NL1022350C2 - Separation device, especially for removing insoluble inorganic material from water, contains spaced apart upper and lower plates connected via parallel partitions to form flow channels - Google Patents

Abstract

Flow channels are formed by an arrangement of separate stackable elements each comprising an upper plate and lower plate connected via parallel partitions. A separation device (1) for removing insoluble components from a liquid comprises a casing (2) with an inlet and an outlet, an arrangement of spaced parallel plates (3) between the inlet and outlet, a means (4) for supplying the liquid to the casing and a means for removing the insoluble components and purified liquid. The casing is oriented at a non-horizontal angle. The plate arrangement comprises separate stackable elements, each one comprising an upper plate and lower plate connected via parallel partitions which combine with the plates to form separate parallel flow channels for the liquid.

Description

Brief indication: Device for separating insoluble components from a liquid.

The present invention relates to the separation of insoluble components from a liquid, which device consists essentially of a housing with inlet and outlet opening, and a package of spaced apart parallel plates arranged between said inlet and outlet opening, which housing makes a certain angle with the horizontal, and means for supplying the liquid to the housing, as well as discharging the insoluble components and cleaned liquid. Furthermore, the present invention relates to the use of such a device for separating insoluble components from a liquid.

The device mentioned in the preamble is known per se from US Patent No. 4,681,683, wherein the slat package known therefrom is built up from separate plates provided with spacers for forming flow channels. As a result of such spacers, the weight of the total installation will increase considerably. Moreover, such a construction of spacers 20 has an adverse effect on the cost price.

A similar device is also known from the German Offenlegungsschrift DE 43 29 239, wherein the flow channels are formed by stacking loose plates in a special way, wherein spacers are also required. Moreover, a device for separating insoluble components from a liquid is known from US patent specification 4,889,624, wherein the slat package used therein is made up of plates provided with spacers.

Finally, a device for separating components from a liquid is known from the European patent EP 0 521 583, which device starts from a round tube shape in which the tube follows a plane which is at a half angle of the prescribed angle with the 1022350 2 center line is cut, the housing parts being rotated through 180 'with respect to each other, and finally the edge parts of the tube are adhered to each other. Further data with regard to the slat package are lacking, and moreover, due to the circular cross-section, not all of the contaminated liquid flowed surface is provided with flow channels.

The object of the present invention is to provide a device for separating insoluble components from a liquid, using a slat package for which no spacers are required.

Another object of the present invention is to provide a device for separating insoluble components from a liquid, the entire cross-section of the device being provided with flow channels through which the liquid to be separated flows.

Yet another object of the present invention is to provide an apparatus for separating insoluble components from a liquid in which the uniformity of the flow channels is guaranteed, which flow channels are placed at a certain angle with respect to the horizontal.

The invention as stated in the preamble is characterized in that the package of plates is composed of individual elements that can be stacked on top of each other, consisting of a bottom plate and a top plate, which bottom and top plate are mutually connected via regular spacing from each other, baffles arranged in parallel, which baffles in combination with bottom and top plates form separate parallel arranged flow channels, through which flow channels the liquid flows.

Using such a package of plates, the aforementioned objectives according to the present invention can be achieved. Because the plates are stackable, no spacers or the like are required to ensure the uniformity of the flow channels. Thus, in a very simple manner, a sedimentation package can be assembled by applying the present plates to each other. Moreover, because the present package of plates has a large separation surface, there is a high degree of separation. To achieve a certain cleaning capacity, this means that according to the present invention the number of plates required is considerably smaller than the devices known from the prior art for separating components from a liquid. Moreover, because the required number of plates is smaller than the devices known from the prior art for separating components from a liquid, the size of the present package of plates is considerably smaller, so that a more compact installation is possible.

In certain embodiments it is preferred that the element comprises a bottom plate, an intermediate plate and an upper plate, which lower, intermediate and upper plate are mutually connected via regularly spaced apart, parallel arranged partitions, which partitions in combination with lower part , intermediate and top plate 20 form separate parallel flow channels in the area bounded by the bottom plate and intermediate plate on the one hand and intermediate plate and top plate on the other, through which flow channels the liquid flows.

In such an embodiment there is in fact a "double" element with respect to the previously described embodiment, in which there are only flow channels arranged in parallel between a bottom plate and a top plate.

It may also be preferable for the element to comprise a bottom plate, a first intermediate plate, a second intermediate plate and a top plate, which bottom, first and second intermediate and top plates are mutually connected via regularly spaced, 3c.n I baffles arranged in parallel, which baffles in combination with lower, H first and second intermediate and upper plates form separate parallel H-arranged flow channels in the areas bounded by the lower plate and first intermediate plate, first intermediate plate and second intermediate plate, second intermediate plate and top plate, through which flow channels the liquid flows.

It is desirable that the housing have a rectangular shape whose side faces are defined by the length of the package of plates and the front and rear faces through the respective inlet and outlet openings of the flow channels formed by the present package of plates.

According to such an embodiment, it is possible that the housing can be manufactured relatively inexpensively, wherein, moreover, no reinforcement ribs, as mentioned in the previously discussed European patent EP 0 521 583, are required. Because the housing is designed according to a compact construction, the floor space required for placing the present device is small compared to the installations known according to the prior art. Moreover, due to the rectangular shape of the housing, it is possible to place a so-called clean water reservoir on the housing, whereby an additional saving is realized on the floor surface. In the known constructions there is generally an existing concrete storage tank, usually located below the floor level, or a storage tank which is placed on the floor near the installation for separating components from the liquid.

Using the packages of I plates described above, it is possible that the separation surface of each element is at least 100 m2 / m3.

Using the present device, it is possible to separate inorganic settable material from a substantially aqueous stream. The term "insoluble constituents" mentioned in the present description of introduction I 1022350 5 furthermore comprises constituents which will settle or settle during the stay in the present device. Due to the present construction, it is not necessary to use flocculant or flocculant, so that omitting such a step has a favorable influence on the costs of the device and the possible health risks for the operating personnel of the installation.

In a special embodiment the means for discharging insoluble components comprise a discharge conduit located near the inlet opening of the housing, which discharge conduit is arranged relative to the housing via a siphon structure such that the means for supplying the liquid are higher than the means for removing insoluble components.

In particular, it is possible that the means for removing insoluble components contain a sensor, which sensor registers the amount of insoluble components.

Moreover, it is desirable for the discharge line to open into a holder, which holder can be replaced periodically.

Because the present device is provided with a sensor in a special embodiment, the solid material can be pumped out with a displacement pump, which has the advantage that no water has to be discharged. The pumped sludge material can then be transferred to a container and possibly further dewatered here. In addition, it is possible to replace the displacement pump with a dewatering screw, which screw removes the sludge material from the present device. The screw is herein provided with a dewatering section where the sludge material can further dewatering. In particular, it is desirable for the screw to be controlled by a sensor.

The package of plates used in the present device is preferably extruded from polycarbonate, which material differs by no means from the known plates, often made from PVC.

The disadvantage of such PVC sheets is that they incorporate a plasticizer, so that the sheets are still somewhat flexible, which requires the use of spacers in particular. Another drawback is that the plasticizers present in the PVC sheets can diffuse to the liquid to be treated, which may limit a further use of the cleaned liquid. The present preferred package of plates is therefore not provided with plasticizers and, moreover, is fully recyclable.

The invention further relates to the use of the device described above for separating inorganic soluble material from an aqueous stream. The present device I is operated according to the countercurrent principle, wherein the liquid to be treated is supplied to the underside of the package of plates and wherein the insoluble or settable components will sag and the package of plates which is a certain angle with the horizontal will leave on the bottom I.

The present invention will be explained below with reference to an example, but it should be noted, however, that the present invention is in no way limited to such a special example.

Figure 1 is a view of a first embodiment of the device according to the present invention.

Figure 2 is a front view of the package of plates used in the present invention.

Figure 3 is another embodiment of the package of plates used in the present invention.

In Figure 1 the present device for separating insoluble components from a liquid is schematically represented with reference numeral 1. Rectangularly shaped housing 2, provided with a package of plates 3, composed of stackable, individual 7 elements, is fed via supply line 4 is provided with the aqueous stream to be treated, which aqueous stream is fed to the overflow 12 via the flow channels present in the package of plates 3. The flow channel and are located parallel to the longitudinal side of housing 2. The aqueous stream to be treated enters sedimentation space 6 via central housing 5, whereafter the liquid to be treated leaves housing 2 via overflow 12 via the flow channels present in the package of plates 3, via overflow 12. A separation takes place in the package of plates 3 between the solid insoluble and settable constituents and liquid, the insoluble and settable constituents collecting in settling space 6 and being transferred to container 10 via discharge line 8, optionally provided with dewatering screw 9. In the embodiment shown, settling space 6 is provided with a sludge sensor 7, which sludge sensor 7 indicates the degree of sludge material in settling space 6. The water leaving housing 2 via opening or overflow 12 is collected in storage space 11, which space 11 can be dispensed with in certain embodiments.

In Figure 2 the front side of the present element 18 is schematically shown, which element 18 (indicated by reference numeral 3 in Figure 1) is made up of a top plate 13, a bottom plate 14, which bottom plate 14 with top plate 13 via at regular intervals from each other partitions 15 is connected.

Figure 3 shows a special embodiment of the present element 17, which element 17 (denoted by reference numeral 3 in Figure 1) comprises an upper plate 13, an intermediate plate 16 and a lower plate 14, which lower, intermediate and upper plate (13 , 16, 14) are mutually connected via regularly spaced apart, parallel arranged baffles 15 whereby separate parallel arranged flow channels are formed in the area bounded by the bottom plate 14 and intermediate plate 16 on the one hand, and intermediate plate 16 and top plate 13 on the other.

1022350

Claims (7)

2. Device as claimed in claim 1, characterized in that the I element comprises a bottom plate, an intermediate plate and an upper plate, which lower, intermediate and upper plate are mutually connected via regularly spaced apart, parallel arranged partitions. which baffles in combination with lower, intermediate and upper plate form separate flow channels arranged in parallel in the region bounded by the lower plate and intermediate plate on the one hand and intermediate plate and upper plate I on the other, through which flow channels the liquid flows. 3. Device as claimed in claim 1, characterized in that the I element comprises a bottom plate, a first intermediate plate, a second intermediate plate and a top plate, which bottom, first and second intermediate and I top plates are mutually connected via regular spaced apart, parallel arranged baffles, which baffles in combination with lower, first and second intermediate and upper plate form separate flow channels arranged parallel I in the areas bounded by the lower plate and first intermediate plate, first intermediate plate and second intermediate plate, second intermediate plate and top plate, through which flow channels the liquid flows. Device as claimed in one or more of the foregoing claims, characterized in that the housing has a rectangular shape whose side faces are determined by the length of the package of plates and the front and rear faces through the respective inlet and outlet openings of the flow channels formed for the package of plates. Device according to one or more of the preceding claims, characterized in that the separation surface of each element is at least 100 m2 / m3. 6. Device as claimed in one or more of the foregoing claims, characterized in that the means for discharging insoluble components comprise a discharge conduit located near the inlet opening of the housing, which discharge conduit is such with respect to the housing via a siphon construction arranged that the means for supplying the liquid are higher than the means for discharging insoluble components. Device according to claim 6, characterized in that the means for discharging insoluble components comprise a sensor, which sensor registers the amount of insoluble components. 8. Device as claimed in one or more of the foregoing claims 1-7, characterized in that the discharge line opens into a holder, which holder can be replaced periodically. Use of the device as defined in or more of the preceding claims 1-8 for separating inorganic insoluble material from an aqueous stream. 30 1η ?? 3ςη