NL1039549C2 - DEVICE AND METHOD FOR PROCESSING WASTE WATER. - Google Patents

Description

DEVICE AND METHOD FOR PROCESSING WASTE WATER

A first aspect of the invention relates to a device for processing waste water, in particular waste water which, because of the recently tightened laws and regulations, is unsuitable for discharge via the sewer, such as the publicly accessible sewer or the municipal sewer. This type of waste water is formed by waste water from hospitals, industries, parking garages, gas stations, and locations where strong contaminants and substances are included in waste liquid that cannot be discharged into the sewer as waste water.

A second aspect of the invention relates to a method for processing waste water, in particular of the above-mentioned waste water.

In the past, such waste water was drained through the sewer, as a result of which the waste water ended up in a sewage treatment plant. Such sewage treatment plants comprise: - a flotation device for resting the waste water, which flotation device is adapted to obtain residual water from the waste water by separating a first medium present in the waste water that has a smaller specific gravity than water and by separating a second medium present in the waste water that has a greater specific gravity than water, a sludge dewatering device for receiving the second medium, which sludge dewatering device is adapted to at least partially separate the second medium into sludge, and in first residual water. In the sewage treatment plant the flotation device and the sludge dewatering device are included in a fluid communication, such that the sludge dewatering device is situated downstream of the flotation device.

The flotation device of the sewage treatment plant is generally designed as a reservoir with a relatively large surface area of sewage water to be purified, which reservoir is adapted to pre-settle the supplied sewage water to be purified. Over time a sludge deposit forms on a bottom of the reservoir which is pumped away to the sludge dewatering device for at least partially separating the second medium into sludge and into first residual water.

It is a disadvantage of the waste water processing device because of the size of the flotation device that the purification of waste water is based on the time-consuming settling of sand and sludge, and that the sludge extracted by the sludge dewatering device is relatively much water. Moreover, in the processing of waste water provided with said strong impurities, the efficiency of the known sewage treatment plant deteriorates inacceptably.

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It is an object of the invention to provide a device for processing waste water on a smaller processing surface, with which the sludge can be separated from the waste water in an efficient manner.

To this end, the device according to a first aspect of the invention is characterized in that the device for processing waste water comprises: a storage device for collecting the waste water, a sludge dewatering device for receiving the waste water, which sludge dewatering device is adapted for at least partially separating the waste water in sludge and in first residual water, a flotation device for receiving the first residual water, which flotation device is adapted to obtain second residual water from the first residual water by separating a first medium present in the first residual water, which has a smaller specific gravity than water, and by separating a second medium present in the first residual water, which has a greater specific gravity than water, in which the storage device, the sludge dewatering device, and the flotation device be included in a fluid connection such that the sludge develops device is located downstream of the storage device, and that the flotation device is located downstream of the sludge dewatering device.

This makes it possible to process waste water that is provided with sludge and / or sludge particles, whereby the sludge and / or the sludge particles are first at least partially extracted from the waste water by means of the sludge dewatering device, wherein the first residual water is brought to the flotation device for separating substances present in the first residual water on the basis of differences in the similar weight of particles present in the first residual water. Thus, in the flotation device, the first medium present in the first residual water, such as oils and fats, floats to the top, and the second medium present in the first residual water, such as sludge, sinks to the bottom of the flotation device. By placing the sludge dewatering device downstream between the storage device and the flotation device, a less silent supply of waste water is possible to the flotation device, so that the flotation device achieves an improved quality of the second residual water faster and more efficiently, which second residual water, for example is suitable for discharge to a sewer.

In one embodiment, the fluid connection comprises a first guiding device for guiding the waste water from the storage device to the sludge dewatering device, in which a first feed ends up on the first guiding device for supplying first flaking means. This makes it possible to capture floating sludge particles present in the waste water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the waste water by the dewatering device, whereby a sludge is available which has an increased dry matter content.

In one embodiment, the fluid connection comprises a second guiding device for guiding the first residual water from the sludge dewatering device to the flotation device, in which a second feed ends up on the second guiding device for supplying second flaking means. This makes it possible to capture floating sludge particles present in the first residual water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the first residual water by flotation and / or by settling, so that a sludge is available which has a has an increased dry matter content.

In one embodiment, the flotation device is provided with means for skimming the first medium, and a first outlet for discharging the first medium skimmed by the means. This makes it possible to separate the first medium as an upper layer from the first residual water present in the flotation device, in which upper layer oils and fats have accumulated.

In one embodiment, a third guiding device is provided for guiding the first medium discharged via the first discharge, into which the third guiding device flows into the first guiding device on a part extending between the storage device and the first feed. This makes it possible to discharge the first medium, in which mainly oils and fats are present, from the flotation device and to feed it to the first guiding device for further processing, such as passing through the sludge dewatering device for discharging the waste water. separating solids, leaving the fats in the sludge.

In one embodiment, the flotation device is provided with a second discharge for discharging the second medium settled in the flotation device. This makes it possible to separate the second medium as a bottom layer from the first residual water present in the flotation device, in which bottom layer substantially accumulated sludge.

In one embodiment, a first collection device can be placed for receiving sludge dewatered by the sludge dewatering device, and / or a second collection device is placed for receiving the first residual water separated by the sludge dewatering device. This makes it possible to discharge the sludge with an increased dry matter content by means of the first collection device to an installation for processing sludge, such as an installation for producing biogases and / or for generating electricity. The second collection device 4 is adapted to receive and feed the first residual water for further processing.

In one embodiment, an oblique wall is placed in the second collecting device for guiding a third medium present in the first residual water, which medium has a greater specific gravity than water, in which the oblique wall extends downwardly during use to a device arranged in the second collecting device third outlet for discharging the third medium. This makes it possible to achieve a coarse separation of the first residual water, whereby the third medium comprising particles present in the first residual water with a density greater than water, such as slip particles, falls through to a lower part of the second collection device. The remaining part of the first residual water is located in a higher part of the second collection device.

In one embodiment, a fourth guiding device is provided for guiding the second medium discharged via the second discharge and / or for guiding the third medium discharged via the third discharge, wherein the fourth guiding device flows into a feed terminating in the storage device. . This makes it possible to discharge the second and third medium, in which mainly sludge is present, and to feed it to the first guiding device for further processing, such as passing through the storage device for mixing with what is present in the storage device. waste water, and subsequently passing through the sludge dewatering device for separating solids from the waste water, the second and / or third medium remaining in the sludge.

In one embodiment, the device comprises a landfill for receiving the waste water, in which the landfill is included in the fluid connection, such that the storage device is downstream of the landfill. This makes it possible to place a means of transport provided with a tank in which new waste water is present, such as a tank truck, close to the dump, in such a way that the waste water that is present in the tank can be dumped into the dump. The waste water from the landfill forms a supply of the new waste water to the storage device.

In one embodiment, the sludge dewatering device is formed by a sieve belt press, and / or in which the storage device is substantially elongated, which storage device is arranged substantially vertically during use, such that a center line of the storage device, which center line extends in the longitudinal direction of the storage device, is substantially vertically oriented during use, and / or in which the storage device is provided with a mixing device for mixing the waste water present in the storage device, and / or in which the storage device is provided with an outlet which is directed downwards during use is for draining waste water. This makes it possible to press sludge with an increased solids content from the wastewater treated in one embodiment with the first flocculant agent by pressing and / or pressing a first band and a second band between which the sludge is dewatered. can become. The elongated upright storage device occupies a small surface area of the space on which the device according to the invention can be placed. Because the storage device is provided with a mixing device, the waste water present in the storage device is miscible, whereby, for example, the outlet of the outlet is blocked.

According to a second aspect of the invention, the method for processing waste water is characterized in that the method comprises successive steps of: collecting the waste water in a storage device, feeding the waste water from the storage device to a sludge dewatering device, separating the waste water in sludge and in first residual water by means of the sludge dewatering device, feeding the first residual water to a flotation device, separating a first medium 20 present in the first residual water that has a smaller specific gravity than water, and the separating a second medium present in the first residual water which has a greater specific gravity than water, whereby second residual water is obtained from the first residual water. This makes it possible to process waste water that is provided with sludge and / or sludge particles, whereby the sludge and / or the sludge particles are first at least partially extracted from the waste water by means of the sludge dewatering device, wherein the first residual water is brought to the flotation device is used for separating substances present in the first residual water on the basis of differences in the similar weight of particles present in the first residual water. Thus, in the flotation device, the first medium present in the first residual water, such as oils and fats, floats to the top, and the second medium present in the first residual water, such as sludge, sinks to the bottom of the flotation device. By first dewatering the sludge and then feeding the first residual water to the flotation device, a less silent supply of waste water to the flotation device becomes possible, so that the flotation device achieves an improved quality of the second residual water faster and more efficiently, second residual water 35 is suitable for discharge to a sewer, for example.

In one embodiment, feeding the waste water from the storage device to the sludge dewatering device comprises: feeding essentially all the waste water present in the storage device. This makes it possible to process a supplied amount of waste water as a batch, after which the storage device can be made ready for a subsequent supply of waste water that can be processed independently of the previously processed waste water.

In one embodiment, the supply of the waste water from the storage device to a sludge dewatering device continues until the storage device is at least substantially emptied. This makes it possible to batch process a quantity of waste water supplied until all the waste water has been processed, after which a yield can be determined, such as the quantity of sludge, the dry matter content of the sludge, and the number of cubic meters discharged to the sewer amount of second residual water.

In one embodiment, during the transport of the waste water to the sludge dewatering device, first flake means are added to the waste water supplied to the sludge dewatering device. This makes it possible to capture floating sludge particles present in the waste water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the waste water by the dewatering device, whereby a sludge is available which has an increased dry matter content.

In one embodiment, during feeding of the first residual water to the flotation device, a means for suppressing foaming, and / or second flocculants is / are added to the first residual water supplied to the flotation device. This makes it possible to capture floating sludge particles present in the first residual water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the first residual water by flotation and / or by settling, so that a sludge is available which is a has an increased dry matter content.

In one embodiment, sludge present in the first residual water is returned to the storage device, and / or wherein sludge formed in the flotation device is returned to the storage device. This makes it possible to discharge the second and third medium, in which mainly sludge is present, and to feed it to the first guiding device for further processing, such as passing through the storage device for mixing with the waste water present in the storage device and subsequently passing through the sludge dewatering device for separating solids from the waste water, the second and / or third medium remaining in the sludge.

The invention will now be described in more detail with reference to a single embodiment with reference to the figures. Shown is:

Figure 1 shows a diagram of the operation of the device according to the invention, in which a landfill, a storage device, a sludge dewatering device, and a flotation device are included, and a pipework that forms a fluid connection for transporting waste water and processed waste water.

Figure 2 is a schematic representation of a sludge dewatering device according to Figure 1, in particular a sieve belt press,

Figures 3 and 4 show a perspective view and a side view, respectively, of a flotation device according to Figure 1.

In all figures, the same reference numerals indicate the same parts. Figure 1 shows a device 1 according to the invention, which device 1 is adapted for processing waste water, and in particular for processing waste water comprising strong contaminants, and / or wherein substances are included in a waste liquid that are not included as waste water in the sewer may be discharged. Instead, at locations where the waste water is produced, the waste water is collected and saved, for example, in a well (not shown) until the quantity is sufficient to be transported for economic reasons, for example by means of a truck (not shown) provided with a tank and a tank device for loading the waste water from the well into the tank on the truck.

After the truck, whose tank is filled with the waste water, has arrived at the landfill 10 of the device 1 according to the invention, the discharge of the waste water present in the tank of the truck is possible by means of a deposit 100, wherein the waste water in the landfill 10 ends up. Coarse solid parts present in the waste water are removed from the landfill 10 in a known manner by means of a conveyor belt provided with beams. The waste water present in the landfill 10 is then fed to a storage device 2, which storage device 2 in this example comprises a first and a second storage element 21, 25. The waste water is supplied to the storage device 2 from above, wherein in this example the waste water can be transported to the supply by means of a pump 11 and via a guide element 15.

As soon as the device is put into operation, a first valve 21, 26 can be operated for transporting the waste water through a first guiding device 23 to the sludge dewatering device 3, which in this example is drivable by means of a further pump 22, 27. The first guiding device 23 comprises a round tube, such as a pipe for transporting liquids and suspensions, and is preferably made of steel, such as a stainless steel.

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The storage device 2, 20, 25 is substantially elongated and extends substantially vertically during use. The storage device has a center line which extends in the longitudinal direction of the storage device. During use, the center line is oriented substantially vertically, the storage device taking up a very small ground surface during use.

The storage device 2, 20, 25 is provided with a mixing device 24, 29 for mixing the waste water present in the storage device 2, 20, 25. The mixing device 24, 29 extends with a rudder into the storage device 2, 20, 25 for mixing the waste water present in the storage device, whereby for instance the plugging of an outlet to be opened by means of the first valve 21 is prevented.

The first guiding device 23 opens into a sludge dewatering device 3. In this example, the sludge dewatering device 3 is formed by a sieve belt press 3 shown in Fig. 2, which is commercially available for dewatering suspensions. In this case, waste water supplied via the screen belt press 3 is at least partially separated into sludge 200, and into first residual water 300, wherein the sludge 200 leaves the screen belt press 3 via a first outlet 31, and wherein the first residual water 300 leaves the screen belt press 3 via a second outlet 36.

The screen belt press 3 is a device provided with a first belt 301 and a second belt 302 that are endless, permeable to water, and wound along a series of juxtaposed drums for a partial enclosure, the first and second belt 301 302 have an at least partially overlapping path with the first and second bands 301, 302 pressed on each other.

The screen belt press 3 has a part in which the first and the second belt 301, 302 are not pressed against each other, and in which the first and the second belt 301, 302 are placed at an angle with respect to each other, such that a trough 39 has been formed which is intended for supplying a suspension, such as sludge-containing waste water, that, once arrived in a part of the screen belt press 3 in which the first and the second belt 301, 302 are pressed against each other, is at least partially dewatered by expression of the water, with solid particles, such as sludge particles, remaining in between the first and the second belt 301,302.

The sieve belt press 3 has a further part in which the first and the second belt 301, 302 release each other, whereby dewatered sludge is released between the first and the second belt 301, 302 and upon reversal of the course of the first and / or second belt gravitation via the first outlet 31 in a first collecting device 32. In this example, the first collecting device 32 is releasable for loading onto, for example, a truck, so that the first collecting device can be discharged directly by means of transport 201.

In this example, a second collecting device 37 is placed under the second outlet 36 of the screen belt press 3 for receiving the first residual water separated by the screen belt press 3 for further processing.

On the first guiding device 23 a first feed 50 opens for supplying first flaking means, which first flaking means form a flocculant and come separately from tanks 51, 52, and a first production device 61, 62. In this example, the first feed 50 is adapted to separately supply to the first guiding device 23 sodium hydroxide stored in tank 51, iron chloride and / or aluminum chloride stored in tank 52, and / or polymer produced in the first production device 61,62. This makes it possible to capture floating sludge particles present in the waste water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the waste water by the dewatering device 3, whereby a sludge is available which has an increased dry matter content .

In this example, the second collecting device 37 is provided with an inclined wall 38 for guiding a third medium 330 present in the first residual water 300, which medium has a greater specific gravity than water, in which the inclined wall 38, during use, extends downwards to a third drain 30 for discharging the third medium 330 arranged in the second collecting device 37. This makes it possible to achieve a coarse separation of the first residual water 300, the third medium 330 comprising particles present in the first residual water 300 having a larger density than water, such as slip particles, when falling through on the sloping wall to a lower part of the second collecting device 37. The remaining part of the first residual water 300 is located in a higher part of the second collecting device 37, in which part there are substantially fewer particles such as sludge. An inlet of a second guide device 40 extends into the higher part of the second receiving device 37.

The second guiding device 40 is adapted to guide the first residual water 300 from the screen belt press 3 to a downstream flotation device 4, of which a commercially available illustration is included in Figure 3. The flotation device 4 is a device known per se and used in the device 1 according to the invention for receiving the first residual water 300, and for obtaining second residual water 400 from the first residual water 300 by separating one in the first residual water 300 present first medium 310 which has a smaller specific gravity than water, and by separating a second medium 320 present in the first residual water 300 which has a greater specific gravity than water.

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On the second guide device 40 a second feed 60 opens for supplying second flaking means, which second flaking means form a further flocculant and separately come from tanks 56, 57, 58, and a second production device 66, 67. In this example the second feed 60 adapted for separately supplying to the second guiding device 40 a means for suppressing foaming stored in tank 56, sodium hydroxide stored in tank 57, iron chloride and / or aluminum chloride stored in tank 58, and / or in the second make-up device 66, 67, polymer. This makes it possible to capture floating sludge particles present in the waste water by forming a flake around the floating particle, wherein the flake-shaped sludge particle can be separated from the waste water by the flotation device 4, whereby ultimately a sludge is obtained that has an increased dryness. substance content.

The flotation device 4 is provided with means 45 for skimming the first medium 310, which mainly comprises fats and / or oils and which floats on the second residual water 400 present in the flotation device 4 due to a lower density.

In this example, said means 45 are arranged on top of the flotation device 4 and said means 45 comprise an endless belt which is arranged so as to be movable by means of a drive wheel and a guide wheel arranged at a distance from the drive wheel. Arranged on the belt are a series of scrapers 46 extending transversely to the conveying direction, an end of the scrapers 46 facing the flotation device 4 extending downwards such that when the belt is moved the first medium is moved to the trough 44.

The flotation device 4 is provided with an overflow edge, not shown, such as a threshold, over which the first medium 310 flows under the influence of a supply of the first residual water 300 to the flotation device 4, after which the first medium 310 flows into a trough 44 arrives for further discharge via a first discharge 41.

This makes it possible to separate the first medium 310 as an upper layer from the first residual water present in the flotation device 4, in which upper layer 310 oils and fats have accumulated.

The flotation device 4 is provided with a second drain 42 for discharging the second medium 320 settled in the flotation device 4. Near the bottom of the flotation device 4 a displacement means 430 is arranged for moving to the second drain 42. pushing away the settled second medium 320. In this example, the displacement means 430 is a screw 430 which is rotatably arranged around a shaft 43 by means of drive means 432. This makes it possible to separate the second medium 320 as a lower layer 320 from the second residual water 400 present in the flotation device 4, which lower layer 320 essentially comprises sludge.

The first outlet 41 opens into a first intermediate reservoir 7 into which, in this example, an inlet of a third guide device 70 opens. An outlet of the third guide device 70 remote from the inlet opens onto the first guide device 23 on a part extending between the storage device 2, 20, 25 and the first feed 50. This makes it possible to discharge the first medium 310, in which there are mainly oils and fats, from the flotation device 4 and to feed it to the first guiding device 23 for further processing, such as passing through the screen belt press 3 for separating solids from the waste water 100, the fats remaining in the sludge 200 and ending up in the first collecting device 32.

The second and third discharge 42, 30 open into a second intermediate reservoir 8 in which, in this example, an inlet of a fourth guiding device 80 protrudes. An outlet of the fourth guide device 80 remote from the inlet opens into a feed terminating in the storage device 2, 20, 25. This makes it possible to feed the second medium 320, which mainly contains sludge from the flotation device 4, and the third medium 330 from the second collection device 37, to the first guide device 23 for further processing, wherein it is miscible in the storage device 2, 20, 25, and wherein it can be passed through the sieve belt press 3 for separating solids from the waste water 100, the fats remaining in the sludge 200 and in the first receiving device 32.

In summary, the device 1 according to the invention is provided with a storage device 2, 20, 25 for collecting the waste water 100, a sludge dewatering device 3 for receiving the waste water 100, which sludge dewatering device 3 is adapted for at least partially separating the waste water 100 in sludge 200, and in first residual water 300, and a flotation device 4, in which the storage device 2, 20, 25, the sludge dewatering device 3, and the flotation device 4 are included in a fluid connection, such that the sludge dewatering device 3 is located downstream relative to the storage device 2, 20, 25, and that the flotation device 4 is located downstream relative to the sludge dewatering device 3. This makes it possible to process waste water 100 that is provided with sludge 200 and / or sludge particles 200 on a small surface area faster and more efficiently, whereby the quality of the second residual water is suitable for discharge to a sewer 500.

The landfill 10 for receiving the waste water 100 from the device 1 according to the invention is included in the fluid connection, such that the storage device 2, 20, 25 is situated downstream of the landfill 10.

With the device 1 a method for processing waste water 100 becomes possible, comprising successive steps of: collecting the waste water 100 in a storage device 2, 20, 25, 5 - feeding the waste water 100 from the storage device 2, 20, 25, to a sludge dewatering device 3, separating the waste water 100 in sludge 200 and into first residual water 300 by means of the sludge dewatering device 3, feeding the first residual water 300 to a flotation device 4, 10 - separating one in the first residual water 400 first medium 310 present that has a smaller specific gravity than water, and separating a second medium 320 present in the first residual water 300 which has a greater specific gravity than water, whereby second residual water is obtained from the first residual water.

In particular, feeding the waste water 100 from the storage device 2, 20, 25 to the sludge dewatering device 3 comprises feeding essentially all of the waste water 100 present in the storage device 2, 20, 25, the method being aimed at to have processed in sludge dewatering device 3 in dumped waste water 100. Feeding the waste water 100 from the storage device 2, 20, 25 to a sludge dewatering device 3 continues until the storage device 2, 20, 25 is at least substantially emptied.

In order to improve the efficiency of the sludge dewatering device 3 and to considerably increase the dry matter content of the sludge 200 to be separated, first flocculants are added to the waste water supplied to the sludge dewatering device 3 during the transport of the waste water 100 to the sludge dewatering device 3. 100.

In order to improve the efficiency of the flotation device 4, during feeding of the first residual water 300 to the flotation device 4, a means for suppressing foaming, and / or second flocculants are added to the flotation device 4 first residual water to be supplied 300.

To further obtain a high yield of separated sludge 200, sludge present in the first residual water 300 is returned to the storage device 2, 20, 25, and / or sludge formed in the flotation device 4 is returned to the storage device 2, 20, 25.

The invention is of course not limited to the described and shown preferred embodiment, but extends to any embodiment that falls within the scope of the scope of protection, as defined in the claims and viewed in the light of the foregoing description and accompanying drawings.

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Claims (17)

Device for processing waste water, comprising: a storage device for collecting the waste water, 5. a sludge dewatering device for receiving the waste water, which sludge dewatering device is adapted for at least partially separating the waste water into sludge, and in first residual water, a flotation device for receiving the first residual water, which flotation device is adapted to obtain second residual water from the first residual water by separating a first medium present in the first residual water that has a smaller specific gravity than water, and by separating a second medium present in the first residual water which has a greater specific gravity than water, in which the storage device, the sludge dewatering device, and the flotation device 15 are incorporated in a fluid communication, such that the sludge dewatering device is situated downstream of from the storage facility, and that the flotation device is downstream of the sludge dewatering device. 2. Device as claimed in claim 1, wherein the fluid connection comprises a first guiding device for guiding the waste water from the storage device to the sludge dewatering device, wherein on the first guiding device a first feed opens for supplying first flaking means. 3. Device as claimed in claim 1 or 2, wherein the fluid connection comprises a second guiding device for guiding the first residual water from the sludge dewatering device to the flotation device, wherein a second feed opens onto the second guiding device for supplying second flaking means. Device as claimed in any of the foregoing claims, wherein the flotation device is provided with means for skimming the first medium and a first discharge for discharging the first medium skimmed by the means. 5. Device as claimed in claim 4, wherein a third guiding device 35 is arranged for guiding the first medium discharged via the first discharge, wherein the third guiding device ends in the first guiding device on a part extending between the storage device and the first feed. 1 o? 95 49 Device as claimed in claim 5, wherein the flotation device is provided with a second discharge for discharging the second medium settled in the flotation device. 5 7. Device as claimed in any of the foregoing claims, wherein a first collection device can be placed for receiving sludge dewatered by the sludge dewatering device, and / or wherein a second collection device is placed for receiving the first residual water separated by the sludge dewatering device. 10 Device as claimed in claim 7, wherein an inclined wall is placed in the second collecting device for guiding a third medium present in the first residual water which has a greater specific gravity than water, wherein the inclined wall during use extends downwards to a third drain arranged in second collecting device 15 for discharging the third medium. 9. Device as claimed in claim 8, wherein a fourth guiding device is arranged for guiding the second medium discharged via the second discharge and / or for guiding the third medium discharged via the third discharge, wherein the fourth guiding device terminates in a feed leading to the storage device. 10. Device as claimed in any of the foregoing claims, further comprising a landfill for receiving the waste water, wherein the landfill is included in the fluid connection, such that the storage device is situated downstream of the landfill. 11. Device as claimed in any of the foregoing claims, wherein the sludge dewatering device is formed by a sieve belt press, and / or wherein the storage device is substantially elongated, which storage device is arranged substantially vertically during use, such that a center line of the storage device, center line extends in the longitudinal direction of the storage device, is substantially vertically oriented during use, and / or in which the storage device is provided with a mixing device for mixing the waste water present in the storage device, and / or in which the storage device is provided with an outlet which, during use, is directed downwards for discharging the waste water. 12. Method for processing waste water, comprising successive steps of: collecting the waste water in a storage device, feeding the waste water from the storage device to a sludge dewatering device, separating the waste water into sludge and into first residual water by means of the sludge dewatering device feeding the first residual water to a flotation device, separating a first medium present in the first residual water, which has a smaller specific gravity than water, and separating a second medium present in the first residual water, which has a larger specific gravity then has a weight of water, whereby second residual water is obtained from the first residual water. 13. Method as claimed in claim 12, wherein feeding the waste water from the storage device to the sludge dewatering device comprises feeding substantially all of the waste water present in the storage device. 14. Method according to claim 12, wherein the feeding of the waste water from the storage device to a sludge dewatering device continues until the storage device is at least substantially emptied. A method according to claim 12, 13 or 14, wherein during feeding of the waste water to the sludge dewatering device first flake means are added to the waste water supplied to the sludge dewatering device. 25 A method according to any of claims 12-15, wherein during feeding of the first residual water to the flotation device, a means for suppressing foaming, and / or second flocculants are added to the first residual water supplied to the flotation device . 30 A method according to any of claims 12-16, wherein sludge present in the first residual water is returned to the storage device, and / or wherein sludge formed in the flotation device is returned to the storage device. 1039549