DE4118525C1 - Appts. for cleansing contaminated surfaces using liq. - includes cylindrical housing with high pressure injection nozzle for feed liq., overflow, concentrically arranged sepg. walls and sieve - Google Patents

Abstract

An arrangement includes a cylindrical housing with a high pressure injection nozzle for feeding in the cleansing liq., an overflow for the liq., concentrically arranged cylindrical sepg. walls, and a sieve unit. The sepg. walls are sealed to the floor of the housing, and have increasing axial length as one move radially inwards. Classifying chambers are formed between the walls. USE/ADVANTAGE - Used for cleansing contaminated surfaces by using a liq. and then for removing the contaminants from the cleansing liq. The arrangement is compact and reliable.

Description

The invention relates to a device for cleaning contaminated soils of adhering pollutants in solid or liquid form and for the subsequent separation of the solid Soil grain proportions of the cleaning liquid and those in it dissolved and / or suspended pollutants.

When cleaning contaminated floors, the task is polluted soils from adhering pollutants in solid and liquid form and then a separation of the solid soil particles from the washing liquid and in it dissolved or suspended pollutants. For the Washing the floor are different methods of energy input known in a soil-water mixture. The solid-liquid separation the resulting slurries of soil in water or other cleaning fluids are usually known with procedural methods, such as cycloning, sieving, on electricity sorting and drainage performed.

The invention has for its object a direction of the type described above for cleaning contaminated soils and for the subsequent separation of the solid floor grain shares from the cleaning liquid and the To create pollutants in a particularly compact construction as early as possible a separation of the fine and very fine proportions of the slurry and thus a high Separation efficiency achieved.  

The solution to this problem by the invention is characterized by a cylindrical housing at least one essentially tangentially oriented high pressure injection nozzle for introducing the washing liquid, with at least one overflow for the excess, with the damaging substances loaded washing liquid and concentric with several arranged in the housing, sealed to the bottom of the housing connected cylindrical partitions, one from the outer to the inner partition gradually increasing axial length stretch and ring-shaped classification chambers between them for those set in rotation by the high pressure injection nozzle and thus form soil grains subjected to centrifugal forces, with at least one deduction in the bottom of each classification chamber opening for those who settle on the floor, through those with high Pressure was applied with washing liquid cleaned Soil grains are arranged.

That brought into the device according to the invention contaminated material gets into a circular flow, the inner half of the cylindrical housing by initiating the wash liquid by means of at least one tangentially aligned High pressure injection nozzle is generated. This is what happens here contaminated material multiple times the high pressure injection nozzle, which due to the blasting effect of the cleaning liquid Soil grains mechanically from the adhering pollutants be cleaned. Those in solid or liquid form Pollutants are dissolved in the washing liquid and / or suspended. At the same time, the soil material that is detected by the circular flow, ver in a rotary motion sets so that centrifugal forces act on the soil grains depend on the grain size except for the size of the rotary motion. Here, larger and heavier soil grains within the cylindrical housing shipped more to the outside than lighter particles. With the rotary motion is this way  at the same time a classification process is connected through which different sized and heavy soil grains in different classification chambers, which by the Cylindrical partition walls arranged concentrically in the housing be formed. The larger soil grains settle in here the outer annular classification chambers, the finer bottom grains in the classification chambers near the center of the cylindrical Housing. Via the ones arranged in the bottom of each classification chamber The cleaned soil grains are discharged, which can then be further processed. The cleaning liquid loaded with pollutants is over deducted the overflow and after separation from the Reuse pollutants for recycling in the cleaning process be applied.

The invention thus becomes a compact cleaning and Classifying device created, the process steps Washing and separating sensibly combined and by the early early separation of fine and very fine fractions from the up slurry achieved a high separation efficiency.

According to a further feature of the invention, the edge area of the housing a feeder projecting into the housing from above pipe for the contaminated soil to be arranged for The middle of the housing is shielded by a baffle that is attached to the cylindrical housing wall begins and in the direction of rotation ends behind the feed pipe at a distance from the housing wall. Here this results in a simple supply of the contaminated soil without adversely affecting itself in the cylindrical housing forming rotational flow.

The overflow of the device according to the invention is preferred formed as a central overflow pipe that above the neighboring beard innermost partition and in the area of the baffle flows. Any fume cupboard located in the bottom of a classification chamber  Opening for the soil grains can be a Ent watering and / or screening device are connected.

Finally, the invention proposes to increase the cleaning effect and / or to stabilize the rotation flow several high-pressure injection nozzles over the circumference and / or to be distributed in the height of the housing.

In addition to the general application for cleaning and Classification of contaminated soils is the one according to the invention Device also suitable for washing and separating gift for particularly fine-grained floors and also Residual sludges from the floor wash after cleaning undergo direct classification. With appropriate Bentonite suspensions, the with sandy and gritty excavated material from the Diaphragm wall technology are loaded, classified.

In the drawing is an embodiment of the fiction shown schematically, namely:

Fig. 1 shows a vertical section through the device and

Fig. 2 shows a horizontal section through the device according to the section line II-II in FIG. 1.

The schematic representation of the device in FIGS. 1 and 2, of which the vertical section in FIG. 1 results from section line II in FIG. 2, shows a cylindrical housing 1 , which has an annular cover on its upper side at least in the edge region 2 is provided and the bottom 3 is provided in the embodiment with two cylindrical partitions 4 a and 4 b. These partitions 4 a and 4 b form annular classification chambers 5 a, 5 b and 5 c, the axial extent of which is different due to the different height of the partitions 4 a and 4 b. As can be seen in FIG. 1, the partition walls 4 a and 4 b which are connected to the bottom 3 in a sealed manner are of different lengths; while the partition 4 a has an axial extent of about 1/4 of the height of the housing 1 , the partition 4 b has a length of about 1/2 of the housing height.

Centrally located in the housing 1, an overflow tube 6 is arranged, which extends to about 3/4 of the housing height. 1 In the bottom of each classifying chamber 5 a, 5 b and 5 c and on the underside of the overflow pipe 6 , a discharge opening 7 is formed in the exemplary embodiment, which is followed by a valve 8 .

In the edge region, the housing 1 is provided with a feed tube 9 projecting into the housing 1 , onto which a funnel 10 for the contaminated soil is placed. To the interior of the housing, this feed pipe 9 is shielded by a baffle 11 which extends downward beyond the lower opening of the feed pipe 9 and begins at one end on the cylindrical housing wall and ends at a distance from the housing wall, as is particularly the case in FIG . 2 can be seen.

Figs. 1 and 2, finally, show the arrangement of multiple high pressure injection nozzle 12, are joined is a in the drawing only indicated ring line 13 for the supply of the washing liquid. Water, also with the addition of solubilizers and conditioning chemicals, or another cleaning liquid can be used as the washing liquid.

Finally, it is possible to add the cleaning liquid temper.

The soil contaminated with pollutants in solid or liquid form is given to the feed hopper 10 , it being possible according to FIG. 1 to maintain a liquid in the feed hopper 10 which ensures a continuous addition of the soil. From the feed hopper 10 , the contaminated soil passes through the feed pipe 9 into the area separated by the guide plate 11 from the interior of the housing. In this area, the contaminated soil grains are exposed to the jet effect of the high-pressure injection nozzles 12 , through which washing liquid is introduced into the housing 1 at high pressure. The washing liquid accordingly effects a mechanical cleaning of the soil grains provided with pollutants. At the same time, the soil grains are set in a rotary movement with the washing liquid, which is indicated in FIG. 2 by the arrows. The Fig. 2 also shows that on the supply pipe 9 opposite side of the housing 1, a further high-pressure injection nozzle 12 may be arranged, which develops an extra cleaning effect in addition to a reinforcement of the rotational flow. The tangentially oriented high-pressure injection nozzles 12 are accordingly distributed over both the circumference and the height of the housing 1 Ge. The pressure of the cleaning liquid introduced through the high-pressure injection nozzles 12 into the housing 1 can be adjusted and, if necessary, regulated in order to achieve the required cleaning effect and speed of the rotational flow.

Due to the rotary movement of the soil grains cleaned of the pollutants, these centrifugal forces are subjected, which cause the soil grains to be displaced in the direction of the cylindrical outer wall of the housing 1 . Here, larger and heavier soil grains are transported to the outside more than lighter and smaller soil grains. Since a settling process sets in with this radial displacement at the same time, the soil grains reach, according to their size and weight, the different classification chambers 5 a, 5 b and 5 c, which are formed by the partitions 4 a and 4 b. Of course, it is possible to provide more than two such partition walls 4 a and 4 b and accordingly to form a larger number of classifying chambers 5 a, 5 b and 5 c.

Due to the displacement of the soil bodies caused by the centrifugal forces and the settling process which begins at the same time, a classification takes place immediately after the mechanical tearing process due to the jet effect of the high-pressure injection nozzles 12 , so that the heavier soil grains into the outer classification chamber 5 a and the lighter soil grains into the inner layer Classification chambers 5 b and 5 c arrive. The soil grains gradually settle within the classification chambers 5 a, 5 b and 5 c on the floor, from where they are withdrawn through the respective extraction opening 7 . In contrast to the drawing, a plurality of discharge openings 7 can also be provided in the classifying chambers 5 a, 5 b and 5 c. The valves 8 connected downstream of the discharge openings 7 are preferably controllable in order to achieve a continuous discharge of the respective grain fraction. The extracted soil particles can then be sent for further treatment.

The cleaning liquid loaded with the pollutants is drawn off through the central overflow pipe 6 . Through the assigned discharge opening 7 , the cleaning liquid with the dissolved and / or suspended pollutants in a downstream device in which the pollutants can be separated from the cleaning liquid so that there is the possibility of returning the cleaning liquid back into the process.

Reference symbol list

1 housing
2 lids
3 floor
4 a partition
4 b partition
5 a classification chamber
5 b classification chamber
5 c classification chamber
6 overflow pipe
7 trigger opening
8 valve
9 feed pipe
10 feed hoppers
11 baffle
12 high pressure injection nozzle
13 loop

Claims (5)

1. Device for cleaning contaminated soils from adhering pollutants in solid or liquid form and for the subsequent separation of the solid soil particles from the cleaning liquid and the dissolved and / or suspended pollutants therein, characterized by a cylindrical housing ( 1 ) with at least one essentially Tangentially aligned high-pressure injection nozzle ( 12 ) for introducing the washing liquid, with at least one overflow ( 6 ) for the excess washing liquid loaded with the pollutants and with several concentrically arranged in the housing ( 1 ), with the bottom ( 3 ) of the housing ( 1 ) Sealed connected cylindrical partition walls ( 4 a, 4 b), which have a gradually increasing axial longitudinal extension from the outer to the inner partition wall ( 4 a, 4 b) and annular classification chambers ( 5 a, 5 b, 5 c) between them for the rotation caused by the high pressure injection nozzle ( 12 ) and thus Z Form entifugal forces under thrown soil grains, wherein in the bottom of each classifying chamber ( 5 a, 5 b, 5 c) at least one discharge opening ( 7 ) is arranged for the sedimenting on the floor, cleaned by the high pressure applied with washing liquid soil grains. 2. Device according to claim 1, characterized in that in the edge region of the housing ( 1 ) from above into the housing ( 1 ) projecting feed pipe ( 9 ) for the contaminated soil is arranged, which is shielded from the middle of the housing by a baffle ( 11 ) , which begins at the cylindrical housing wall and ends in the direction of rotation behind the feed pipe ( 9 ) at a distance from the housing wall. 3. Apparatus according to claim 1 or 2, characterized in that the overflow is designed as a central overflow pipe ( 6 ) which opens above the adjacent innermost partition ( 4 b) and in the region of the guide plate ( 11 ). 4. The device according to at least one of claims 1 to 3, characterized in that each at the bottom of a classifying chamber ( 5 a, 5 b, 5 c) arranged discharge opening ( 7 ) for the soil grains is followed by a drainage and / or screening device. 5. The device according to at least one of claims 1 to 4, characterized in that a plurality of high-pressure injection nozzles ( 12 ) are arranged distributed over the circumference and / or in the height of the housing ( 1 ).