WO1982003851A1

WO1982003851A1 - Separator of solid materials used in waste water processing installations

Info

Publication number: WO1982003851A1
Application number: PCT/DE1982/000090
Authority: WO
Inventors: Willy Palmer
Original assignee: Willy Palmer
Priority date: 1981-04-28
Filing date: 1982-04-27
Publication date: 1982-11-11
Also published as: DE3116875A1; JPS5836693A; EP0077357A1

Abstract

Separator of solid materials used in a purification station to eliminate small solid materials and/or suspended materials. The separator is comprised of a system of concentric filters, wherein filetering materials (A, B, C) with a grain size adjusted to the opening of the filter are incorporated between at least two cylindrical filters (4, 5). The operation of the separator is provided by a counter-current washing system (12, 13, 14).

Description

Solids separator for use in sewage systems

The present invention relates to a solid matter separator for separating out small solid and / or suspended matter, preferably waste water to be cleaned in a closed filter system.

The complete and rapid treatment of wastewater is becoming more and more important, since industrial wastewater can no longer be easily discharged into natural waters, as this means that irreparable damage to the entire water balance must be expected.

In particular, taking into account the different contamination levels of industrial wastewater, a wide variety of suggestions have been made for the removal of the dirt in the wastewater, in particular also toxic and difficult to break down organic substances.

Among other things, the applicant of this invention has disclosed a method and a device for purifying waste water (DE-OS 27 39 690), in which in a closed filter system with a plurality of coupling reactors for coupling the wastewater with finely divided air or exhaust air as well as degradation reactors with various filter materials after a certain pretreatment (pre-neutralization) high degradation values have been achieved even with the highest contamination levels. The process is based on a combination of chemical or physico-chemical reactions (neutralization, catalytic oxidation, adsorption ...), possibly with a combination of enzymatic-catalytic metabolic reactions.

Such a system works, as practical tests have shown, absolutely perfectly if the water to be cleaned is mechanically cleaned from all solid and suspended matter properly, because then and only then the desired throughput of the water to be cleaned through the closed filter system without interference and is possible without influencing the individual filter materials.

For many applications, for example in the textile industry, however, this means that the wastewater to be supplied is first subjected to mechanical cleaning, which reliably removes even the smallest floating parts, such as fiber residues, etc.

Separators have become known per se for this purpose, but no separator has been found which meets the high requirements in one for the continuous throughput of larger quantities of waste water necessary safety and residual pollution should have been used.

The object of the invention is therefore to provide a solids separator with which all solid and suspended matter can be filtered out without problems from a wastewater to be cleaned, for example also from a dyeing plant or the like, the separator should have no rotating parts at all with the least energy expenditure and the relationship between operating time and downtime necessary for self-cleaning should be so suitable that a continuous wastewater treatment plant can be guaranteed with one and only one separator.

This object is achieved with a separator with the features of claim 1.

In the solid matter separator for separating out small solid and / or suspended matter according to the invention, an arrangement of at least two cylindrical filters is therefore provided, with consideration for the subsequent wastewater treatment process and for additional filtering of the space between at least two of the concentric filters with a granular material is filled. This in his

Grain size according to an advantageous development of the inventive concept of the openings in the cylinder granular material adapted to filtering is used for additional mechanical cleaning, neutralization, catalytic oxidation and / or also biochemical cleaning. According to the proposal of the invention, the wastewater still loaded with solids or suspended matter is fed to the outermost annular space between the housing and the cylindrical filter, while the wastewater relieved of these substances and to be fed to the downstream filter system for further purification from the inner annular space of the innermost filter entire filter arrangement is removed.

The additional effect of the materials to be installed in the interior between the concentric cylindrical filters is due to the fact that a solids separator with the features according to the invention, which is used in a system, as described above, the wastewater in each case with air or exhaust air is penetrated at a later stage of the system, so that even during the separation process in the separator itself, the aforementioned reactions take place.

In the solid matter separator according to the invention, it has proven to be particularly advantageous to make the cross sections of the filter openings at least in the outermost cylindrical filter from bottom to top, the lowest openings having the smallest cross section, while the uppermost ones have a cross section / which is approximately 5 to 10 times the cross section in the lowest area. For the purpose of separating fiber residues, the best results were achieved with filter openings in the lowest range from 0.2mm to 1.5mm at the upper edge. Here, and it should be pointed out here, the grading of the openings depends of course to a certain extent on the actual size of the solids or suspended matter to be separated.

In order to achieve superfiltration, it is proposed according to another advantageous development to cover the openings of the innermost cylindrical filter approximately in the lower third with a fiber fabric, for example Flortex or the like, so that particularly high-quality cleaning can be achieved in this area.

Further details of a solid matter separator, as it can be constructed within the scope of the present invention and / some dimensioning details are explained below with reference to the attached drawings.

1 shows a separator schematically in a sectional view and FIG. 2 shows a cross section through a corresponding separator according to line II-II in FIG. 1.

In the drawings, 1 denotes the outer wall of the cylindrical housing in which the separator with the features according to the invention is accommodated. The wastewater to be cleaned of solids or suspended matter is introduced into the housing via the feed line 2 at about one third of the total height. The wastewater freed from the solids can be passed on the underside via the pipeline 3 for further purification.

According to the invention, two cylindrical filters 4 and 5 arranged concentrically to one another are provided in the interior, the filter or cylinder sieve leaving an annular space to the housing 1 open, as can be seen clearly from FIG. 2. The second filter or sieve 5 is located concentrically on the inside, the clear space being chosen so that it is suitable for backwashing, i.e. Clean the filter necessary parts can be accommodated. As shown, the wastewater passed through the filter system is then drained downward from the interior of the inner filter 5.

The filter 4 has openings, the cross section of which is much smaller in the lower region than in the top. The ratio of the cross-sectional openings, which cannot be seen at the selected scale, comprises about a factor of 5. For example, a hole size was selected for a plant for cleaning waste water contaminated with fibers, the bottom area 0.2 mm and the upper area 1.5 mm is. For one Superfiltration is provided in the lower third around the inner cylindrical filter 5, a fiber web 51 only indicated by a dashed line, which covers the filter openings present in this area with a cross section of 0.2 mm, for example, and thus only allows absolutely unpolluted water to pass through.

According to the proposal according to the invention, a granular material is introduced in the annular space between the two concentric cylindrical filters 4 and 5, namely in the illustrated embodiment a total of three different materials A, B and C are introduced and possibly separated from one another by intermediate layers. In a specific exemplary embodiment, a blue limestone with a grain size of about 2 mm was inserted as material A, blast furnace slag also with a grain size of 2 mm and one with hydrocarbon / with a grain size of 3 mm.

Since the filter openings close after a certain operating time with the desired extremely high degree of cleaning, there is a backwash system for the whole

Filter arrangement provided. This backwashing system initially consists of a nozzle rod 6 inside the inner cylindrical filter 5, the nozzles of which are directed in all directions, via the hot or cold backwashing water or also superheated steam against the

Filter openings can be directed from the inside. Furthermore, a total of 6 semicircular nozzle rods, of which only the rods 7, 8, 9 and 10 are shown, are provided in the annular space between the two cylindrical filters 4 and 5, with nozzles directed against the outer cylindrical filter.

All nozzles, or their supply lines, are connected together via one on the top of the housing. 1 provided

Line system led together to the source for the backwash water or backwash steam.

In order to be able to remove the solids or suspended matter falling in the outer annular space between the housing 1 and the outer filter 4 during backwashing, outflow openings 13 are provided on the lowest side of the housing. The outlet lines 12 on the underside immediately outside the inner filter 5 serve to discharge the foreign substances coming down from the inner filter, and in particular also the substances washed away by the pile 51, downward into a line system or collecting basin (not shown). For this purpose, the outlet connections 12 and 13 are provided with end slides 14, which are only indicated schematically.

During the backwashing process, the outflow line 3 for the waste water freed from foreign substances is closed.

As indicated by the housings 15 and 16, the line systems are each covered. The essential design features of the present invention were explained on the basis of a highly schematic exemplary embodiment. It will be readily apparent to those skilled in the art that a number of variations and variations are possible. In particular, of course, more than two sieves can of course be arranged concentrically, although it may also be advisable for specific types of loads to assign an overflow to the outermost cylindrical filter in order to avoid the creation of an overpressure in the outermost annular space when the filter openings clog too quickly.

For certain types of wastewater, it may also be advisable to also distribute the various materials in the annular space between the filters concentrically over the entire height in order to expose the wastewater, which is extremely finely filtered in the lower area, to material C as well as material A and B, while at In the described embodiment, the layers are arranged one above the other, which is structurally particularly simple to implement and nevertheless guarantees the desired pretreatment in practice, since the water to be cleaned inside between the two filters is not only horizontal but also vertical due to the removal of the individual filters emotional.

For reasons of clarity, switching connections between the end slide 14 on the one hand, a slide in the drain line 3, are shown in the illustration Control in the feed for the backwash water 11 and also a check valve in the feed line 2 have been omitted. These measures can be implemented directly by the user without inventive intervention.

Claims

P A T E N T A N S P R Ü C H E

Solid matter separator for separating small solid and / or suspended matter from, preferably in a closed filter system, waste water to be cleaned, characterized by an arrangement of at least two vertical, concentrically arranged cylindrical filters (4,5) inserted in a circular housing (1). with sieve openings arranged on the entire circumference, the space between two concentric filters (4, 5) with a granular material (A, B, C,) for additional mechanical cleaning, neutralization, catalytic oxidation and / or biochemical cleaning at least essentially Part of the filter height is filled with a waste water supply line (2) to the annular space (1,4) outside the outermost cylindrical filter (4) and with a waste water discharge line (3) from the interior of the innermost cylindrical filter (5).

2. Solids separator according to claim 1, characterized in that the filter openings at least in the exterior of the cylindrical filter (4) have a cross-section which may increase gradually from bottom to top with a 5 to 10-fold increase in cross-section.

3. Solids separator according to claim 1, characterized in that the lower region, for example the lower third of the innermost cylindrical filter (5) with a fiber fabric (51), e.g. Flortex, surrounded by fine structure.

4. Solid separator according to one of the preceding claims, characterized in that the space between the filters in layers with different substances (A, B, C) in a grain size adapted to the cross section of the adjacent filter openings (double to six times the grain size in relation to the cross section of the Filter openings) is filled.

5. Solid separator according to claim 4, characterized in that in the space between the filters as the bottom layer (A) blue limestone up to a third of the total height of the Ge houses in a grain size of about 1 to 2mm, a second layer above a layer of blast furnace slag also with a grain size of 1 to 2mm and the top layer is a layer of hydrocarbon with a grain size of about 3mm.

6. Solid matter separator according to one of the preceding claims, characterized in that the waste water supply line (2) laterally on the housing (1)

Height about a third of the total height of the housing is attached.

7. Solid separator according to one of the preceding claims, characterized by a backwash nozzle system with outlet nozzles within each cylindrical filter, closable (14) outlet openings (12, 13) are provided on the housing base for removing the substances deposited on the filter wall.

8. Solids separator according to claim 7, characterized in that an annular nozzle-shaped nozzle rod (6) is arranged concentrically in the innermost filter (5).

9. Solid matter separator according to claim 7, characterized in that in the annular space between two cylindrical filters (4, 5) single-acting backwash nozzle rods (7, 8, 9, 10) with outwards nozzles directed against the outer cylindrical filter are provided.

10. Solid separator according to claim 7 to 9, characterized in that the nozzle rods (6, 7,8, 9, 10) for the joint supply of hot or cold backwashing water or steam are connected to one another via a pipe system at the top of the housing.