SU1020379A1 - Apparatus for biochemical purification of effluents - Google Patents

Description

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The invention relates to the biochemical purification of household water and close to it in terms of the composition of wastewater and can be used for treating wastewater of small populations of 1X points, towns, small cities and industrial enterprises. Closest to the proposed device is a biological eye device. The wastewater consists of a biofilter located above the cylindrical reuer with a mineralizer and a settling tank inside. The device also includes a receiving chamber and a circulating pump l. Wastewater treatment in a known device is mainly carried out in a biofilter, and in the mineralizer only wastewater purification and partial mineralization of the excess biomass takes place. Therefore, the effect of more purification can be achieved both due to the high frequency of recycling (up to 2O) and due to a significant increase in the size of the biofilter. In turn, the high frequency of recycling entails significant energy consumption and lowering the temperature of the treated wastewater. The purpose of the invention is to increase the efficiency of use of the device due to the more complete use and improvement of air solubility and a decrease in reuse rate. This goal is achieved by the fact that the device containing a cylindiconically body, divided by partitions into aeration and settling chambers, a biofilter mixing chamber, a circulation pump and process piping, is equipped with a biofilter pad mounted under the central opening, an underflow pipe installed under it with a vortex funnel. . In addition, the device is equipped with air caps located in KaMepej. Aeration of the Podash pipe is equipped with an additional pipe in it. FIG. 1 shows a device for longitudinal section; in fig. 2 - device, in plan. A device for carrying out the method consists of a biofilter 1, with an irrigation system 2 in a guide pan 3 located on a cylindrical tank, inside which is located. aeration tank 4 and sump 5. In the aeration tank there is a supply pipe 6 with a vortex funnel. Domes 7 are attached to the pipe to create air zones within the aero tank. By the tops (the perimeter of the domes are arranged to open the outlet of the displaced air. A land pipe can consist either of a single solid pipe or of several smaller diameter pipes in one pipe. The device also contains a mixing chamber 8, a pump 9 and a bypass pipeline 10. The operation of the device is as follows. The initial wastewaters subjected to pretreatment (removal of coarse suspended solids) enter the mixing chamber 8, mix with recirculated liquid and sludge, and then are pumped. 9 through the discharge line to the installation. The incoming liquid is distributed by the irrigation system 2 over the loading surface of the biofilter 1, Stack of loading from top to bottom, the mixture of wastewater and sludge is biochemical cleaned by the action of microorganisms of the biocenosis of the overgrown coating of the biofilter. and passing through the loading of the biofilter 1, the liquid is saturated with oxygen, being found in a dry breath. The partially cleaned and pressurized air with a hydrogen filter, after the biofilter, flows down along the guide pan 3 into the feed pipe 6 of the aerotank, where air is additionally filled with air by means of airflow. Dissolution of oxygen from the air occurs both directly in the supply pipe during the movement of the gas-liquid flow, and in the aeration tank 4 as a result of the formation of a large amount of small bubbles during the expiration of the indulgence. Pop-up zuzirki fall under the first cap 7, and the displaced air in the form of bubbles vkodit through the holes and falls under the second cap, etc. In the aeration tank 4, under the action of the active NPA, consisting of cultivated microorganisms and mi1CrO {} of the extracting bass class, some of the organic pollutants not detained by the biological trap of the biofilter and the hardly acidic organics are oxidized. In addition, in the aeration tank, astrophic progressed with: amooxidation of activated sludge. chemical sludge together with recycled liquid is discharged under hydrostatic pressure through the pipe and the lower part of the aerotank 4 into the mixing chamber S, from where pump 9 is fed through the irrigator to 3arpy3iQf bioltra 1. Expelled from the aerotank 4, the liquid passes through the layer of suspended sludge into the sump 5. The tank rises into the collection tray, from where it is dumped into the reservoir. The sump 5 is connected to the aero tank 4 by means of a helix, which serves to bring the sludge mixture from the aero tank to the settling zone and to transfer the circulating 1 silt activated sludge in the opposite direction. Periodic discharge of excess sludge from the aerotank 4 is made by circling the pipeline 10. Using the prediagable device for bi-sewage waste iodine will increase the cleaning effect by working together the aerotank and the biofilter approximately ia 2 times as compared to the Superfluous structures, for example; The operating power of the electrically controlled motors (121-8О-2А blowers) of the КУ-ЮО installation is 1 О kW, and the power of the FG pump is 57.5 / 9, 5-a yes; the proposed device with a capacity of 10O is 4 kW; the possibility of shutting down the circulation pump during stopping the supply of effluent for 3-4 hours. This does not affect the viability of microorganisms, since bacteria and microorganisms of the wet biofilm do not have a positive effect on the viability of the activated sludge (remaining after the release of excess sludge) in the aerotank ; due to the oxygen supply to the air in the air zones; In the future, the fecal pumps are more reliable in operation than air blowers and mechanical aerotors. The switching of working and rezerz pumps is automatically (in the event of a breakdown), while the switching of blowers is done only manually. can be oxidized both in the biofilter and in the aerofoil. The quality of the Purification will also be affected by the use of swollen sludge in the aerotank (this phenomenon is undesirable in other types) possessing much more oxidative abilities compared to conventional activated sludge and the ability to control the biochemical process .:

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Claims (3)

1. DEVICE FOR BIOCHEMICAL WASTE WATER TREATMENT, containing a cylindrical-conical body divided by partitions into aeration and sedimentation chambers, a biofilter, a mixing chamber, a circulation pump, and a technology 2. The device according to π. 1, the fact that it is equipped with caps located in the aeration chamber. 3. The device according to π. 1, due to the fact that the feed fftrCa is equipped with additional pipes placed therein. L020379> with a vortex funnel. Domes 7 are attached to the pipe to create air zones inside the aeration tank. Along the annular perimeter of the domes, holes are arranged for the discharge of displaced air. The feed pipe can consist of one single pipe as well as several pipes of smaller diameter located in one pipe. The device also contains a displacement chamber 8, a pump 9 and a bypass pipe 10. The operation of the device is as follows. The initial wastewater subjected to pre-treatment (removal of coarse suspensions) enters the mixing chamber 8, mixes with the recirculated liquid and sludge, and then is pumped 9 through the pressure pipe to the installation. The incoming liquid is distributed by the irrigation system 2 along the loading surface of the biofilter 1. Flowing down from the top to the bottom, the mixture of wastewater and sludge is biochemically cleaned by microorganisms of the biocenosis of the fouling covering the biofilter loading * During the spraying of the wastewater above the surface} and passing ³⁰ through the loading of biofilter 1 the liquid is saturated with oxygen in the air. The liquid, partially purified and saturated with oxygen and oxygen, flows down the biofilter along the guide pan 3 into the feed tube 6 of the aeration tank, where additional oxygen saturation of the air occurs due to redirection. The dissolution of oxygen from the air is carried out both directly in the supply pipe during the movement of the gas-liquid flow, and in the aerotank 4 as a result of the formation of a large number of small bubbles at the end of the flow. Pop-up bubbles fall under the first cap 7, and the displaced air in the form of bubbles leaves through the holes and enters under the second cap, etc. In aeration tank 4, under active 15 tI