter, with the help of a cover, the airtight seal of the area to be cleaned to the wells. By sucking the air from the well below the film in the ground Negative pressure. Due to the relatively low boiling point of the chlorinated hydrocarbons, these go into the gas phase over and get with the air flow to the wells. The sucked air is cleaned via activated carbon filters. The disadvantage of this method is the limited usability, since the utilization the natural vapor pressure or the lowering of the boiling point by negative pressure generation is successful for the extraction of pollutants only a few chlorinated hydrocarbons and a relatively long time (several months). For the operation of these plants, regardless of the pollutant concentration, a constant Quantity of electrical energy necessary. This has the consequence that at low pollutant concentration the specific energy expenditure over a long renovation period is very high and low Expelling quantities of pollutants. Other methods employ pollutant-adapted microorganisms in pollutants loaded soil on site. Through a targeted addition of nutrients, oxygen and trace elements in water are dissolved, the microorganisms are activated. They convert the site-specific pollutants through metabolic processes in water and water Carbon dioxide around. Can be used microorganisms mainly in the substance groups PAH; AKW; CKW and Phenols. The disadvantage here is the constant maintenance of the required environmental conditions for the microorganisms in the rehabilitation area. The temperature of the contaminated soil is an important condition. The optimal Ambient temperature is 20 ° C to 35 ° C and occurs only in a short Growing season on. This results in very large renovation periods.  

The constant supply of water requires that some pollutants are carried along and so into deeper soil areas or into the groundwater can get.

Purpose of the invention is the elimination of the listed defects. The invention has for its object to provide a method that through the use of High-frequency energy with hydrocarbon compounds, as used in gas and diesel fuels, heating oils and organic solvents and cleaning agents, to clean up contaminated soils with economically justifiable on-site The accumulating Contain pollutants and return for reuse or proper disposal. According to the invention, the method consists of the four technological subcomplexes,

• - HF electrode system in polluted soil,
• - Facilities for generating and transmitting the RF energy to the electrodes system,
• - shut-off and collection system of pollutants,
• - gas and liquid treatment system for separating and filling pollutants,

which cooperate so that a spewing of pollutants takes place from the soil. The forms in the contaminated soil introduced RF electrode system together with the contaminated soil a lossy capacitor. The soil together with the pollutants is a dielectric. The electric densystem which an impedance matching device with the high frequency power source is connected, is excited by this and emits electromagnetic waves to the dielectric. The absorption of the electromagnetic waves leads to a dielectric heating, almost solely from the distortion of the molecular structure of the bipolar components of the loaded Bodens results.

Thus, as far as possible a homogeneous heating of the entire of the RF field takes place closed floor volume. At temperatures of about 80 ° C to about 450 ° C is the Pollutant expulsion.

The energy absorbing capacity of the soil, d. H. the degree of conversion of energy High-frequency electrical vibrations in heat energy, is thus primarily of the dielectric properties of the soil as well as the frequency and intensity of the applied determined electromagnetic field. To cover the resulting gases and vapors, a cover of metallized Plastic film built as a vapor barrier over the body to be decontaminated. It serves the Metal layer to prevent the emission of RF interference. The pollutant recovery takes place by condensation and binding of pollutants in Activated carbon filter. The pollutants are after treatment as condensate in the smallest possible volume, d. H. in highly concentrated undiluted form.

With reference to an embodiment shown in Fig. 1, the invention will be explained in more detail.

In the soil contaminated with pollutants, the electrodes ( 1 ) are introduced in three rows. Via the coaxial line ( 2 ), the electrodes are connected to the matching device ( 3 ) and the HF generator ( 4 ) so that the middle row of electrodes are connected to the potential-carrying pole and the two outer electrode rows with the ground potential of the matching device. If the energy generated by the HF generator acts on this arrangement, the volume of the soil trapped between the electrodes heats up according to the principle of dielectric heating. Upon reaching the boiling points of the pollutants they are driven in the vapor state from the ground.

To capture the resulting volatiles and to prevent spurious radiation of RF energy is sealed against the external air pressure sealed metallized vapor barrier ( 5 ) is established on the decontaminated body. Between the electrodes are the interconnected discharge channels ( 6 ). The suction device ( 7 ) generates a negative pressure via the gas flow lines ( 8 ) under the cover. Thus, the gas stream passes successively in the heat exchanger ( 9 ) and in the gas scrubbing system ( 10 ), where a condensation and separation of pollutants is made by the water. The pollutants deposited in facilities ( 9 ) and ( 10 ) can be recovered here.

Remaining anhydrous pollutants are in the adsorber keg ( 11 ) that contains activated carbon, filtered out and collected. According to the invention, it is conceivable that the method of soil heating can be used to support other in-situ methods. Thus, the soil-air extraction could be used much more effectively, if the heating of the soil, the pollutants enter the boiling range. It is also conceivable that the time for a microbiological in situ soil remediation we considerably shorten, if by an RF energy input into the soil optimal Le bensbedingungen for the effectiveness of the microbes located in the soil are created and a more effective nutrient processing can be done ,

reference

To illustrate the state of the art, research was carried out in the following groups:

A62D3 / 00 Process for rendering harmless chemical pollutants. B01D3 / 00 Distillation or similar exchange processes with liquid-gas contact, eg. B. stripping B01J19 / 08V Method with direct application of electric or wave energy or particle radiation, devices therefor. C10B19 / 00 Heating charring furnaces by electrical means. C16G1 / 00 Manufacture of liquid hydrocarbon mixtures from oil shale, oil sands or non-melting, solid carbonaceous or similar substances. E02D3 / 00 Improvement or securing of the subsoil. F23G5 / 04 Burner with evaporation of liquid fuels in the combustion chamber, with or without chemical modification of the evaporating fuel with pot evaporator, d. H. a partially enclosed evaporator space.

Within these groups, the following patents were in situ:

1. EP 0 170 862 Process and installation for the reparation of industrially contaminated land. Staender, L. Ruhrkohle Aktiengesellschaft, 12. 02. 86 internal. Classification: A62B3 / 00, B09B5 / 00, F23G5 / 027 2. EP 0 228 626 Method for soil remediation using microorganisms Rehm, H.J./Kischner DECHAMA German Society for Chem. Apparatus Engineering e. V., 15. 07. 87 internal. Classification: A62D3 / 00, B09B5 / 00 3. DE 87 17 408 Apparatus for decontaminating absorbent products which are contaminated with hydrocarbonaceous products, in particular soil. Kupfermann, F. 09. 02. 89 internal. Classification: A62D3 / 00 4. DE 88 04 344 Device for cleaning soil layers Stenger, A. Philipp Holzmann AG, 21. 07. 81 5. US 4376598 In situ Vitrification of soil. Brouns 15. 03. 93 internal. Classification: E02D3 / 00   6. US 4765902 Process for in situ Biodegradation of Hydrocarbon Contaminated soil Eli 08. 03. 88 internal. Classification: C02F3 / 34, D06M16 / 00 7. US 5114497 Soil decontamination Johnson 19. 05. 92 internal. Classification: B08B5 / 00, B09B3 / 00

Touching property rights did not arise.

Claims (13)

1. In-situ method for the remediation of contaminated soils, wherein the pollutants are brought to boiling by the action of high-frequency electromagnetic waves and collected after exiting the soil and a reuse or orderly disposal are supplied and the pollutants are assigned to the following groups of substances:

• saturated, unsaturated or hardly water-miscible chain, branched and cyclic hydrocarbons,
• - aromatic hydrocarbons with and without side chains, including halogen-substituted aromatics,
• Mixtures in compositions of the abovementioned groups, as found in carburetor and diesel fuels, heating oils and other organic solvents and cleaning agents,
• Soil-pollutant mixture with dielectric properties in general electro-technical sense,

characterized in that

• a. Electrodes are introduced vertically into the contaminated soil, which represent in their overall arrangement a lossy capacitor consisting of a dielectric in the electro-technical sense,
• b. the electrodes are arranged in rows or in another suitable manner and connected to the output of a high-frequency voltage source to deliver an elec tromagnetic energy to the polluted soil,
• c. the emitted electromagnetic waves generate dielectric and ohmic heat over a period of action and cause the pollutants to boil,
• d. collected from the ground gaseous pollutants are collected.

2. The method according to claim 1, characterized in that for coupling of the electrodes the high frequency power source to maintain a maximum power output adjustable adaptation network is used. 3. The method according to claim 1, characterized in that the electrodes of geometric formed rods, tubes or surface elements. 4. The method according to claim 1, characterized in that to increase the electrical Efficiency the emitted high-frequency voltage from rectangular wave packets consists. 5. The method according to claim 1, characterized in that the frequency to be used between 1 MHz to 100 MHz. 6. The method according to claim 1, characterized in that the length of the electrodes and the wavelength of the high voltage source to be used as a function of the dielectric Properties of the pollutant-soil mixture are determined.   7. The method according to claim 1, characterized in that for collecting the gaseous Pollutants and to avoid disturbing influences of the high voltage source electrical and telecommunications equipment, a metallised foil tent which is equipped with an HF Earth is placed over the polluted area, sealed against the external air pressure, is placed. 8. The method according to claim 7, characterized in that the suction of the gaseous Pollutants via a channel system, which is located on the surface of the contaminated soil and covered with a metallised foil. 9. The method according to claim 1, characterized in that to assist in the process in which over-ground air extraction, a renovation is made by a Dielectric heating caused the pollutants to boil and thereby the Sanie significantly shortened. 10. The method according to claim 9, characterized in that in the method of the soil Air suction required suction lances are replaced by tubular electrodes. 11. The method according to claim 1, characterized in that in support of biological Rehabilitation process by a dielectric heating optimal temperatures independent created by the vegetation periods for bio-organisms. 12. The method according to claim 8, characterized in that the entry and the distribution Biological nutrient solutions optimized by the use of high-frequency waves can be.