SU1498719A1 - Installation for microbiological purification of industrial waste water - Google Patents

Abstract

The invention relates to the treatment of industrial and domestic wastewater, namely, industrial effluent polluted predominantly with hardly decomposable nitro and halogen derivatives of the aromatic series with a high degree of mineralization. The purpose of the invention is to reduce capital and energy costs, increase productivity and degree of purification. The installation contains series-connected sections 1, forming zones A, B and C of anaerobic, aerobic treatment and filtration. Removable lamellar cassettes 4 and synthetic material 6 are used as nozzles. The installation is equipped with heating systems 8 and aeration 9. Sewage flows through the anaerobic, aerobic treatment and filtration zones, then they are discharged from the installation to the consumer. The invention allows for the efficient treatment of highly concentrated industrial wastewater from the production of TBD, GBB, DBP, etc., to reduce heat loss and operating costs. 3 hp f-ly. 5 il.

Description

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The invention relates to the treatment of industrial and domestic wastewater, namely industrial effluent contaminated with predominantly difficult to decompose nitro and halo aromatic derivatives with a high degree of mineralization (from 20 g / l and above) and can be used for effective sewage treatment plants of chemical, petrochemical, chemical and pharmaceutical industries.

The purpose of the invention is to reduce capital and energy costs, increase productivity and degree of cleaning.

FIG. 1 shows the installation, general view; Fig. 2 shows a section without cassette loading; in fig. 3 - cassette; in fig. 4 - location of removable cassettes in the chamber; Fig. 5 shows a series of cameras fitted with flaps.

The plant for microbiological wastewater treatment is a series-connected structurally similar section 1, forming zones A, B and B of anaerobic treatment, aerobic treatment and filtration.

Sections 1 are divided by vertical partitions 2 into a series of communicating chambers 3, in which removable cassettes 4 are made of synthetic material plates 5. In chambers 3 there is a rigid granular synthetic material 6 floating at the interface of the media and they are equipped with means preventing the redistribution of this material between the chambers made, for example, in the form of a mesh 7. The heating system of the anaerobic zone A is filled in the form of pipes 8 and the aeration system of zones B and C is in the form of perforated pipes 9 located between the double bottom of chambers 3, the top of which - the bottom 10 is perforated. Each pair of sections. it is equipped with a valve 11 (in Fig. 5 between the second and third chambers in the open state, between the fourth and fifth chambers in the closed and bypass opening 12 with a shut-off valve, for example, in the form of a damper (not shown).

The unit is equipped with a metering pump. Periodic is provided; Drainage of sediment from each section through the lower drain 13.

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The installation works as follows.

The preliminarily prepared, neutralized, with mineralized feed added to the treatment, the wastewater is supplied by a dosing pump into the chamber 3 of the first section 1 of the anaerobic treatment zone A. Due to the difference in height of the legs 2 forming the chambers 3, the water is cleaned by gravity, successively a sequence of lower 14 and upper 15 flows passes through anaerobic zone A, where the heating system in the form of pipes 8 provides a temperature of 32-37 C, zone B, where aerobic processing due to aeration system, perforated in the form of perforated pipes 9 and zone B, where filtration is carried out (the filter is a layer of gravel with a size of 40 mm and 100 mm with a layer of granular activated carbon located above it. th e ang biological).

Since in chambers 3 sections 1 zones A and B on a perforated bottom 10 are installed in a certain order (Fig. 4) of cassette 4 from plates 5, a floating layer of rigid granular synthetic material 6 is placed on the interface surface of the two media. With the material 6 and around & perpendicularly mounted between each other, the plates 5 of the adjacent cassettes 4 are subjected to intense exposure to microorganisms. The grids 7, installed in the places of the upper water flow 15, do not interfere with it, prevent the material 6 from being redistributed between the chambers.

If it is necessary to regulate the cleaning mode, for example, at low sewage contamination, when several sections can be excluded from the cleaning system, install the valves 11 on two adjacent sections in the position that blocks the access of the section water and open the valves of the bypass holes 12. Water, mine blocked shutters section, h through the bypass holes 12 enters the next section.

The installation allows for the effective treatment of highly concentrated industrial wastewater produced by the TBD, GBB, DBP, and HBPD

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Claims (4)

Claim 1. Installation for microbiological, industrial wastewater treatment, containing a filtration unit, sections of anaerobic and aerobic water treatment with heating and aeration systems, respectively, the sections are divided by vertical partitions into a series of interconnected chambers in which removable cassettes of plates made of synthetic material are installed , t l and tQ, characterized in that, in order to reduce capital and energy costs, increase productivity and the degree of purification, it is equipped with anaerobic and - aerobic shoes with rigid floating granular synthetic material fixed on vertical partitions by means of preventing redistribution. 20 granulated material between sections, for example, grids, as well as a perforated bottom, the heating system is made in the form of pipes placed under the perforated bottom, 25 filtration unit - in the form of sections separated by vertical partitions, while the sections of anaerobic and aerobic processing, as well as filtration, are made adjacent. 2. Installation according to claim 1, characterized in that at least two cassettes are placed in each chamber of the sections of anaerobic and aerobic treatment, while the plates of adjacent cassettes are mutually perpendicular. 3. Installation according to claim 1, of m and n _'4 Q sistent in that each section is provided with a shutter, and the vertical partition -. Overflow aperture. 4. The installation according to claim 1, which implies that the filtration sections are equipped with a rigid floating granular synthetic material and means preventing 5Q of its redistribution. Fig. H