DE4110091A1 - Light-liq. separator using sedimentation and gravitational sepn. - Google Patents

Abstract

The adaptive image segmentation system has a genetic learning system connected to an image analyser, and an image segmenter connected to the learning system. A segmented image evaluator is connected to the image segmenter and to the genetic learning system. The image analyser has an input for images and has an output for image statistics. The genetic learning system has one input for image statistics, a second input for external variables, an output for control parameters and a third input. The image segmenter has one input for images, a second input for control parameters and an output for segmented images. The segmented image evaluator has an input for segmented images, and an output for segmentation quality indications, connected to the third input of the genetic learning system. The external variables are environmental factors under which the images are acquired. The control parameters are segmentation parameters. The segmentation quality indications are used for initiating adaptation to incoming images which is based on differences in characteristics of previously analysed and of images currently being analysed. @(104pp)

Description

The invention relates to a separator for light liquids, in which the settable sediments in a coarse separator, and the floating particles in at least one downstream fine separator Light liquids are separated using the coarse separator is provided with internals through the light liquids are already separated in the coarse separator.

Already in the coarse separator in known systems Separation of the floating light liquid takes place, this is it Separation so small that the last separator in the wastewater stream is proportionate is heavily loaded so that frequent cleaning of this last separator is required. This brings a high Maintenance effort with itself.

The aim of the invention is to provide a separator create that does not have these disadvantages, in which the cleaning effort therefore less. This is easily achieved in that the fine separator works according to the principle of coalescence Residual oil separator downstream and also in the fine separator Coalescence filter is arranged.

This means that part of the cleaning process becomes part of the entire cleaning chain moved forward and thus the most susceptible part to overload, namely the residual oil separator, relieved. The coalescence filter is useful in the fine separator below the stored light liquid layer arranged. This prevents the oil from clogging it will.

In addition, the coalescence filter is advantageous against direct flow protected by deviation plates, which at the same time the physical Take over cleaning processes by adsorption and thus the Relieve the coalescence filter.

Co-current filters are co-current filters and counter-current filters in use, with the DC filter, the water flow and the light liquid separation in one direction, with the counterflow filter in the opposite direction. The advantage of the DC filter consists in the promotion of the separator and in a smaller one Filter resistance; the pollution is disadvantageous on the inaccessible Filter underside. Contamination is an advantage with countercurrent filters on the easily accessible filter top and a stronger one Coalescence effect by lengthening the path and aligning the droplets.  A disadvantage, however, is the risk of rinsing off in the Procedure.

It is now another object of the invention to take advantage of Combine direct and counter flow filters without their disadvantages to take over. This is achieved by the coalescence filter in the residual oil separator essentially from four sides can flow towards the drain pipe. This condenses in the direction Drain the moving granules and set that Flow against a substantial resistance. By rubbing them together The granules form larger particles that either rise (light liquids) or sink (oil sludge). Moreover there will be no dirt deposits freely accessible from all sides Enter the filter and there is no blockage due to deposits to be expected as the deposits sink down and the filter surface is kept free. By the measure according to the invention is cleaning with pressurized water even after pumping out the water volume possible in the system without lifting the filter out got to. This means that all flushing devices, as in Direct current and counter current filters are not necessary.

To the system according to the invention against concentration surges and flooding Another feature of the invention is to be protected the inflow into the coarse separator a the cross section of the inflow in Changing depending on the height of the liquid level, float-controlled inlet regulator arranged.

A turbulent flow promoting the sinking of the sediments To achieve is according to a further feature of the invention as an installation a coagulation filter in the coarse separator between the inlet and outlet arranged. This can be done by elongated, downward extending Profiles are formed, which are rotatable and / or displaceable are stored so that the distance between them is adjustable.

The length of the profiles increases towards the drain, the sedimented sludge therefore finds room accordingly.

The invention is described in more detail below on the basis of exemplary embodiments illustrated in the drawings, but without being restricted to these examples. In Fig. 1, a separator according to the invention is shown schematically in the plan, Fig. 2 shows a section along the line II-II in Fig. 1. Figs. 3 and 4 show schematically the arrangement of a coagulation filter and FIGS. 5 and 6, the arrangement of another Koagulationsfilters.

According to the drawings, a separator for light liquids has a coarse separator 1 , a fine separator 2 and a residual oil separator 3 . The wastewater to be cleaned enters the coarse separator 1 via an inflow 4 and leaves it via an immersion pipe 5 . In this exemplary embodiment, the inflow 4 is below the liquid level 7 determined by the overflow 6 to the fine separator 2 and is provided with a float-controlled inlet regulator 8 . This consists essentially of a slide blade 10 attached to a float 9 , which more or less releases or blocks the cross section of the inlet 4 depending on the liquid level.

The coarse separator 1 is equipped with a generously dimensioned sludge chamber 14 in which the sediments 15 settle. As a result of the installation of the dip tube 5 , not only the sediments 15 but also floating light liquids 16 are separated. As tests have shown, a large part of the light liquids to be separated can already be separated in the coarse separator 1 .

The inlet 17 of the fine separator 2 is provided with a float-controlled closure 18 , as z. B. is described in patent application A 2571/89. Such a closure automatically shuts off the inlet 17 when there is a predetermined accumulation of light liquid.

In the container of the fine separator 2 , a coalescence filter 19 is inserted, which in the example shown is designed as a counterflow filter. The separation of light liquids is significantly favored by this arrangement.

The filter 19 is easily exchangeable by means of a bracket 19 '' and it is arranged so that it is not in the region of the oil layer even at the highest level of the oil layer (closing the automatic closure) and therefore cannot be blocked by the oil. In addition, the filter is protected against direct flow 19 by deflector 19 'which simultaneously perform the physical cleaning processes by absorption and thus relieve the coalescing filter 19th

From the coalescence filter 19 , the wastewater, which has largely been cleaned of light liquid, reaches the residual oil separator 3 via a feed line 20 . In this a coalescence filter 21 is arranged, which is flowed from four sides in the direction of the drain pipe 22 . As a result, the granules moving in the direction of the drain condense and provide substantial resistance to the flow. The advantage of this agglomeration is a self-cleaning effect. By lining up the granules, larger particles are formed that either rise (light liquids) or sink (oil sludge).

The arrangement according to the invention in particular relieves the load on the coalescence filter of the residual oil separator 3 , and it is therefore also not necessary to provide special flushing devices.

Referring to FIGS. 3 and 4, is arranged as built-in coarse separator 1 between inlet 4 and outlet 5 elongated downwardly extending profiles 23. These profiles are rotatably and slidably suspended on rails 24 so that they can be moved in accordance with the arrows shown in FIG. 4. The length of the profiles 23 increases towards the outlet 5 .

The profiles 23 form a self-cleaning coagulation insert for fine sludge. They serve to generate a linear flow turbulence and thus contribute to a coagulation effect. Fine slurries sink more easily due to the arrangement of these profiles.

In the exemplary embodiment according to FIGS . 5 and 6, a coagulation filter 25 is arranged as an installation in the coarse separator 1 , which consists of staggered angled sheets 26 arranged one behind the other and next to one another. These sheets are arranged in a box 27 , which is covered in the direction of the inflow 4 by a baffle plate 28 , so that the incoming wastewater is forced to travel a further way, so that the settling effect is favored. The inflow 4 is again provided with a float-controlled inlet regulator 8 . Connect so as in the embodiment according to FIGS. 1 and 2 provided with a coalescing filter, and a fine separator provided with a coalescing filter Restölabscheider to the coarse separator.

Numerous modifications are possible within the scope of the invention. So there is no need for individual separators to be provided in separate structures. Rather, it is possible to provide separate chambers of a common structure for the individual separators. If the requirements for the purity of the purified water are particularly high, an adsorption filter could also be connected downstream of the residual oil separator. Another coarse separator can also be connected upstream of the coarse separator 1 .

Claims (8)

1. Separator for light liquids, in which the floating light liquids are separated in a coarse separator, the settleable suspended matter, and in at least one downstream fine separator, the coarse separator is provided with baffles, are deposited by the light liquids to a coarse separator, characterized in that the fine separator ( 2 ) a residual oil separator ( 3 ) working according to the coalescence principle is connected downstream and a coalescence filter ( 19 ) is also arranged in the fine separator ( 2 ). 2. Separator according to claim 1, characterized in that the coalescence filter ( 19 ) in the fine separator ( 2 ) is arranged below the stored light liquid layer. 3. A separator according to claim 1 or 2, characterized in that the coalescence filter ( 19 ) in the fine separator ( 2 ) is protected against direct flow by deflector plates ( 19 '). 4. A separator according to any one of claims 1 to 3, characterized in that the coalescence filter ( 21 ) in the residual oil separator ( 3 ) can be flowed towards essentially from four sides in the direction of the drain pipe ( 22 ). 5. Separator according to one of claims 1 to 4, characterized in that in front of the inflow ( 4 ) in the coarse separator ( 1 ) a cross-section of the inflow depending on the height of the liquid level changing, float-controlled inlet regulator ( 8 ) is arranged. 6. Separator according to one of the preceding claims, characterized in that a coagulation filter is arranged in the coarse separator ( 1 ) between the inlet and outlet as an installation. 7. A separator according to claim 6, characterized in that the coagulation filter comprises elongated, downwardly extending profiles ( 23 ) which are rotatably and / or displaceably mounted. 8. A separator according to claim 6 or 7, characterized in that the length of the profiles ( 23 ) increases towards the drain.