CZ282193A3 - Waste water or sewage bio-aeration and and equipment for making the same - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a process for the biological detection of wastewater and apparatus for carrying out this process using separate activated thickened sludge, in particular nitrogen-containing wastewater.

The state of the art will be appreciated

So far known method of wastewater treatment by simultaneous removal of organic substances, nitrogen and phosphorus is pre-methane. the patent application PV 00076-90B.

In this process, a functional polyculture of activated sludge is separated from the activated mixture formed in the aerobic zone from the partially purified waste water. The waste water is subjected to separate nitrification, then combined with the effluent-separated polyculture and subjected to denitrification in an anoxic reactor and aeration in an oxic reactor. The separated functional polyculture recirculates to the anaerobic reactor and the purified waste water is discharged to the recipient.

The wastewater treatment process is relatively slow with the necessity of using anaerobic processes. The functional polyculture with absorbed colloidal and insoluble organic substances is separated from the partially purified wastewater that contains dissolved ammoniacal pollution. The polyculture must pass after separation into an anaerobic reactor.

So far known equipment for biological treatment of waste water containing carbon and nitrogenous substances according to MS. AO document No. 228 208 is made up of two tanks. In one tank a separation space is created above the denitrification space and an activation space is created in the second tank. The separation space is separated from the denitrification chamber by a sloping partition wall and connected to it via a sludge drain.

The disadvantage of such a solution is the use of two tanks, in the case of separate placement of each of the tanks associated with high spatial demands. * Other known equipment for nitrification and denitrification of organic substances in waste water according to MS. The protective document AO No. 248 616 is arranged so that the activation space is divided by a partition into an aerated and non-aerated part. The partition partially or completely protrudes above the water surface and forms a slit at the bottom of the tank.

The device is structurally very simple, but it is designed without the separation part, without which it is not possible to achieve a good wastewater treatment.

SUMMARY OF THE INVENTION

The above drawbacks are substantially eliminated by the biological treatment of wastewater using separated activated thickened sludge, in particular wastewater containing nitrogenous materials with alternating anoxic and oxic conditions, and a device for carrying out this process. in an anoxic zone, with continuous agitation, with a delay of at least one hour, it is mixed with one portion of the activated-thickened sludge into a primary activating mixture which flows into the oxic zone with increased oxygenation where it is mixed with the second portion of the activated thickened sludge under intense aeration to a secondary activating mixture from which the purified water is separated from the activated sludge by separation in the oxidized zone of oxidation and the separator. The activated thickened sludge is recirculated to the oxic zone with increased oxygenation and 1: 3 to the anoxic zone.

It is preferred that the apparatus for carrying out this method comprises a tank which is asymmetrically divided by the wall into an activation space and an anoxic zone. The anxic zone is provided with a raw waste water inlet and one activated 3 thickened sludge inlet. The activation space is a wall firmly connected to the separator divided into an oxic zone with increased oxygenation and an oxic zone with reduced oxygenation, which is provided with a second inlet of activated thickened sludge. An overflow is created in the separator. In the wall, a vent opening is formed on the side of the oxic zone with increased oxidation. The advantages of this method lie in high performance parameters, with the purification process proceeding under normal physical conditions without the use of anaerobic processes. The wastewater is directly subjected to denitrification with the presence of a thickened sludge separated from the oxic zone and the polyculture passes directly into the anoxic zone, where ammoniacal pollution is immediately degraded. The abrasion of the anaerobic zone shortens the cleaning process and achieves energy savings by grading the oxidation process.

The device is of simple construction with minimal space allowance, in that all stages of wastewater treatment are situated in one, expediently divided space. The flexibility of the device for different waste water composition, together with the high cleaning process intensity, economically covers the quality of the treated water.

Overview of drawings in the drawing

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail with reference to the drawing, in which FIG. EXAMPLES OF THE INVENTION

Raw sewage flows into the separate anoxic zone, where it is mixed with one part of the activated thickened slurry for a period of one hour. By continuously mixing, a primary activating mixture is formed which flows into the oxic zone with the 4 increased oxygenation, where it is mixed with a second portion of the activated thickened sludge to a secondary activating mixture with intensive aeration. From the secondary activation mixture, the purified water is separated from the activated oxygen sludge and in the separator by the separation of the purified water from the activated sludge, which is circulated to the oxic zone with increased oxygenation of the α-to-anoxic zone in a 1: 3 ratio.

The apparatus of FIG. 1 consists of a container IV of circular or quadrangular shape, the bottom of which is provided with aeration nozzles (not shown in the drawing). The tank 11 is asymmetrically divided by the wall 2 into the activation space 3 and into the anoxic zone 6, which in the upper part is provided with a supply of raw waste water and in the lower part with one inlet of the thickened sludge activated by it. The activation space 3 is a wall 2 2 fixedly connected to the separator 12 divided into an oxic zone 13 with increased oxygenation and an oxic zone 1j) with reduced oxygenation. The oxic zone 110 is represented by the second activated sludge thickened feed 9. The triangular prismatic separator 12 with the outlet for the purge line 14 is provided with a drainage trough 13 for draining the purified water. An overflow 11 is formed in the separator. From the side of the oxic zone J3 with the increased oxygenation there is in the wall 2 a permeable. opening 7. The waste water treatment according to the invention is apparent from the figure. The raw waste water flows through the inlet 5 into the anoxic zone 4 and the thickened sludge activated in one inlet 6. With continuous mixing, the raw effluent and the efficiently thickened sludge form a primary activating mixture which flows through the permeate opening 2 of the wall 2 to the increased oxygenation zone 13 where it is mixed with the activated thickened slurry supplied by the second inlet 9 to the secondary activation mixture. . By spontaneous flow of the secondary activation mixture from the oxic zone J3 with increased oxygenation to the oxic zone 10 with reduced oxygenation, the secondary activation mixture flows through the passage 11 to the separator 12. ___ 5 The heavier activated sludge directed by the sinker L1 drops to the bottom and the purified water flows into the drainage trough jL3, from where it goes.

The thickened activated sludge is discharged via a sludge conduit 14 / in which a 1: 3 regulating valve (not shown) is fed into one inlet 15 of the activated thickened sludge, and a second inlet 6 of the activated thickened sludge, respectively. excess sludge is drained off the working area.

Industrial usability

The device is widely used in wastewater treatment plants. With its design and purity efficiency, it is able to meet the demands of purified water from both environmental and economic levels. «

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Claims (1)

6 rV 4- 93 PATENT REQUIREMENTS L cc-vtt-wl w o rd w o rm a multistage aerobic process using separated activated thickened sludge, especially wastewater containing nitrogenous materials under alternating anoxic and oxic conditions, characterized in that the raw waste the water is mixed with one part of the activated thickened sludge into the primary activating mixture in an anoxic zone with continuous agitation for a period of at least one hour, which flows into the oxic zone with increased aeration while being intensively aerated, where it is mixed with the second part of the activated thickened sludge to the secondary activation a mixture from which purified water is separated from the activated sludge by separation in an oxic zone with reduced oxygenation and a separator, which is recirculated to an oxic zone with increased oxygenation and to an anoxic zone in a ratio of 1: 3. (i Jr and Li g to 2 L / '«* > i. & * / i, Ae. From the tank on which the aeration nozzles are placed, from the raw waste water inlet, the purge pipe and the purge water purge separator, characterized by the fact that it is. that the tank (1) is asymmetrically divided by the wall (2) into the activation space (3) and on the anoxic zone (4) is provided with a raw waste water inlet (5) and one activated thickening sludge (6), the space (3) is a wall (2) fixedly connected to the separator (12) divided into an oxic zone (8) with increased oxygenation and an oxic zone (10) with reduced oxidation provided with a second activated thickened sludge inlet (9) in the separator ( 12) an overflow (11) is formed and a through-hole (7) is formed in the wall - (2) from the side of the oxic zone (8) with increased oxygenation.