RU187325U1 - SEWAGE TREATMENT DEVICE - Google Patents

Abstract

The utility model relates to the field of ecology and environmental protection, namely to devices for wastewater treatment, and can be used both in stationary and in stand-alone facilities when discharging wastewater into the zones of sanitary protection of water bodies, where the most stringent requirements for the quality of discharged purified water. The technical result of the patented solution is the ability to maintain high quality water purification and eliminate splashing in conditions of strong rolling in the case of using the installation on mobile ships. At the same time, it is possible to control the ash content of activated sludge resulting from treatment, and to increase the precipitation within one sump, which significantly reduces the cost of subsequent dewatering of the sludge and cake, which ensures a waste-free process. A wastewater treatment device comprising a hydraulically serially connected sewage supply pipe, a grate, a sand trap, a primary treatment tank, an anaerobic-anoxide compartment, a biological treatment compartment, a microfiltration compartment, an ultraviolet water disinfection unit and a purified water outlet pipe, wherein the tank primary cleaning has an inlet pipe for supplying reagents in front of the flotator, after which there is a coarse microfilter, a sediment tank, at the bottom of which The sludge pump is configured to pump sludge from the coarse microfilter and from the anaerobic-anoxide compartment, the anaerobic-anoxide compartment contains pumps configured to pump water from the coarse microfilter, mix the sludge mixture and discharge the sediment into the sediment tank and water into the compartment biological treatment, the biological treatment compartment includes aerators and is configured to feed activated sludge into the anaerobic-anoxide compartment and water into the fine filter compartment, including aerators and an outlet pipe sludge into the anaerobic-anoxide compartment and the water outlet pipe to the ultraviolet water disinfection unit.

Description

The utility model relates to the field of ecology and environmental protection, namely to devices for wastewater treatment, and can be used both in stationary and in stand-alone facilities when discharging wastewater into the zones of sanitary protection of water bodies, where the most stringent requirements for the quality of discharged purified water.

Installations can be stationary or mobile, for example, ship. Mobile ship installations, in addition to the traditional requirements for organizing a deep wastewater treatment process, must meet the conditions of autonomy and tolerate the rolling of ships. The condition under which pitching occurs can be fulfilled in closed containers equipped with devices to prevent water splashing. Conventional open sumps and aeration tanks in this situation are unsuitable for use.

Small-sized installations for treating domestic wastewater from autonomous objects can be in a variety of conditions that will determine the quality requirements of the treated purified water. The most stringent requirements are imposed when discharging treated wastewater into the sanitary protection zones of water bodies.

The following solutions are known from the prior art for wastewater treatment in mobile ship installations.

Known small-sized mobile installation for wastewater treatment, including hydraulically in series connected sump-averager, anaerobic block, anoxide block, oxide block, membrane filtration block, as well as auxiliary equipment. At the same time, the averaging sump contains a device for receiving source, waste water; the anaerobic block is configured to feed back activated sludge into it along with wastewater from the oxide block; the oxide block is configured to feed into it return sludge from the membrane block and is equipped with an aeration device; and the membrane filtration unit is equipped with an aeration device and a vacuum device for the removal of purified water to discharge (RF patent No. 2537611, published on 08/14/2012).

The closest analogue to the patented solution is the Bio-Master sewage treatment plant (http://www.labko.ru/biologicheskaya-ochistka-bytovyh-stochnyh-vod/stancii-biologicheskoy-ochistki-biomaster/, date of publication of information 05.11 .2016) located in round plastic containers and including an aerated sump, where sediment is sedimented, air is saturated and primary biological treatment, a biofilter where water passes the second stage of treatment, a secondary sump, a chemical aftertreatment and disinfection unit, microfiltration unit. The system is also equipped with recirculation of activated sludge and forced aeration.

The technical problem solved by the proposed utility model is that in mobile ship installations, in addition to the traditional requirements for organizing a deep wastewater treatment process, they must meet the conditions of autonomy, compactness, and tolerate the pitching of ships. The condition under which pitching occurs can be performed in closed containers equipped with devices to prevent water splashing. Conventional open sumps and aeration tanks in this situation are unsuitable for use.

The technical result of the patented solution is the ability to maintain high quality water treatment. At the same time, it is possible to control the ash content of activated sludge resulting from treatment, and to increase the precipitation within one sump, which significantly reduces the cost of subsequent dewatering of the sludge and cake, which ensures a waste-free process.

The claimed technical result is achieved due to the design of the device for wastewater treatment, containing connected in series, in the order of flow of the bulk of the liquid, the pipeline for supplying wastewater, grate, sand trap, primary treatment compartment, anaerobic-anoxide compartment, biological treatment compartment, fine microfiltration compartment , an ultraviolet water disinfection unit and a purified water outlet pipe, while the primary treatment compartment has an inlet pipe for supplying reagents (Al ₂ (SO ₄ ) ₃ , Fe ₂ (SO ₄ ) ₃ or FeCl ₃ ) in front of the flotator, made in the form of a flotation column, after which a coarse microfilter is placed, with a supply pipe for air from the blower and a sludge outlet pipe, configured to supply sludge to the tank, at the bottom of which there is a sludge pump made with the possibility of pumping sludge from the coarse microfilter and from the anaerobic-anoxide compartment, the anaerobic-anoxide compartment contains pumps configured to pump water from the coarse microfilter, mixing sludge mixture and withdrawal of sludge to the sediment and water tank in the biological treatment compartment, the biological treatment compartment includes aerators and is configured to supply activated sludge (to the anaerobic-anoxide compartment) and water to the fine filtration compartment, which includes aerators and an outlet pipe for activated sludge to anaerobically -anoxide compartment, as well as a water outlet pipe to an ultraviolet water disinfection unit and then to a receiver in a pond.

In the particular case of the implementation of the utility model, the aerators located in the biological treatment and fine microfiltration compartments have rubber membranes with holes 1-2 mm in diameter, in the normal state, the holes are closed and do not allow air or water to pass through, but at a pressure of 0, 2-0.8 m water. Art. reveal and perform the function of microfiltration elements.

In the particular case of the implementation of the utility model, the sludge pump located at the bottom of the sludge tank is configured to supply sludge to a flocculator having a flocculant supply pipe and connected to a sludge thickener configured to remove sludge water from one pipe for further cleaning (in start of cleaning - receiving tank) and withdrawal of cake from another nozzle for further disposal.

Further, the solution is illustrated by reference to the figure, which shows the technological scheme of the installation for wastewater treatment:

1 - wastewater supply; 2, 3 - grate, sand trap; 4 - primary cleaning compartment; 5 - supply of reagents; 6 - flotator; 7 - coarse microfilter; 8 - reservoir for precipitation; 9, 10 - saturator; 11 - sediment pump; 12 - anaerobic-anoxide compartment; 13 - pumps for mixing the sludge mixture; 14 - compartment biological treatment; 15 - aerator; 16 - microfiltration modules; 17 - compartment microfiltration; 18 - microfiltration modules; 19 - return of the sludge mixture; 20 - installation of ultraviolet radiation; 21 - output of purified water; 22 - flocculant supply; 23 - flocculator; 24 - sediment thickener; 25 - silt water; 26 - cake packing apparatus; 27 - export cake; 28 - blower.

The device comprises a wastewater supply line 1, made, for example, in the form of a pipeline or an open sewage channel, and a reagent supply line 5 to the primary treatment compartment 4 (Al ₂ (SO ₄ ) ₃ , Fe ₂ (SO ₄ ) ₃ or FeCl ₃ ) . The reagent supply line 5 is made in the form of a pipeline.

The pumping station and the receiving tank of the wastewater treatment unit often perform similar functions, it is advisable to organize their interaction, especially in terms of filling, averaging and supplying the flow to the treatment.

The reservoir of the pumping station performs the function of the initial assessment of the composition of wastewater by temperature (not higher than 40 ° C), possible volley discharges of oil and oil products, surfactants, harmful technological waste.

In the case when the reservoir of the pumping station operates cyclically: it is filled with drain, its quantity and quality are determined, then pumping to the cleaning unit is carried out.

In the case when the receiving tank of the cleaning unit is not designed to control the flow rate of incoming wastewater, the tank of the pumping station becomes a full-fledged averaging battery.

It is necessary to carry out the flotation of fats, oil, surfactants at the entrance to the tank. Flotator 6 is installed in the form of a flotation column with a fine bubble aerator-saturator (saturation of water with air) and a sludge absorber (microbubbles of air stick to the substances of wastewater contaminants that float to the surface, forming a sludge).

Wastewater through a pipe flocculator is fed into the flotator, and through the saturator 10, equipped with a pump 9, already purified, air-saturated water enters. The pipe flocculator is designed to supply wastewater treated with reagents to the flotator (please provide examples of reagents). Saturator 10 serves to uniformly dissolve air in water. Water saturated with air is fed into the flotation chamber, where at atmospheric pressure the dissolved air is released in the form of bubbles and floats suspended flocculated particles formed in a tubular flocculator. The pop-up mass is continuously removed by mechanisms for raking flotopen into the sludge collector. Next, water through a coarse microfilter enters the anaerobic-anoxide compartment.

Also in compartment 4, there is a storage tank 8 for sludge in front of the dewatering apparatus (in front of a drum-type sludge thickener) made in the form of a flocculator 23, the flocculator is made by adding a flocculant (polymer) 22 to the wastewater and a sludge thickener 24 (additive for the formation of solid skeleton in the sediment), from which sludge water is discharged through the water supply 25 and the dry product is supplied to the apparatus for packing cake 26, from where cake 27 is discharged for export and further sale, for example, in construction.

Next, the issue of processing the flows of secondary filtrate products, drain water, foam, etc. If it is necessary to treat them with reagents, biological methods (denitrification, biooxidation), a separate compartment is equipped with appropriate equipment.

In closed installations, the unit of mechanical and chemical water treatment becomes the most important element. It is carried out in the form of a filtration module with a rubber membrane of low resistance and an alluvial layer of sediment. The modules are immersed inside the tank volume and work due to the difference in water level (piezometric pressure or evacuation). Membrane regeneration is carried out by blowing with compressed air, washing with a washing solution and then with clean water.

It is also possible to remove the membrane modules for cleaning and washing.

Anaerobic and anoxic compartments are in the form of containers equipped with pumps for mixing and pumping liquids. In the presence of rolling and pitching, which will facilitate the mixing of the silt mixture, but in order to prevent water from splashing out, soothing elements are placed inside the compartments (hole partitions, mesh or chip modules, floating mats).

In the aeration tank of the biological unit, fine-bubble aerators should be located in the center of the tank (along the axis of the round tank, which coincides with the axis of swing of the tank).

Inside the aeration tank there are sludge filter modules operating in the mode of coarse filtration of the sludge mixture to provide a sludge dose in the aeration tank at the level of 4-5 mg / l and the discharge of activated sludge into the anaerobic-anoxide oxide compartment. The filtrate from this node is sent to a fine filtration, ensuring the removal of suspended matter at a level of 3-5 mg / l. The final stage of water treatment will be ultraviolet disinfection (UV).

The filtration modules used in the claimed installation are aerators with rubber membranes, the holes in which are 1-2 μm in diameter, in the normal state, the holes are closed and do not allow air or water, but at a pressure of 0.2-0.8 m water . Art. reveal and work as microfiltration elements.

Long-term trouble-free operation of aerators, their non-contamination and resistance to activated sludge prove unconditional suitability for use in the microfiltration of sludge mixtures.

Micropores in membranes can be obtained in various ways: mechanical piercing of a rubber sheet, pipes; laser burning of finished products. The shape of the porous channel may depend on the objectives of water filtration, the formation of a sediment layer, the degree of opening of pores during the filtration or washing with washing solutions or with an air-water mixture.

In contrast to rigid membranes, it is possible to organize vibrations of the edges of the porous hole, which will prevent fouling with salt deposits and the attachment of coagulants and flocculants to the surface of the porous space. Full closure of the pores when relieving the pressure is achieved by puncturing the rubber in a stretched state.

According to the configuration, the pores can be round with a rectilinear or tapering (expanding) channel, oval, curly (in the form of a cross), or in the form of a direct through cut of the material. On tubular membranes, cuts may be located across the tube section. Aerated membrane modules are made in the form of a package of flat frames, and tubular elements according to the type of airlift installations.

Water filtration and pore washing can be carried out in direct-flow or cross-flow modes. In the first case, the filtrate and wash water are discharged through various channels during the filtration and washing period, and in the second case they are transferred to various containers by opening and closing the valves. In cross flow separation modes due to the pressure of the water.

The process of chemical regeneration of membranes is developed in accordance with the properties of trapped impurities. Possible membrane cleaning options: heat treatment in detergent solutions; acid treatment to dissolve crystalline deposits; suppression of the growth of microorganisms attached to the surface of the membrane of membranes by oxidizing agents. Regeneration can be carried out both inside the volume of the filtration unit, and when removing the filter elements.

An important role in the process will belong to the properties of rubber used for the manufacture of membranes. Soft fused edges of the pores without burrs, tears and hairs will increase the efficiency of filtration and cleaning.

The proposed treatment scheme was tested at treatment plants in St. Petersburg. A high degree of purification is achieved, which meets the requirements of the Helsinki Commission for the Protection of the Baltic Sea Water from Pollution: the concentration of suspended solids in purified water is 5-6 mg / l; BOD5 purified water 2-3 mg / l; COD of purified water 25-30 mg / l; total nitrogen less than 10 mg / l; ammonium nitrogen 0.4-0.5 mg / l; phosphorus total less than 0.5 mg / l; phosphorus phosphates 0.1-0.2 ml / l. These results were obtained without additional treatment (post-treatment) of water.

For comparison, the average indicators of the degree of purification for the installation of "Bio-Master":

the concentration of suspended solids in purified water 10 mg / l; BOD5 purified water 3 mg / L.

Claims (3)

1. A device for wastewater treatment, containing a hydraulically serially connected pipeline for supplying wastewater, a grate, a sand trap, a primary treatment tank, an anaerobic-anoxide compartment, a biological treatment compartment, a microfiltration compartment, an ultraviolet water disinfection unit and a purified water outlet, this primary treatment tank has an inlet nozzle for feeding the reactants (Al ₂ (SO _{4) 3,} Fe ₂ (SO _{4) 3} or FeCl ₃₎ to the skimmer designed as a flotation column with finely ae a saturator-saturator and a sludge absorber, after which a coarse microfilter is placed, with a supply pipe for air from the blower and a sludge outlet pipe, configured to supply sludge to the tank, at the bottom of which there is a sludge pump configured to pump sediment from the coarse microfilter and from the anaerobic-anoxide compartment, the anaerobic-anoxide compartment contains pumps configured to pump water from the coarse microfilter, mix the sludge mixture, and discharge charge to the sediment and water tank in the biological treatment compartment, the biological treatment compartment includes aerators and is configured to supply sludge to the anaerobic-anoxide compartment and water to the fine filter compartment, including aerators and an outlet pipe for activated sludge to the anaerobic-anoxide compartment and the water outlet pipe in the installation of ultraviolet disinfection of water. 2. The device according to claim 1, characterized in that the aerators located in the compartments of biological treatment and fine microfiltration, have rubber membranes with holes, the diameter of which is 1-2 microns. 3. The device according to claim 1, characterized in that the sludge pump located at the bottom of the sludge tank is configured to supply sludge to a flocculator having a nozzle for supplying a flocculant and connected to a sludge thickener configured to discharge sludge water from one nozzle for further cleaning (at the beginning of cleaning - the receiving tank) and removing the cake from another pipe for further disposal.

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