RU58529U1 - INSTALLATION FOR BIOLOGICAL CLEANING AND DISPOSAL OF NITROGEN AND WASTE PHOSPHORUS COMPOUNDS - Google Patents

Abstract

Application: to the biological treatment of domestic and wastewater close to them and can be used in the treatment of wastewater from small settlements and small industries. EFFECT: creation of an optimal installation for deep wastewater treatment by introducing additional equipment in the form of a second stage biofilter, and supplying first and second stage biofilters with flushing means, which allow achieving wastewater treatment quality that meets the standards for discharge into water bodies. The essence of the utility model: The installation contains a cylinder-conical sand trap 1, a primary settling tank 2 located behind it, with which a denitrifier 3 similar in design is combined with a brush charge designed to accumulate biomass in it, which purifies waste water from pollution. Next, the first stage biofilter 4 is provided, equipped with a secondary settler 5 with a circulation pump 6. In addition, the installation is equipped with an additional second stage biofilter 7, which is equipped with a tertiary settler 8 with a wash pump 9, while the biofilters 4 and 7 of the first and second stages are equipped with wash columns 10, made in the form of vertically mounted cylindrical pipes equipped with side openings, for water to enter through them into the thickness of the load (crushed stone), while the biofilter 7 of the second stage is filled with a smaller fr the share of crushed stone 15-20 mm. In addition, the circulating pump 6 of the secondary sump 5 is designed to pump biologically treated wastewater from the secondary sump 5 to the denitrifier 3 and the biofilter 7, and the flushing pump 9 of the tertiary sump 8 is designed to supply purified water to the washing columns 10 of the biofilters 4 and 5 of the first and second steps. (1 n.p.f., 1 ill.)

Description

The invention relates to the biological treatment of domestic and wastewater close to them and can be used in wastewater treatment of small settlements and small industries, as well as in the microbiological industry.

Biological wastewater treatment consists in the biochemical oxidation (mineralization) by microorganisms of organic substances (organic pollutants), dissolved and emulsified in wastewater. Bacteria participate in the mineralization of wastewater, which are divided into two groups, depending on their relationship to oxygen: aerobes (using oxygen dissolved in water when breathing) and anaerobes (developing without free oxygen).

Aerobic biological treatment is carried out under conditions close to natural (in irrigation and filtration fields, in biological ponds) and in artificially created conditions when the vital activity of microorganisms is intensified (in aeration tanks, air filters, biofilters).

With the anaerobic method of purification, metathenes are used.

The choice of the type of facilities is determined by the nature and quantity of wastewater, local conditions, quality requirements for the treated water, etc.

A known installation for biochemical wastewater treatment, containing a cylinder-conical body, divided by partitions into aeration and sedimentation chambers, a biofilter, a mixing chamber, a circulation pump, process piping and caps in the aeration zone (see AS USSR No. 1761688, class C 02 F 3/02, claimed 04.01.85, publ. 15.09.92).

The disadvantage of this installation is that it does not solve the issues of detention of coarsely dispersed suspensions and sand, removal of nitrogen compounds

and phosphorus, preserving the vital activity of microorganisms of biomass in the biofilter and the constant operation of the circulation pump.

The closest in technical essence and the achieved effect and taken as a prototype is an installation for biological treatment and removal of nitrogen and phosphorus wastewater containing a cylindrical sand trap, a mixing chamber, a device with a biofilter, an aeration tank, a sump and a circulation pump, a device with a denitrifier and a filter and piping system. In this case, the mixing chamber is connected to the suction pipe of the pump through a siphon pipe. The pressure pipe of the circulation pump is connected to the pipeline for supplying sludge mixture to the distribution system of the device with a denitrifier and a filter. The latter is connected by a pipeline to a receiving chamber mounted above the contact tank for water-jet ejection of air, which provides oxidation of organic pollutants and nitrification of ammonia, as well as partial reduction of nitrates into nitrogen gas. However, this cannot provide a sufficient decrease in the concentration of nitrates for the discharge of treated water into water bodies, therefore, the denitrifier device with a filter is included in the technological scheme of the unit, while the denitrifier is equipped with a speed or ruff charge, on which facultative anaerobes develop, which further restore nitrates to molecular nitrogen , and filter minerals, which include substances capable of adsorbing phosphate compounds (calcite, argonite, limestone) (see RF patent No. 2085515, C. C 02 F 3/02, claimed 24.03.94, publ. 07.27.97).

A disadvantage of the known installation is that the loading of the primary biofilter, which is, as a rule, large crushed stone (with a fraction of 50-70 mm and a stacking height of 2 m) quickly grows when interacting with incoming concentrated wastewater biofilm, which makes filtering difficult, therefore loading Needs periodic flushing. The implementation of washing the load in the known

Installation is possible only outside the filter, which in practice is not performed due to the complexity of unloading and the repeated return of the load to the filter.

In a known installation, excess activated sludge, which is a reagent for treating the source wastewater, is pumped from the aeration tank to the mixing chamber. Excess activated sludge in biological treatment plants is a limited substance, i.e. it does not form much, therefore, it is pumped periodically, while wastewater enters the mixing chamber continuously throughout the day, i.e. periodic pumping does not contribute to the continuity of the process of purification from phosphates and ammonium nitrogen.

In addition, when operating the aeration tank, expensive and unreliable blower equipment is used, because it often fails, and for washing the filter load, additional construction of the storage tank and pump station is required, which increases capital costs.

The objective of the utility model is to increase the reliability and degree of biological wastewater treatment while reducing capital costs.

The technical result is the creation of an optimal installation for deep wastewater treatment by introducing additional equipment in the form of a second-stage biofilter, and supplying the first and second-stage biofilters with flushing means to achieve wastewater treatment quality that meets the standards for discharge into fisheries of economic importance.

The problem is solved in that the installation for biological treatment and removal of nitrogen and phosphorus wastewater compounds containing a cylindrical sand trap, a denitrifier with a ruff loading, a first stage biofilter, sedimentation tanks, a circulation pump and process pipelines, according to a utility model, is additionally equipped with a second stage biofilter, which is filled with a smaller fraction of crushed stone from 15 to 20 mm, and the biofilters of the first and second stages are equipped

washing columns made in the form of a series of vertically mounted cylindrical pipes equipped with side openings, with the possibility of water penetrating through them into the thickness of the load, while the first stage biofilter is equipped with a secondary sump with a circulation pump, with the possibility of pumping biologically treated waste water from the secondary sump into a denitrifier and a second stage biofilter, and a second stage biofilter equipped with a tertiary sedimentation tank with a washing pump, with the possibility of supplying purified water to washing columns of biofilters 1 and 2 steps.

Studies conducted on the sources of patent and scientific research information have shown that the proposed utility model is unknown and does not follow explicitly from the material studied, i.e. meets the criterion of "novelty."

The proposed installation for biological treatment and removal of nitrogen and phosphorus wastewater compounds can find application in the treatment of effluents of small settlements and small industries, as well as in the microbiological industry. It can be manufactured using equipment and materials manufactured by both domestic and foreign industry, therefore, meets the criterion of "industrial applicability".

Distinctive features of the proposed utility model from the above known, closest to it, is that:

- the installation is additionally equipped with a biofilter of the second stage, which is filled with a finer fraction of crushed stone from 15 to 20 mm, where the “soil filtration” process is carried out, i.e. nitrogen and phosphorus compounds are removed under anaerobic conditions, which ensures deep wastewater treatment in all respects to the norm of their release into fishery bodies;

- equipping the biofilters of the first and additional second stage with washing columns, made in the form of a row of vertically mounted

equipped with side openings of cylindrical pipes, and the second-stage biofilter with a tertiary sump with a washing pump, with the possibility of supplying purified water to the washing columns of biofilters of 1 and 2 stages, provides preliminary penetration through them into the thickness of the load of biologically treated water, which is a timely and easy operation washing with a washing pump that periodically accumulates on the surface of crushed stone a biological film that impedes filtration;

- supplying the first stage biofilter with a secondary sump with a circulation pump, with the possibility of pumping biologically treated wastewater from the secondary sump to the denitrifier, which greatly improves the dephosphation process by creating anaerobic conditions in the denitrifier. When biologically treated water with a low concentration of contaminants is supplied, which is also fed to the second-stage biofilter by a circulation pump, it can be loaded with finer gravel of a fraction of 15–20 mm, which allows deep wastewater treatment of nitrogen and phosphorus compounds, while crushed stone of less than 15 mm (sand) loading the biofilter will become clogged with a biological film and the washing process in this case is extremely difficult, and with a fraction of more than 20 mm the deep cleaning process is difficult ki, because the “soil filtration” process is going badly.

Thus, the set of essential features of the proposed utility model allows to achieve a technical result, namely, the creation of an optimal installation for deep wastewater treatment by introducing additional equipment in the form of a second stage biofilter, and supplying the first and second stage biofilters with rinsing agents, which allow to achieve the quality of treatment wastewater that meets the standards for discharge into fisheries of economic importance.

The proposed utility model is presented in the drawing, where Fig. 1 shows a process diagram of a plant for biological treatment and removal of nitrogen and phosphorus wastewater compounds. The installation comprises a cylinder-conical sand trap 1, a primary settler 2 located behind it, the lower part of which is made conical to ferment the precipitate. A denitrifier 3 similar to it in design is combined with a primary settler 2 with a brush loading (not shown in the diagram), designed to accumulate biomass in it, which purifies wastewater from contamination. Next, a biofilter 4 of the first stage is placed, equipped with a secondary sump 5 with a circulation pump 6. In addition, the unit is equipped with an additional biological filter 7 of the second stage, which is equipped with a tertiary sump 8 with a washing pump 9, intended for final (deep) sewage treatment, while the biofilters 4 and 7 of the first and second stages are equipped with washing columns 10 made in the form of vertically mounted cylindrical pipes equipped with side openings for water to flow through them loading (crushed stone), while the biofilter 7 of the second stage is filled with a smaller fraction of crushed stone 15-20 mm In addition, the circulation pump 6 of the secondary sump 5 is designed to pump biologically treated wastewater from the secondary sump 5 to the denitrifier 3 and the biofilter 7, and the flushing pump 9 of the tertiary sump 8 is designed to supply purified water to the washing columns 10 of the biofilters 4 and 7 of the first and second steps.

The installation is used as follows.

Initial wastewater from the pumping station is fed through a pressure pipe to the cylinoconic sand trap 1, in which sedimentation of mineral contaminants occurs. The mineral sediment periodically accumulated in the conical part of the sand trap 1 is discharged to the sand platform (not shown in the drawing). From a sand trap 1 gravity wastewater

the pipeline is sent to the primary sump 2. The clarified waste fluid from the sump 2 is sent to the denitrifier 3, the entire working volume of which is pre-filled with a brush load. Subsequently, biologically purified wastewater from the sump 5 with the maximum amount of nitrates will be supplied to the denitrifier 3 together with the initial wastewater by a circulation pump 6. Anaerobic conditions are created in the denitrifier, and dephosphation occurs, i.e. removal of phosphates and ammonium nitrogen. In addition, oxygen nitrates, which are present in biologically treated wastewater, oxidize organic pollution. Pre-treated and diluted wastewater from the denitrifier 3 enters the biofilter 4 of the first stage, in which nitrification processes take place, while the biologically treated wastewater irrigating the loading surface is a nutrient medium for microorganisms of the biological film. The surface of the gravel during operation after some time is overgrown with a biological film, so there is a need to wash out the dead film with a strong stream of water. Next, the biologically purified water, together with the dead film from the biofilter 4 of the first stage, is carried out into the secondary sump 5, in which the biological film settles to the bottom. Next, biologically purified water is repeatedly pumped by a circulation pump 6 to the denitrifier 3, as well as to an additional biofilter 7 of the second stage, loaded with crushed stone of a fine fraction of 15-20 mm, in which denitrification processes (“soil filtration”) take place in the thickness of the load. Filtered water is discharged into a tertiary sump 8, where sediment residues and suspended biofilms are precipitated. From tertiary sump 8, water flows through a gravity pipe to a UV disinfection unit (not shown in the diagram) and then to a water outlet.

If necessary, namely, as the load of biofilters 4 and 7 overgrowth with biofilm, the biologically purified water from the tertiary sump

8 through pressure pipelines, the washing pump 9 is fed into the washing columns 10, which are installed in the loading of biofilters 4 and 7 of the first and second stages.

Thus, in comparison with the prototype, the proposed utility model provides increased reliability and degree of biological wastewater treatment, which is confirmed by the applied chemical analyzes, while reducing operating costs.

Claims (1)

Installation for biological treatment and removal of nitrogen and phosphorus wastewater compounds, containing a cylindrical conical sand trap, ruff denitrifier, first stage biofilter, sedimentation tanks, pump and process pipelines, characterized in that it is additionally equipped with a second stage biofilter, which is filled with a finer fraction of crushed stone from 15 to 20 mm, and the biofilters of the first and second stages are equipped with wash columns made in the form of a series of vertically mounted cylindrical pipes equipped with side o versts, with the possibility of penetration of water through them into the thickness of the load, while the first stage biofilter is equipped with a secondary sump with a circulation pump, with the possibility of pumping biologically treated wastewater from the secondary sump to the denitrifier and the second stage biofilter, and the second stage biofilter is equipped with a tertiary sump with flushing pump, with the possibility of supplying purified water to the wash columns of biofilters 1 and 2 steps.