DE3929271A1 - Device for further purificn. of treated waste water - water from isolated sewage treatment units is cleaned in a biological reaction vessel with internal post-clarifying buffer - Google Patents

Abstract

The waste water is passed through a tank contg. a reaction bed which dips into the water surface and which is provided with an aeration system. A post-clarifying region is located in this tank above the reaction bed and sepd. from the activation region by a submerged inlet duct, and this post-clarifying region forms a buffer volume between the inlet and outlet connections to the tank. A floating suction system within the post surface level. The aeration system contains a fan and a number of post-clarifying region is bounded by a container which is open at the top and has two sepd. lower entry ducts which are fitted with guide vanes to smooth the fluid flow. A system for removal of floating sludge from the liquid surface is provided, and consists of a U-tube inside a vertical open-ended pipe. USE/ADVANTAGE - This invention is used for purifying the water from isolated sewage treatment units such as domestic septic tanks, which are used in situations where a commmunal sewage system is not avilable. A compact unit is provided which is economical to construct and to operate and achieves a dramatic reduction in the water contamination.

Description

The invention relates to one device for the other Clarification of pre-treated wastewater, consisting of a the pre-clarified wastewater receiving pool with a closed run and a drain from one into the wastewater of the pool immersed fixed bed and from a ventilation unit Direction to supply the wastewater at least in the area of the fixed bed.

In rural areas, in particular, are remote ones Dwellings, restaurants etc. for cost reasons and / or not in the absence of a municipal wastewater disposal network connected to such a network. Sewage disposal takes place here via a multi-chamber sedimentation pit. That in these Chambered water comes from the last or third Chamber in a sprinkling network that laid in the ground  is, or in a receiving water. That way clarified water is however still substantial with pollutants charged. Furthermore, the removal of wastewater from remote houses in sewage treatment plants with he considerable costs.

On the other hand, this is due to the municipal sewage system waste water collected in a municipal or municipal sewage network regional sewage treatment plant, where it is after the preliminary treatment a further clarification by a device of the senior type is subjected to this The permissible pollutant levels to exceed more. Since the resulting Ab the amount of water is very large is also the device accordingly large for further clarification of the wastewater and consequently construction and costly, so that such a device for this reason for remote standing buildings in rural areas are not suitable and cannot be operated economically.

The object of the invention is to create a Device for the further clarification of waste water, which in Connection with a clarifier, which effects a preliminary clarification system to use and compactly built with low construction and cost to manufacture and to be drive and with which the pollution of the Ab water is drastically reduced by biological means.

The solution to this task starts with the engineered device and further features characterized in that above in the lower pelvic area arranged, supporting the occupancy clearance reaction bed reactor a calm, spatially opposite the Be  living clarification area leaving an enema limited clarification area is provided in the basin, that by different height arrangement of inlet and Process of the pool and communicative inclusion of the Clarification area also includes this area Buffer volume is formed in the secondary clarification area one connected to the pool drain, with the water level of this area, lifting and lowering outlet device is provided and that the ventilation device has timed blower.

The device according to the invention in connection with existing pre-treatment plants is compact built and with relatively little construction and cost producible. This is largely due to the fact that within that following the preliminary clarification further clarification process, the so-called revitalization process and the actual clarification process about each other and sufficient in one and the same pool take place separately, so do not interfere with each other. Here, the pollutants in the wastewater are bio logical way drastically reduced. Furthermore there are none Pumps with their own drive motors required, but just a common blower that operates in intervals via corresponding lines with time-controlled valves the required air or oxygen input, the Abtrans port of the excess sludge and the coarse-bubble flushing of the Makes fixed bed. Overall, with the new device an economic operation enables further clarification.

In a preferred embodiment, the device according to the invention treatment in a room that is spatially separated from a primary sewage treatment plant own basin operated for the wastewater to be treated. However, it is also possible to use the device according to the invention  tion in a chamber of the primary treatment plant. The preferably float-controlled drain device ensures that only legally clarified Ab water can flow out of the device constantly. The optimal buffer volume in the device provides sure that a shock load on the device, that is a greatly increased inflow amount of pre-clarified Wastewater z. B. due to a ge in the primary treatment plant long bathtub volume, is possible, but without one Impairment of the constantly draining, clarified To cause waste water.

Preferred embodiments are in the subclaims specified. According to these characteristics, one is simply up built and inexpensive to manufacture drain device for Provided. There is also the possibility at least part of the waste water without excess sludge from the device according to the invention into the primary treatment plant attributed to nitrification or denitrification to reach.

The invention is based on one in the Drawings shown embodiment explained. It shows

Fig. 1 is substantially an axial section through the embodiment on the line II in Fig. 2

Fig. 2 is a simplified supervision of the execution example.

According to Fig. 1, an embodiment is CARDINAL Lich from a tank 1 for receiving vorgeklärtem, plant from an upstream generally known preliminary sedimentation derived, may be further be clarified waste water, wherein the pool in the ground embedded or overground situated, from an in Belebungsklärbereich 3 the basin 1 arranged fixed bed 2 , the biological lawn is significantly involved in the aeration treatment, from a spaced above the fixed bed provided, spatially delimited, be quiet post-treatment area 4 , in which the actual post-treatment takes place when the wastewater leaves the aeration area upwards , wherein the area 4 partially protrudes into the activation area 3 and otherwise projects upward out of the waste water, and from a ventilation device 5 for introducing air or oxygen into the waste water of the basin 1 . The basin is also seen with an inlet 6 and with an outlet 7 , such that there is a predetermined height difference between these two parts 6, 7, as a result of which a variable buffer volume P is formed in the basin, that is to say including region 4 , to be able to absorb shock loads when discharging pre-treated wastewater into the pool. The basin 1 is accessible from above and generally covered with a lid.

As a preferred fixed bed 2 , such a body or structure is used, which forces the air passing through it from bottom to top to remain as long as possible, e.g. B. through a zigzag flow path to achieve an intensive oxygenation in the wastewater. Such known bodies have z. B. a lot of number of zigzag-shaped lamellae, which are spaced apart from each other and thereby form corresponding flow paths, as shown in FIG. 1.

In the upper region of the basin 1 , the secondary clarification region 4 is provided at a predetermined distance from the reactor 2 in the form of a housing 9 open at the top and bottom, which communicates with the activation region 3 at its lower end and is connected to the outlet 7 of the basin via an outlet channel 8 . The housing 9 is at least partially spaced in the circumferential direction from the inner wall of the basin in order to allow waste water to flow down into the basin. The housing 9 preferably has, for. B. two lower inverted V-shaped inlet channels 10 and 11 , so that the inlet openings 12, 13 of these channels are spaced apart. These openings 12, 13 are each also located at a location which - viewed in vertical projection - lies approximately to the side of the fixed bed 2 . Due to this construction of the channels, no air bubbles get out of the reactor 2 into the housing. In order to achieve a calm flow in the channels 12, 13 , the channels have guide walls 14 which are parallel to one another and extend in the longitudinal direction of the channels. The housing can also have more or less than two inlet channels; where possible it should be a prerequisite that their openings are not perpendicular to the fixed bed air flow in order to avoid the inflow of air bubbles into the housing.

The housing 8 also has in its interior a self-raising and lowering outlet device 15 , which is connected to the outlet channel 8 , in order to obtain a constant outflow of perfectly clarified and pollutant-free waste water, which, for. B. flows into the well-known, in the ground floor trickle line arrangement. The outlet device consists essentially of an articulated at 16 with the channel 8 Kabelab section 15 , which has a float 15 a in the vicinity of another end, so that the inlet opening 15 b of the section 15 is always in the range of the water level and with this raises and lowers, whereby the water drainage process always remains constant.

The ventilation device 5 comprises a blower 17 , a plurality of outgoing air-guiding pipes 18, 19 and 20 as well as valves 21, 22 and 23 incorporated therein, each of which has a time control 24, 25 and 26 connected to the blower. The valves, the time control and the blower are accommodated in a separate, preferably sound-insulated housing 27 . which is provided outside the basin 1 . The pipes 18 and 19 lead to the fixed bed 2 , the line 19 merging into a Rohrver branching arrangement 28 located below the reactor in order to allow air supplied by the fan 17 to flow into the fixed bed in a fine-bubble manner, as can be seen in FIG. 1 , and wherein the line 18 for flushing the air through the fixed bed is used at intervals to secure it against clogging. For this purpose, air flows out of line 18 in large bubbles, which then flow through the fixed bed from bottom to top.

In the basin 1 there is also a removal line 29 for excess activated sludge which, if necessary and at least partially via a return line 30 of the discharge line 29, can be returned to the (not shown) primary sewage treatment plant. In order to be able to operate a denitrification in the primary sewage treatment plant, the extraction line is U-shaped at least in its lower section and thus again has an upwardly extending pipe section 31 . The extraction line 29 with its Endab section 31 is surrounded at a distance by an open top and bottom jacket 32 , as shown in FIG . The cladding tube extends above the maximum water level. At the bottom, the cladding tube ends at a point where the activated sludge from the lower pool area is the cheapest, which can easily be determined by tests. The air line 20 coming from the blower 17 opens, for example after penetration of the cladding tube 32 , at the bottom into the extraction line 29 .

If the extraction line 29 is not in operation, there is waste water with activated sludge therein, including its section 31 . Above the pipe section 31 there is clarified waste water without sludge in the cladding pipe 32 . When air is introduced into the extraction line via the air supply line 20 , first the solid particles, but essentially microorganism-containing activated sludge, are removed from the extraction line via the return line 30 , preferably into a primary treatment plant, according to the principle of the so-called air lift. Then clarified water is sucked from the upper section of the cladding tube 32 and also passed through the return flow in the required amount into the primary treatment plant. Activated sludge wastewater then flows into the cladding tube 32 from below, which, however, is only discharged during the next recycle process and is subject to the secondary clarification process until the relevant point in time. The interval of the operating time of the air supply through the line 20 serving as a means of conveyance, which is required for the entire return operation, is regulated by the time-controlled valve 23 in order to remove the corresponding compressed air from the blower 17 .

The entire clarification process in basin 1 is as follows. The pre-clarified wastewater runs through the inlet 6 into the basin 1 and is subject to the mixing caused by the fine-bubble ventilation via the pipes 19, 28 , the air introduced flowing through the fixed bed 2 from the bottom up. Due to the essentially constant entry of fine-bubble air into the fixed bed ent is a vertical loop current in the area of the fixed bed according to the arrows 33 , which forces a circulation of the wastewater to be further clarified in the activation area 3 of the basin, during which a first clarification process takes place fully. After the first clarification phase, the wastewater for clarification or clarification reaction enters the clarification area 4 formed by the housing 9 , specifically via the run channels 10, 11 . Depending on the level of the wastewater in the housing 9 , the clarified wastewater then runs off constantly via the float-controlled outlet device 8, 15, 16 and the outlet 7 . During the clarification processes, the air input into the basin 1 via the lines 18, 19 and 20 is carried out in a time-controlled manner, so that sufficient oxygen is available for the clarification processes or for the removal of activated sludge.

Claims (8)

1.Device for the further clarification of pre-clarified water, consisting of a pool receiving the pre-clarified wastewater with an inlet and an outlet, from a fixed bed immersed in the wastewater of the pool and from a ventilation device for supplying with air or oxygen and for circulating the Waste water at least in the area of the fixed bed, characterized in that above the fixed bed ( 2 ) arranged in the lower pelvic area and supporting the aeration clarification reaction, there is a calmed-down post-treatment area ( 4 ) spatially delimited relative to the aeration bed ( 3 ) while leaving an inlet ( 12, 13 ). is provided in the basin (1), that a be detected from this area buffer volume P is formed by different height arrangement of feed (6) and outlet (7) of the basin and communicating inclusion of Nachklärbereichs (4) that in the Nachklärbereich (4) one with the pool drain ( 7 ) connected, with the level of this area liftable and lowerable outlet device ( 8, 15, 16 ) is provided and that the ventilation device ( 5 ) has a time-controlled Ge blower ( 17 ). 2. Device according to claim 1, characterized in that the secondary clarification area ( 4 ) is formed by an open-topped housing ( 9 ) with preferably two lower inlet channels ( 10, 11 ) which are arranged such that their openings ( 12, 13 ) are spaced from each other. 3. Apparatus according to claim 2, characterized in that the inlet channels ( 10, 11 ) are provided with guide walls ( 14 ) for flow calming. 4. Apparatus according to claim 1, 2 or 3, characterized in that the outlet device to achieve a constant water drainage from a fixed drainage channel ( 8 ), an articulated line section ( 15 ) and one at this and in the vicinity of its inlet opening ( 15 b) arranged float ( 15 a). 5. Device according to one of claims 1 to 4, characterized in that a removal line ( 29 ) for excess sludge from the basin ( 1 ) is provided, which is preferably designed as a return line leading into an upstream primary treatment plant. 6. Device according to one of claims 1 to 5, characterized in that the ventilation device ( 5 ) has a plurality of, to the blower ( 17 ) connected air pipes ( 18, 19, 20 ), each with time-controlled valves connected to the blower ( 21, 22, 23 ) are provided. 7. Device according to claims 1 and 6, characterized in that the fan ( 17 ) and the time-controlled valves ( 21, 22, 23 ) with their timing ( 24, 25, 26 ) are arranged in a separate housing ( 27 ) . 8. The device according to claim 5, characterized in that the Ent ventilation line ( 29 ) connected to the ventilation device ( 5 ) is U-shaped in its lower region and is surrounded by an open top and bottom cladding tube ( 32 ) at a distance.