SU958330A1 - Apparatus for dehydrating slime - Google Patents

Description

The invention relates to a device for the formation of sewage sludge from urban sewer networks and concentration plants, and can be applied on slurry sites of treatment facilities. ⁵

A device for suctioning a liquid is known, comprising a reservoir, a floating filter connected by flexible hoses to a vacuum source ζΐ}.

The disadvantages of this device is that the area of the filter element is limited by the dimensions of the device. In addition, it is not taken into account that the sludge poured onto the sludge pads exfoliate, and the resulting layers unequally discharge water. Moreover, the filtering part of the devices is located in a layer of compacted light particles, which visas jq allow a fairly quick clogging of the filtering surface.

It is known that the closest to the product is a filtering device containing a float housing located in a settling tank with a horizontal row of filter elements, a vacuum pump with an adjustable relief valve, and a vacuum conduit connected to the float housing. In this device, sludge dehydration is achieved by taking fluid from the upper layer of sedimentation tank C2].

However, it is known that sludge poured into the sump separates, moreover, the formed layers do not give water in the same way, since lighter particles float, heavy ones sink, and lenses of relatively pure water are formed in the middle parts of the sump, etc.

The disadvantage of this device is that the selection of water in it is not purposeful, which leads to frequent colmatization of the filter elements, and therefore, to a decrease in the productivity of the entire device.

The aim of the invention is to increase the efficiency of use of the device by intensifying the process of selecting liquids from different levels in environments with a tendency to separation.

This goal is achieved by the fact that in a dehydration device containing a float located in a settling tank, open at the bottom and equipped with a filtration unit, a vacuum source, connecting pipelines, the filtration unit is made in the form of a vertical row of horizontally arranged filters installed with the possibility of vertical movement relative to the heat .

The drawing schematically shows the proposed device.

The device comprises a float container 1 open at the bottom, a cartridge of filter elements 2 made in the form of a kartal row of horizontally arranged filters, connected by a collector 3 and a flexible pipe 4 to a vacuum source 5 · In the upper part of the float tank there are guide sleeves 6 and hollow rods 7, the magnitude of the stroke which is determined by the depth of the sump and the magnitude of the expected reduction in the level of sludge, ensuring the movement of the cartridge filter elements relative to the float tank. ’.

The device operates as follows.

The float filter is lowered into the sludge sump and includes a vacuum source 5> initially pumping air from the collector 3, and then the liquid through the filtering elements 2, and the greatest flow rate is observed through the filtering element lying in the interlayer, which gives off the liquid more easily than others. As the fluid is taken from the sump, the level of sludge in the pool decreases, while the cassette rests against the bottom of the sump with the bottom element, and the float tank 1 continues to lower along the rod 7 along with the level of sludge, preventing air from reaching the filters.

Thus, having ₅ horizontal filtering elements in the form of a vertical row with the possibility. By moving their relative float capacitance, it is always possible to place at least one element in the layer,, 0-easily discharging water and practically no colming element filter, due to which, the performance of the device increases significantly. In particular, in comparison with the prototype, when working on the same vacuum installation, it is possible to increase productivity by 2t2.5 times.

Using this device, it is possible to reduce the percentage of sludge moisture from 96 to 80%, while the volume of sludge is reduced by 5 times, which corresponds to an increase in the productivity of slurry sumps by the same number of times and allows to obtain an economic effect of 50-60 thousand rubles. from 1 ha of a sump.

Claims (2)

The invention relates to a device for the formation of sludge from sewage from urban sewage networks and processing plants, and can be applied to the sludge plots of sewage treatment plants. A device for suctioning a liquid is known, which contains a reservoir, a floating filter connected by flexible hoses with a vacuum source 1. The disadvantage of this device is that the area of the filter element is limited by the dimensions of the device. In addition, it has not been taken into account that slimes poured into slurry pads are stratified, and the resulting layers do not release water in the same way. Moreover, (the filtering part of the device is located in the layer of flattened light particles, which cause sufficiently rapid clogging of the filtering surface. The filtering device containing the float body with a horizontal row of filtering elements, vacuum pump, located in the settling tank) is known to be closest to the precursor. with an adjustable relief valve connected by a vacuum tube to the float body. In this device, sludge dewatering is achieved by withdrawing liquid from the upper However, it is known that the sludge poured into the settling tank is exfoliated, and the layers that are formed donate water in the same way, as lighter particles float, heavy sinks, and in relatively medium-sized parts of the settler lenses are formed with respect to pure water and t .. e. The disadvantage of the device is that the water in it is not targeted, which leads to frequent clogging of filter elements and, consequently, to a decrease in the performance of the entire device. The aim of the invention is to increase the efficiency of the use of the device by intensifying the process of selecting liquids from different levels in environments that tend to split. This goal is achieved by the fact that in the dewatering device, which contains a float placed in a settling tank, an open source at the bottom and equipped with a filtration unit, connecting pipelines, the filtration unit is made in the form of a vertical row of horizontal. filters arranged horizontally with the possibility of vertical movement relative to the heat. The drawing schematically shows the proposed device. The device contains a float tank 1, open at the bottom, a cassette of filter elements 2, made in the form of a cartographic row of horizontally arranged filters, connected via a manifold 3 and a flexible pipe t to a vacuum source 5. In the upper part of the float tank there are guide bushings 6 and hollow rods 7, the stroke of which is determined by the depth of the settling tank and the magnitude of the expected reduction in the level of sludge, ensuring movement of the cassette of filter elements relative to the float tank. . The device works as follows. The float filter is lowered into the cuttings from the stove and includes a source of vacuum 5. The primary air is pumped out from the collector 3, and then the liquid and the liquid through the filtering elements 2, with the highest flow rate being observed through the filtering element lying in the interlayer, more easily than others. As the liquid is withdrawn from the sedimentation tank, the level of sludge in the pool decreases, while the cassette with its bottom element abuts the bottom of the settling tank, and the float tank 1 continues to descend along rod 7 together with the sludge level, preventing air from entering the filters. Thus, horizontal filtering elements are arranged in the form of a vertical row with the possibility of their displacement relative to the float tank. At least one element can always be placed in a layer that easily gives off water and the element that practically does not clog up, due to which the device performance significantly is increasing. In particular, in comparison with the prototype, when working on the same vacuum unit, it is possible to increase productivity by 2-2, S times. With the help of this device it is possible to reduce the percentage of sludge moisture from 96 to 80, while the volume of sludge decreases by 5 times, which corresponds to an increase in the productivity of sludge settling tanks by the same number of times and allows to obtain an economic effect of 50-60 thousand rubles. from 1 hectare settler. An inventive device for sludge dewatering, containing a float placed in a settling tank, open below and equipped with a filtration unit of a vacuum source, connecting pipelines, in order to increase the efficiency of the use device by intensifying the process of selecting liquids from different levels in media having a tendency to delamination, the filtering unit is made in the form of a vertical row of horizontally arranged filters installed with the possibility of a vertical lane relative displacements of the float. Sources of information taken into account in the examination 1.Patent-Japan No., cl. 72 C 2, 1975. 2. USSR author's certificate for application No. 292b1b7 / 29-2b, cl. C 02 F 1/52, 05/16/80.