RU154656U1 - PEAT FILTER FILTER - Google Patents

Abstract

A filter comprising an upper and lower support perforated plate, between which a peat load is placed, characterized in that it further comprises a filter plate made of a porous material, located under the upper support perforated plate, while the surface of the specified filter plate facing the peat load, made rough.

Description

The utility model relates to the field of purification of liquids from oil products and suspended particles and can be used in devices installed in sewer wells for cleaning industrial and rain drains from these contaminants.

A known filter used to clean the wastewater coming into the sewer well from oil products and suspended particles [RU 131019].

The filter in question contains a container, open on top, fixed in a sewer well under its cover, inside which a peat load is placed. The bottom of the container is equipped with water outlets. Due to the presence of the indicated peat loading, the wastewater passing through the container from top to bottom is purified from oil products and suspended particles.

A known filter used in the device for cleaning the wastewater entering the sewer well from oil products and suspended particles, described in [RU 139389], which is selected as the closest analogue.

The filter in question includes an annular cassette containing two perforated support plates — a lower perforated base and an upper perforated pressure plate, between which a peat load is placed.

The filter cartridge is installed with the passage through it of an upward flow of treated wastewater. Due to the use of peat loading in the filter cartridge, the wastewater passing through it is cleaned from the bottom up from oil products and suspended particles.

The presence of supporting perforated plates ensures the retention of peat loading inside the filter in question, and also increases its mechanical strength and reliability.

However, the use of peat loads as filters in the filters is characterized by the following negative factors.

In the initial period of operation of peat loads, including after changing the spent peat load, the removal of small particles of the load into the filtrate is observed. In addition, due to the uneven density of peat loading over the area of the filter cell, local breakthrough pulses of filtered fluid flows may occur, penetrating the perforated support plate into the filtrate, which leads to a temporary increase in the amount of contaminants carried into it.

These factors reduce the reliability and efficiency of the filter with peat loading, which degrades the quality of cleaning the filtered fluid.

The objective of the claimed utility model is to improve the quality of purification of the filtered fluid by improving the reliability and efficiency of the filter with peat loading.

The essence of the claimed utility model lies in the fact that in the filter containing the upper and lower supporting perforated plates between which the peat load is placed, according to the utility model, there is additionally a filter plate made of a porous material located under the upper supporting perforated plate, the surface of which the filter plate facing the peat loading is made rough.

Due to the presence of a peat charge filter in the inventive filter, the liquid passing through it is cleared of oil products and suspended particles.

Due to the presence of supporting perforated plates, peat loading is kept inside the filter, and its mechanical strength and reliability are increased.

Of fundamental importance in the inventive filter is the presence of a porous filter plate having a rough surface, located as described above.

Due to the presence of the specified porous plate when the filter is installed in the operating position so that the flow of the liquid to be cleaned passes through it in the direction from the lower base plate to the upper base plate, this porous plate substantially prevents the removal of small particles of peat charge into the filtrate, in particular after changing the filter material. At the same time, due to the presence of roughness, part of the small particles of peat loading accumulates in irregularities and on the lower surface of the porous plate, creating the so-called “wash-up layer”, which provides additional filtration of the liquid to be cleaned.

A part of oil products, having reached the considered “alluvial layer”, is delayed in it. The smallest droplets of petroleum products as they accumulate in the “alluvial layer” interact with each other and coarsen as a result of coalescence. When the sizes of these droplets become comparable with the pore sizes of the filter plate, the petroleum products do not pass through the pores and are retained by it.

These positive effects are especially pronounced in the case when in the working position through the inventive filter the liquid to be cleaned passes upward in the direction from bottom to top, since the upward liquid flow maintains the position of the particles of the “wash-up layer” near the lower surface of the filtering porous plate and does not allow to fall specified layer under the influence of gravitational forces.

In addition, the presence of the considered filtering porous plate promotes a more uniform distribution of the liquid emerging from the filter and reduces the likelihood of its breakthrough impulses entering the filtrate.

These factors lead to an increase in the reliability and efficiency of the filter with peat loading.

At the same time, the considered filtering porous plate does not create significant hydraulic resistance to the flow of the liquid being cleaned, which is due to the porosity of this plate and its relatively small thickness.

For the manufacture of a filtering porous plate, a porous polymeric material, in particular porous polyethylene, can be used.

Thus, the technical result achieved by the implementation of the inventive utility model is to increase the reliability and efficiency of the filter with peat loading and, as a result, improve the quality of cleaning the filtered liquid.

The figure shows a General view of the claimed device.

The filter includes the first and second support perforated plates 1 and 2, between which a peat load 3 is placed. In particular, metal grids are used as support perforated plates 1 and 2. The filter is equipped with a housing formed, in particular, by side plates 4, fastened to frame structures 5 located on the periphery of the support plates 1 and 2. The plates 4 are made, in particular, of metal, and the frame 5 of angle steel.

The filter includes a filter plate 6 made of a porous material, in particular porous polyethylene, which is located under the upper mesh 1.

The lower surface of the porous plate 6, facing the filter load 3, has a roughness of 7.

The filter works as follows.

In the working position, the filter is installed, in particular, mounted in the sewer well, with the passage of the flow of the liquid being cleaned, in particular, the flow of wastewater, in the direction from the lower supporting perforated plate 2 to the upper supporting perforated plate 2.

In particular, the filter is installed to allow the passage of an upward flow of wastewater through it from the bottom up.

The flow of the liquid to be cleaned passes through the filter, and due to the presence of peat loading 3 and the porous filter plate 6, high-quality liquid, in particular wastewater, is cleaned from oil products and suspended particles of contaminants.

Claims (1)

A filter comprising an upper and lower support perforated plate, between which a peat load is placed, characterized in that it further comprises a filter plate made of porous material, located under the upper support perforated plate, while the surface of the specified filter plate facing the peat load, made rough.

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