RU2323891C1 - Machine for biological cleoning of waste water - Google Patents

Abstract

FIELD: production methods.

SUBSTANCE: machine contains, the consistent situated to the direction of the processing water motion, accumulator- averager, send catcher, two blocks of biological cleaning, tertiary settler and the system of technological tube lines. Every of the blocks contains double sectioned immersed drum bio-filter and secondary settler. Bio-filter is done as double sectioned immersed drum bio-filter, where the sections are divided by solid partition, at the same every section has 4 loaded sectored chambers. The secondary settler is made as opened cistern, includes 2-4 transversal touching filters with fixed load from retify zeolite of clinoptilolite mixture and chamvers for settling. The touching filters are installed in opened cistern with possibility of height regulating or full removal from their cistern. Amount of secondary settlers in each block is about 1-3.

EFFECT: fast exceeding of biomass of micro-organisms and more fully using of loading for disposition of the micro-organisms.

6 cl, 5 dwg

Description

The technical solution relates to devices for the biological treatment of domestic wastewater and can be used in the communications sector of small towns.

The prior art installation for wastewater treatment and sludge treatment. The installation comprises a sewage water inlet pipe, a receiving chamber with an integrated screen sieve connected by an anaerobic sump-bioreactor with a mesh charge, and a multi-chamber tank with semi-submersible rotating biofilters with a mesh load or a combination of planar and mesh elements with decreasing mesh size along the water and a secondary sump with thin-layer modules and a discharge sludge discharge pipe. In addition, the installation can be equipped with a flowing electrolyzer and a drum thickening device for sludge (RU, patent 1834860, C02F 3/06).

The disadvantage of this installation is the incomplete treatment of water.

The closest technical solution to the claimed one is a two-stage wastewater treatment plant, including a sand trap sequentially arranged in the direction of the treated water, two biological treatment units, a tertiary sump and a process piping system for the treated water. The first biological treatment unit is made of a biofilter with a plastic charge and a secondary sump, and the second unit is made of an aeration tank (S.V. Yakovlev, Yu.V. Voronov. Wastewater and wastewater treatment. M: Publishing House of the Association of Construction Universities, 2002, p. 316).

The disadvantage of this installation is the complexity of the installation, due to the need for additional pumping and blowing equipment for the aeration tank. In addition, the aeration tank does not allow to quickly and in sufficient quantities increase the biomass of microorganisms, which is the main indicator of the effective operation of the installation.

The technical result of this technical solution is the rapid increase in the biomass of microorganisms and the most complete use of the load to accommodate microorganisms, as well as the simplicity of the design of the installation and its technological maintenance.

The technical result is achieved by the fact that the biological wastewater treatment plant for domestic wastewater includes a sand trap sequentially located in the direction of the treated water, two biological treatment units, a tertiary sump and a system of process pipelines; the first biological treatment unit is made of a biofilter with a planar loading and a secondary sedimentation tank, while the installation additionally contains an averaging drive installed in front of the sand trap, the second block is made similar to the first, and the secondary sedimentation tank is made of an open tank, including 2-4 transverse cassette filters with a fixed loading of clinoptilolite composition and sedimentation chambers from fractionated zeolite.

In addition, the biofilter is made in the form of a two-section submersible drum biofilter, while the sections of the biofilter drum are separated by a solid partition, and each section has 4 loading sector chambers.

In addition, cassette filters are installed in an open container with the possibility of height adjustment or their complete removal from the tank.

In addition, the bottom of the open tank is made horizontal, and the tank itself has one outlet pipe.

In addition, the lower part of the settling chambers of an open tank is made in a pyramidal or conical shape with nozzles for supplying air to the chamber and the number of exhaust nozzles equal to the number of settling chambers.

In addition, the number of secondary sedimentation tanks in each block is 1-3.

The introduction of porous stationary fillers in the form of cassette filters from fractionated zeolite of clinoptilolite composition into secondary sumps can significantly increase the biomass of microorganisms, since the indicated zeolite load with high internal porosity is a highly effective medium for the attachment and development of colonies of microorganisms. The biomass of microorganisms is also enhanced by the design of a two-section submersible biofilter drum with a continuous partition, which increases the path of wastewater through the drum-submersible tank system. The efficiency of the installation during the treatment of heavily contaminated wastewater is also ensured by the implementation of secondary sumps with the possibility of supplying air to the settling chambers, since the load is most fully used to accommodate microorganisms, and the ability to adjust the cross-section filter in height for the flow of wastewater and the implementation of a secondary sump with aeration tank function greatly simplifies the design of the installation and its technological maintenance.

Figure 1 shows the technological scheme of the installation.

Figure 2 - drum two-section submersible drum biofilter.

Figure 3 is a side view of figure 2.

Figure 4 - secondary sump with a horizontal bottom.

Figure 5 - secondary sump with the bottom of the tank with a conical or trapezoidal shape.

The installation contains a system of technological pipelines 1 and sequentially located in the direction of movement of the treated water: averaging tank 2, submersible pump 3, tangential sand trap 4, two biological treatment units, each of which contains a two-section submersible drum biofilter 5, with a planar rigid backfill, two secondary sedimentation tank 6 and tertiary sedimentation tank 7. The averaging tank is a pit 3.5 × 3.5 m with a depth of 2.5 m and with concrete walls. The filling volume is 30-32 m ³ .

The drum 8 of the biofilter 5, located in the tank 9, is divided by a continuous transverse partition 10 into two sections 11, each of which is divided by mesh partitions 12 into 4 loading sector chambers 13, inside which the load 14 is placed (Figs. 2, 3). Ceramic, plastic, metal and ore zeolite bulk materials can be used as a load. Drum biofilter 5 is connected, for example, with two secondary horizontal settling tanks 6, made of Art. 3 in the form of open containers 15, equipped with, for example, 3 transverse cassette filters 16 with a load of 17 clinoptilolite fractionated zeolite with gravel sizes 10-30 mm The walls and sides of the cassette filters 16 are made of mesh, and the bottom and sides of Art.3. The tank 15 is divided by transverse cassette filters 16 into the settling chambers 18. Moreover, the tank 15 can be made with a horizontal bottom and with one outlet pipe 19 with shutoff valves 20 for the release of biological film and sludge for less polluted wastewater (Fig. 4). The lower part of the tank 15 can be made in a pyramidal or conical shape with pipes 21 for supplying air to the tank 15 and the number of exhaust pipes 19, equal to the number of settling chambers 18 for more polluted waters (Fig. 5). Each of the secondary sumps 6 through a piping system 1 for waste biofilm and sludge is connected to the tertiary sump 7.

Installation works as follows.

Wastewater through pipeline 1 periodically enters the averaging tank 2, from which it is fed with a submersible pump 3 at a constant speed to the tangential sand trap 4, where, at relatively low speeds, heavy mechanical impurities (sand) are deposited and air bubbles float, which float small organic substances and support them in suspension. Next, the wastewater enters the two-section submersible drum biofilter 5, rotating at a speed of 1-5 rpm, of the first biological treatment unit. The degree of immersion in the tanks 9 of the drum biofilters 6 in the treated wastewater is 0.35-0.45 of the diameter of the drum. On the surface of the planar charge 14, for example, plastic, colonies of microorganisms forming a biofilm are fixed and develop. During the passage of a part of the drum in the liquid phase, the process of sorption on the biofilm of undissolved colloidal and dissolved organic impurities contained in the treated wastewater is carried out. When the drum rotates, the biofilm is in the air, where there is intense absorption of oxygen and oxidation of sorbed contaminants. Due to the rotation of the drum, aeration of the treated wastewater is also carried out. The way of wastewater when moving them in a two-section drum 8 while bypassing the solid partition 10 between sections 11 increases and contributes to an increase in the biomass of microorganisms. Part of the biofilm, including the spent one, is torn off the surface of the plastic and, being in the treated wastewater in suspension similar to activated sludge flakes, is removed from the drum biofilter 6 and tank 9 and flows by gravity into the first secondary sump with transverse cassette filters 16 installed in an open container 15 with settling chambers 18. Loading of 17 cassette filters 16 in the form of a fractionated zeolite of clinoptilolite composition due to the large internal porosity and high sorption method It retains substantially suspended substances, including waste biofilm, and helps to firmly fix filamentous microorganisms forming in the treated water, which additionally cleans wastewater. In the case of heavily contaminated wastewater in secondary sumps 6, open containers 15 are used with the lower part of the pyramidal or cone-shaped tank with nozzles 21 for supplying air to the settling chambers 18, where the wastewater is subjected to aeration. After treating the wastewater in the secondary settling tanks 6 of the first biological treatment unit, the wastewater enters the biofilter 5 and the secondary settling tanks 6 of the second biological treatment unit, where the wastewater undergoes additional treatment. The spent biofilm and sludge of the first and second biological treatment units through the outlet pipes 19 of the secondary clarifiers 6 through pipeline 1 enter the tertiary clarifier 7, where they undergo final treatment that meets the MPC requirements for the discharge of treated domestic wastewater.

Claims (6)

1. Installation of biological treatment of domestic wastewater, including sequentially located in the direction of movement of the treated water, a sand trap, two biological treatment units, a tertiary sump and a system of process pipelines, while the first biological treatment unit is made of a biofilter with a flat charge and a secondary sump, characterized in that the installation additionally contains a drive-averager installed in front of the sand trap, the second block is made similar to the first, and the secondary settling to is made of an open container, including 2-4 transverse cassette filters with a fixed load of clinoptilolite composition from fractionated zeolite, and sedimentation chambers. 2. Installation according to claim 1, characterized in that the biofilter is made in the form of a two-section submersible drum biofilter, while the sections of the biofilter drum are separated by a solid partition, and each section has 4 loading sector chambers. 3. Installation according to claim 1, characterized in that the cassette filters are installed in an open container with the possibility of height adjustment or their complete removal from the tank. 4. Installation according to claim 1, characterized in that the bottom of the open tank is horizontal, and the tank itself has one outlet pipe. 5. Installation according to claim 1, characterized in that the lower part of the settling chambers of the open tank is made in a pyramidal or conical shape with nozzles for supplying air to the chamber and exhaust nozzles. 6. Installation according to claim 1, characterized in that the number of secondary sedimentation tanks in each block is 1-3.

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