RU2137720C1 - Plant for biological cleaning of domestic waste water - Google Patents

Abstract

FIELD: biological cleaning of domestic waste water where it is impossible to connect to sewage system. SUBSTANCE: plant includes septic tank-settler, device for biological cleaning of clarified waste water in aeration charge of aerotank with attached microorganisms; it is provided with diaphragm aerators; plant includes also second settler with airlift device for directing the sediment to septic tank-settler. Diaphragm aerators are located directly under bulk porous profiled charge at specific surface of 280 to 400 sq.m/cu.m; they located at distance from charge not exceeding the amount of expansion of diaphragm. Device for introducing clarified water into aerotank is located above charge; ratio of heights of aerotank, upper and lower zones of change of direction of motion of flow and zone of charging are equal to 9.5-10.0:0.95:1.0:6.5-7.0:1.8-2.0, respectively. Plant is additionally provided with trickling biofilter having charge at specific gravity of 0.80 to 0.95 g/cn.m, water receiving device which is combined with chamber of submersible pump and water decontamination device mounted under pump. EFFECT: enhanced reliability and improved cleaning of water. 1 dwg

Description

 The invention relates to the field of biological treatment of domestic wastewater and can be used to solve the problems of disposal of the aforementioned wastewater in remote locations of cottages, cottage neighborhoods, hotels, motels and gas stations, i.e., where there is no possibility of connecting to the sewage system.

A known installation for the biological treatment of domestic wastewater in small settlements, consisting of a sump with a controlled level of clarified water and a pump station, biofilters with distribution devices, a mixing chamber with flocculants, a reactor and a block of thin-layer sumps; the installation provides for recirculation circuits of clarified and biologically treated wastewater, as well as sludge from thin-layer sumps through mechanical treatment sumps and an automatic control system (See Austrian Patent N385498, C 02 F 3/00 of 08.29.86, publ. 11.04.88 g.)
A disadvantage of the known installation is the complexity of the design of thin-layer sumps, uneven distribution of the purified water over the entire area of the biofilter, the need for constant dosing of reagents and a low degree of water purification.

 Known modular installation for biological treatment of domestic wastewater, consisting of pre-treatment, biological treatment, containing at least two rotary bioreactors with tubular loading, each of which contains one submersible biofilter, and purification. Bioreactors can operate in both aerobic and anaerobic modes (See application N 4444514. firms GRUNDMANN, DIETER, DIPL. -PAED.-ING, Germany from 11/30/94, class C 02 F 3/08).

 A disadvantage of the known installation is the design complexity and reduced reliability of the installation due to the placement of equipment in direct contact with the treated water.

 A known installation for biological treatment of domestic wastewater, containing a pre-treatment device - a sump, in which the precipitation of organic and inorganic impurities occurs, aeration tank connected to it with a load in the form of tubes of various cross-sectional shapes with microorganisms fixed to their surface and an aerator mounted below the surface of the liquid made in the form of a diffuser and a mixer, providing saturation of water with air and the creation of a circulating water-air flow through the loading layer ki; the unit is additionally equipped with a settling tank for sedimentation of the remaining suspension and biofilm connected to the aeration tank. (See PCT 95 116354/25 application dated July 28, 955, CL C 02 F 3/06 with US priority 02/01/93).

 A disadvantage of the known installation is the design complexity, high energy consumption due to the need for the simultaneous use of two independent aeration and mixing systems.

A known installation for biological treatment of domestic wastewater, the closest in purpose and technical essence to the proposed one, consisting of a pre-treatment device - a septic tank-settler for separating suspended matter and biofilm returned from the stage of post-treatment from the settler, a device for biological treatment on aerated floating granular loading aeration tank with microorganisms attached to its surface, equipped with membrane aerators installed at the bottom of the aeration tank, and providing a water carrier circulation stuffy flow up from the membranes through the loading layer and down along the side walls of the aeration tank for the formation of aerobic and anaerobic zones and a device for supplying pre-clarified water buried in the aeration tank under the loading layer, as well as a device for tertiary treatment of wastewater - a secondary sump with an air-lift pump, communicated with the first septic tank - a sump for disposal of sludge with excess biofilm into it (See the brochure of DYWIDAG - AQUASCHUTZ, Germany "Compact sewage treatment plant for domestic faecal sewage")
A disadvantage of the known installation are:
- low operational reliability due to significant abrasion of the bulk load during the aeration process due to the direct-flow movement of the air-water mixture and purified water and the need for periodic shutdown of the installation to clean the aeration zone and replace the load; the overhaul period of the known installation, indicating a low reliability of operation, is 2-3 years;
- insufficiently high degree of purification (BOD _full -15 mg / l, suspended solids 15 mg / l), due to the use of granular loading with a relatively small specific surface area, the lack of an optimal regime of biological treatment and post-treatment.

 The technical result of the proposed installation is to increase the reliability of operation and the degree of water purification.

The technical result is achieved by the fact that in the installation for biological treatment of domestic wastewater, consisting of a septic tank - sump, a device for biological treatment of pre-clarified wastewater on an aerated aeration tank with attached microorganisms, equipped with membrane aerators, and a secondary sump with an airlift device for sediment discharge in the septic tank - sedimentation tank, membrane aerators are placed directly under the volumetric, porous, shaped load with a specific surface area of 280 - 400 m ² / m ³ , separated from the load by an amount not exceeding the membrane expansion value, a device for introducing clarified water into the aeration tank is placed above the load, the ratio of the heights of the aeration tank, the upper zone of changing the direction of flow, the loading zone and the lower zone of changing the direction of flow is 9, 5-10.0: 0.95-1.0: 6.5-7.0: 1.8-2.0, respectively, while the installation further comprises a drip biofilter with a dispersed water inlet, a charge with a specific gravity of 0.80 -0,95 g / m ^{3, the} catchment device combined with a camera immersion Foot pump and a device for disinfecting water, mounted above the pump.

 The drawing shows the installation for biological treatment of domestic wastewater.

 The installation consists of a septic tank - sump 1 with a device for water inlet 2, a drainage device 3 and a device for unloading sludge 4, a device for biological treatment of water 5, consisting of an aeration tank 6 and a secondary sump 7, separated from one another by a semi-submersible partition 8; the aeration tank 6 has a loading zone 9, located above it the upper zone of changing the direction of flow 10 and below it is the lower zone of changing the direction of flow of 11, membrane aerators 12, a pipeline for supplying compressed air to them 13 and an inlet 14. The secondary clarifier 7 is equipped airlift device 15 for draining excess biofilm and sediment into a septic tank - sump 1 and a device 16 for draining clarified water into a drip biofilter 17; drip biofilter 17 with loading 18 has an inlet dispersed device in the form of an annular perforated pipe 19, coaxial to the drip biofilter 17, a central drainage device 20 combined with the pump chamber 21 of the submersible pump 22, a water disinfection device 23 and a device for discharging purified water 24.

Installation for biological treatment of domestic wastewater works as follows:
The initial wastewater with a suspension content of up to 300 mg / l and organic matter (BOD _full ) up to 350 mg / l is fed into the septic tank 1 through the inlet 2 to isolate the largest contaminants, most of which are deposited on the bottom, where they undergo anaerobic digestion , another part of the impurities floats to the surface of the water, forming a “crust”. The pre-clarified water is selected through a special drainage device 3, which prevents flooding of contaminants and sludge from entering the clarified water, and the sludge is taken through the sludge discharge device in the form of a pipe 4 with a sediment supply hose connected to it.

 The clarified water flows in a gravity flow mode to the biological treatment device 5 through an inlet device 14 located above the central part of the aeration tank 6 load. 6. Oncoming movement of water and a stream of compressed air directed by membrane aerators 11 installed directly under the load 9 into its central part, forms a circulating water-air flow in aeration tank 6.

 The ratio of the heights of the aeration tank 6, the upper zone - the zone of changing the direction of the circulating stream 10 from the central part of the load to its periphery, the loading zone 9 and the lower zone of changing the direction of the circulating stream 11 from the periphery to the central part of the load is 9.5-10: 0.95- 1.0: 6.5-7.0: 1.8-2.0, respectively.

Water moves down through a layer of volumetric, porous, shaped charge 9 with attached microorganisms and a specific surface area of 280 - 400 m ² / m ³ , constantly aerated by air through porous membrane aerators 11 installed directly below the charge 9 and separated by an amount not exceeding membrane expansion values.

 Placing the aerators 11 directly under the loading layer 9 at a distance not exceeding the membrane expansion value creates the optimal hydrodynamic regime of the aeration zone — an upward intense directed flow of the air-water mixture in the central part of the charge 9 and a downward movement of liquid at the periphery, which entails the creation of an aerobic zone in the central part and aerobic-anoxic - on the periphery. The latter allows cleaning from a wide range of contaminants, in the oxidation cycle of which various hydrogen acceptors (oxygen, nitrites, nitrates, etc.) take part.

The use of volumetric, porous loading with a specific surface area of 280 - 400 m ² / m ³ ensures maximum sorption, oxidation of organic substances and removal of excess biofilm from the surface of the structured loading.

The use of a load with a specific surface of 270 m ² / m ³ reduces the intensity of sorption and oxidation and, therefore, affects the quality of water treatment.

The use of a load with a specific surface of 410 m ² / m ³ leads to a decrease in mass transfer characteristics on the surface of the load (lack of oxygen for oxidation processes with an unreasonably increased specific surface of the load) and, as a consequence, to the formation of stagnant zones, partial decay of the biofilm and a decrease in the reliability of operation.

 The proposed ratio of the heights of the aeration tank, the loading zone, the upper and lower zones of change in the direction of flow, comprising 9.5-10.0: 0.95-1.0: 6.5-7.0: 1.8-2.0, it is optimal because it makes it possible to create a free zone over the load — a zone of changing the direction of the circulating flow rising from the central part of the load to its periphery, as well as protecting the load from drying out, determines the optimal load volume, combined into an easily replaceable unit, and ensures the creation of zones of change of circulation direction along eye from the periphery to the central part of the aeration tank and placement of aerators.

The use of a volumetric porous shaped loading with a developed surface in combination with the placement of aerators directly below the loading, an inlet device for pre-clarified water above it with the proposed ratio of the heights of the zones of change in the direction of movement of the circulating stream provides effective sorption and oxidation of organic substances contained in water by microorganisms immobilized on charging surface, creating oxygen optimum installation mode (1-4 mg / l of dissolved O ₂₎ and yshaya thereby the degree of water purification.

 On the other hand, the use of a porous load with a developed surface excludes its overgrowing; placing aerators directly under the load creates an intense directed upward flow, easily tearing off excess biofilm from the loading surface and preventing its abrasion when the flow moves through the central part of the load to the periphery. When the flow moves from the periphery to the central part of the load, sludge of the lower zone of the aeration tank sharply decreases. All of the above factors contribute to improving the reliability of the installation.

 Water after aeration passes under a semi-submersible baffle 8, forming a separate chamber with a wall of the aeration tank 6 - a secondary sump 7, and rises upwards in it. Excess biofilm contained in biologically treated water precipitates to the bottom of the secondary clarifier 7, from where it is periodically pumped by airlift 15 into a septic tank - settler 1, thereby intensifying the cleaning process and simplifying the operation of the installation due to anaerobic stabilization of precipitation in one building - a septic tank- sump 1.

Water that has undergone a complete biological treatment is taken through a clarified water drainage device 16 and is fed by gravity to the after-treatment through an inlet device made in the form of an annular perforated pipe 19 coaxial to a drop biofilter 17 with a specific loading of 40-80 g of BOD _full / m ³ / day

Water, distributed evenly over the entire surface of the load 18, is filtered from top to bottom through the load layer 18 with a specific gravity of 0.80 - 0.95 g / m ³ . The implementation of the post-treatment process with the above parameters allows for deep water purification from pollution and to minimize the increase in excess biomass. The use of "light" loading provides automatic washing of the filter layer in the event of slamming due to the emergence of "light" loading and mutual friction of its particles, which increases the reliability of operation of the installation.

 Filtered water is collected by the central drainage device 20 with the pump chamber 21 of the submersible pump 22 and the device for disinfecting water 23 mounted above the pump chamber 21 located therein and pumped out of the installation through the exhaust device 24.

 The entire working volume of the load 18 of the drip biofilter 17 is involved in the post-treatment process due to the placement of the pump chamber 21 of the submersible pump 22 and the disinfection device 23 in the lower part of the central drainage device 20. The use of pumping water significantly expands the range of application of this small-sized installation due to the possibility of its placement on a significant deepening in relation to the place of discharge of purified water. In this case, the submersible pump 22 is turned on automatically as purified water arrives. The disinfection device 23 is located between the on and off levels of the pump 22, which can significantly reduce the consumption of the disinfecting reagent, since the latter is used only for the amount of water that is intended for discharge, and not for the entire volume located in the drip biofilter 17 of the after-treatment.

The purified water has the following characteristics:
BOD _full - 3.0 mg / l; suspended solids - up to 3.0 mg / l.

The proposed compact small-sized installation in comparison with the known provides:
- improving the reliability of operation due to the placement of aerators directly under the load, the use of volumetric, porous, profiled loading with a developed surface in combination with the counterflow mode of the process, a certain ratio of the heights of the aeration tank, the loading zone and the upper and lower zones of changing the direction of fluid flow and preventing overgrowing of the load , its abrasion and clogging the aeration zone; the overhaul period of the proposed installation increases from 2-3 years (according to the prototype) to 15-20 years;
- increasing the degree of water purification to the MPC standards of the Russian Federation through the use of a load with a developed surface, the creation of an optimal oxygen regime for a biological purification device, and the retrofitting of a drip biofilter; BOD is _completely reduced from 15 mg / l to 3 mg / l, the content of suspended solids - from 15 mg / l to 3 mg / l.

Claims (1)

Installation for biological treatment of domestic wastewater, consisting of a septic tank-settler, a device for biological treatment of pre-clarified wastewater on aerated aeration tank with attached microorganisms, equipped with membrane aerators, and a secondary clarifier with an airlift device for draining sediment into a septic tank, characterized in that membrane aerators are located directly below the volumetric, porous, profiled load with a specific surface area of 280 - 400 m ² / m ³ , they are separated from the load by and a value not exceeding the membrane expansion value, the device for introducing clarified water into the aeration tank is placed above the load, the ratio of the heights of the aeration tank, the upper zone of changing the direction of movement of the circulating stream, the zone of loading and the lower zone of changing the direction of movement of the circulating stream is 9.5 - 1.0 : 0.95 - 1.0: 6.5 - 7.0: 1.8 - 2.0, respectively, while the installation additionally contains a drip biofilter with a dispersed water inlet, a charge with a specific gravity of 0.80 - 0.95 g / m ^{3, the} catchment device, aligned with ka eroy submersible pump and a device for disinfecting water, mounted above the pump.