DE2338000C3 - Method and device for cleaning an organically contaminated liquid - Google Patents

Description

The invention relates to a method for cleaning an organically contaminated liquid in an activated sludge tank in the presence of activated sludge, in which an oxygen-enriched gas is introduced into the liquid in a closed area of the activated sludge tank and a gas mixture containing metabolic products is discharged from the activated sludge tank, as well as a Device for carrying out the method.
Processes for cleaning an organically contaminated liquid have already become known, in which the liquid is supplied with a highly oxygen-enriched gas in a closed activated sludge tank in the presence of activated sludge. Part of the liquid-sludge mixture produced in the aeration tank is continuously drawn off into a secondary clarifier, in which the sludge is separated from the liquid, and at least part of the sludge obtained in the secondary clarifier is constantly returned to the aeration tank.

The main disadvantage of this known method is that, especially during degradation high concentrations of organic contaminants the cleaning performance is not constant over time, but decreases with increasing time. As a result of the cleaning effect of the liquid biological reactions that occur in particular with high BOD concentrations of the liquid with a high oxygen consumption and high production of metabolic products, especially CO2 are connected, both the liquid and the gas phase accumulate within the activated sludge tank, i.e. the atmosphere in the aeration tank, constantly with CO2. This within the activation tank constantly increasing CCh concentration, which is due to the low inert gas concentrations in the Aeration gas, almost pure oxygen is introduced into the aeration tank, not by inert gas can be driven off, leads to an adverse effect on the oxygen utilization and to a constant drop in the pH value of the sewage-sludge mixture, with the result that the cleaning performance is constantly decreasing.

These disadvantages are also in a method for treatment known from DE-OS 21 62 950 of waste water containing biodegradable material with the help of biologically active masses and Oxygen-containing gases are not avoided, in which the oxygen-containing gas used for ventilation after The ventilation is separated from the biologically active material, from the CO2 and, if necessary, from others Respiratory products is at least partially freed and then used again for ventilation.

Because with the cleaning and reuse of the gas mixture withdrawn from the aeration tank cannot be prevented that due to the biological reactions taking place within the Aeration basin, both the liquid and the atmosphere above the liquid are constantly with it Metabolic products enriches ELie time-constant In this known method, cleaning performance cannot simply be achieved by the fact that the time intervals between the discharge periods of the gas mixture can be shortened or even the gas discharge is carried out constantly, since then the consumption of oxygen as a result of the increased proportion of the oxygen-containing Gas would increase significantly in the gas mixture to be withdrawn.

The invention is based on the object of a method for cleaning an organically contaminated To develop a liquid, based on the highest possible oxygen utilization Enrichment of the gas atmosphere via dtr liquid with metabolic products is largely avoided and its cleaning performance is constant over time even with high BOD concentrations in the liquid

This object is achieved in that in an area open to the atmosphere of the otherwise closed activated activated sludge tank a liquid flow is maintained that Gas mixture containing metabolic products by introducing air and / or a stronger than air with Oxygen enriched gas is created in this liquid flow, with the liquid inside brought the liquid flow into mass transfer with the introduced gas and that with this Gas mixture containing metabolic products resulting from the exchange of substances directly from the gas to the atmosphere towards the open area of the activated sludge tank is withdrawn, and that the mass transfer the resulting liquid phase is returned from the open to the closed area of the activated sludge tank will.

The method according to the invention makes it possible in a simple manner to drive out of the liquid the metabolic products that accumulate in the aeration tank due to biological reactions and are dissolved in the liquid, in particular the CO2. Within the liquid flow, in particular, the CO2 is exchanged with the substances introduced into this flow, e.g. B. blown or stirred in. Air into the gas phase and flows in a mixture with air towards the surface of the liquid. At the end of this upward gas flow, the gas mixture is withdrawn from the aeration basin, while the liquid conveyed in the liquid flow and now largely freed of metabolic products is mixed again with the remaining liquid in the aeration basin. This additional circuit within the activated sludge tank makes it possible to keep the CO2 concentration in the activated sludge tank constantly below a desired value, with the result that the pH value of the liquid does not decrease continuously, but remains constant and that the oxygen utilization in the Ci ^ outdoor pool is not affected by excessive CO ₂ concentrations.

Advantageously, instead of driving out the dissolved metabolic products, in particular the CO2 Air, a gas that is more oxygen-enriched than air can also be used. Through this one obtains a higher oxygen concentration in the liquid than corresponds to the saturation relative to air

A device for carrying out the method according to the invention is characterized by at least a shaft open on both sides in the aeration tank, the lower end of which into the Immersed in the liquid and its upper end into the Near the water level, where it forms an overflow for the circulating current, is passed through a den Well spaced separating wall, the lower end of which is immersed in the liquid and whose upper end is connected gas-tight to the cover of the activated sludge tank, as well as by at least one Liquid conveying device and a gas supply device inside the shaft.

In this device, is generated within the shaft by means of the fluid handling apparatus an upwardly or downwardly directed liquid flow, constantly, a gas is introduced primarily air to expel the dissolved in the liquid metabolic products, in particular of the CO2 in the means of the gas supply device. If the flow in the shaft is directed upwards, then the liquid runs over an overflow into a channel formed by the shaft and the partition wall back into the basin, where it mixes again with the liquid in the aeration basin. In the opposite direction of flow, the liquid rises in the outer channel, falls over the upper fall into the shaft and re-enters the basin at the lower end of the shaft. In this case, the flow rate in the shaft is chosen so that the _{air enriched with CO 2} can exit upwards. The dividing wall, the lower end of which is immersed in the liquid and the upper end of which is connected in a gas-tight manner to the cover of the activated sludge tank, separates the atmosphere over most of the liquid surface, which is more oxygenated than air, from the environment . The gas mixture, consisting essentially of air and CO2, which occurs during the exchange of substances taking place in the shaft, leaves the activated sludge tank via the open upper end of the shaft, which is in connection with the environment.

The position and design of the shaft can change the flow conditions within the activated sludge tank be adjusted.

It has proven to be advantageous in terms of flow to place the shaft either in the middle area of the basin cross-section or directly adjacent to a side wall of the basin, with a further improvement of the flow conditions within the basin and thus the mixing of the Metabolic products freed fluid flow with the not participating in the exchange of substances in the shaft Liquid is achieved in that in the case of an upward flow in the shaft, the lower Ends of the shaft and partition, seen from the inside of the shaft, are bent outwards and on An additional shaft, also to the outside, at about the level of the lower end of the partition bent liquid sheet is provided.

Another advantageous device for performing the method is characterized by at least two shafts open on both sides, the first of which is directly on one side wall of the activated sludge tank adjacent and the second arranged directly adjacent to the opposite side wall is, with each shaft with its lower end in

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immersed the liquid of the activated sludge tank and along its upper edge gas-tight with the Cover of the activated sludge tank is connected and wherein inside the first shaft a liquid delivery device and a gas supply device are provided.

To further explain the invention, various, shown in FIGS. 1 to 4 shown schematically Embodiments, wherein the same device parts are provided with the same reference numerals.

According to Fig. 1, in which an embodiment of the invention is shown schematically, a Aeration tank 1 via line 2 organically contaminated waste water, via line 3 a heavily oxygenated enriched gas and via line 4 activated sludge is fed from a secondary clarifier, not shown here. The treated liquid-sludge mixture is fed via line 29 withdrawn from the activated sludge tank into the secondary clarifier. The aeration tank 1 is provided with a cover 5, which is in the Ventilation space 6 existing and more oxygen-enriched atmosphere than air from the environment separates. Oxygen is constantly introduced into the organic via a gassing system 7 and a fan 8 contaminated wastewater entered.

Fall due to the biological reactions causing the breakdown of organic pollutants Metabolic products, especially CO2, are constantly accumulating in the aeration tank, which is a disadvantage Lowering of the pH value of the sewage-sludge mixture in the aeration tank and a reduced one Oxygen utilization and thus overall leads to a reduced cleaning performance of the process.

To avoid these disadvantages, a shaft 9, which is open on both sides, is provided in the aeration tank 1, the lower end of which is immersed in the sewage-sludge mixture and its upper end near the Water level ends and is connected to the environment 10. Inside the shaft 9, the Cross section z. B. is circular, a liquid delivery device 11 is arranged one above the other and a gas supply device 12. While the liquid delivery device 11 within the shaft 9 generates an upward or downward liquid flow, the gas supply device is used to. To introduce air into this flow. In this way, there is an exchange of substances in the flow instead of the metabolic products initially dissolved in the liquid phase, in particular CO2, in the Pass over the gas phase. The resulting, mainly from CO? and air leaves existing gas mixture in Arrow direction 13 the aeration tank 1, while the liquid largely freed from metabolic products either via an annular channel 14, on the one hand through the shaft 9 and on the other hand by a Partition 15 is formed or in the opposite direction of flow over the lower open end of the The shaft runs out and then again with the liquid-sludge mixture in the aeration tank unites the partition 15, which is immersed with its lower end in the liquid of the activation tank 1 and is connected with its upper end gas-tight to the cover 5 of the activation tank, prevents this The oxygen-enriched gas present in space 6 escapes into the environment 10.

The embodiment according to Figure 2 differs from that of FIG. 1 essentially by the arrangement of the shaft 9, which according to FIG is arranged directly adjacent to a side wall of the activation tank 1, with both the lower End 16 of the shaft and the lower end 17 of the partition 15, seen from the inside of the shaft, in the case the flow rising in the shaft are bent outwards. In addition, the shaft 9 approximately at the level of the lower end of the partition 15, an additional one, also seen from the inside of the shaft, outwardly bent liquid baffle 18 attached. Like the various flow arrows 19 show, allows the shaft arrangement according to F i g. 2 a more even mixing of the upper At the end of the shaft 9, metabolic products flowing back into the basin via the annular channel 14 depleted liquid with the liquid in the aeration tank 1.

Another embodiment of the invention is shown in FIG. 3, with the entry of the above Line 3 in the aeration tank 1 introduced, strongly oxygenated gas into the Liquid is now carried out by means of a surface stirrer 20. In contrast to FIG. 2 is bay 9 in This embodiment is provided with a horizontal liquid guide plate 21. Besides that, it shows Aeration basin on a further partition 23, which is parallel, leaving a flow channel 24 is arranged to the lower end of the shaft 9. The arrangement of the additional partition 23 prevents the suction of oxygen-containing gas bubbles located in the bottom area of the basin 1 through the Liquid delivery device 11 in the shaft 9. It has been shown that the system is most effective works when the speed of the liquid flowing through the channel 24 is less than 15 cm / sec is held. The course of the flow of the liquid in the aeration tank 1 is also shown here by arrows showing the direction of flow 22 indicated.

A particularly useful embodiment of the invention is shown in FIG. 4 shown.

According to this embodiment, there are two open on both sides within the activation tank 1 Shafts 9 and 25 which, along their upper edge, are gas-tight with the cover 5 of the activated sludge tank 1 are connected and wherein within the first shaft 9, the liquid delivery device 11 and the gas supply device 12 are arranged.

According to this embodiment, part of the liquid present in the aeration tank 1 is through the Shaft 9 conveyed from bottom to top, whereby the dissolved metabolic products, in particular the CO2 is expelled and withdrawn from the system in the direction of arrow 13. The metabolic products depleted liquid now flows over the cover 5 and is via the second duct 25 again fed to the interior of the activated sludge tank 1. When flowing through the shaft 25, the Liquid through the gassing system 7 from the treatment gas which is highly enriched with oxygen closed space 6 added. The flow rate in the shaft 25 is selected so high that the Gas bubbles do not escape upwards.

To improve the flow conditions of the liquid in the aeration tank, which is here by the Arrows 26 are indicated, the lower ends 27 and 28 of the two shafts 9 and 25, each seen from the inside of the shaft, be bent outwards.

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Process for cleaning an organically contaminated liquid in an activated sludge tank in the presence of activated sludge, in which an oxygen enriched gas in a closed area of the activated sludge tank introduced into the liquid and a metabolic product containing gas mixture is discharged from the activated sludge tank, characterized in that that in an area of the otherwise closed activated activated sludge tank that is open to the atmosphere a liquid flow is maintained, the gas mixture containing metabolic products by introducing air and / or a gas that is more oxygenated than air is generated in this liquid flow, the liquid within the liquid flow in Stuff exchange brought with the introduced gas and the resulting from this exchange of substances, Gas mixture containing metabolic products directly from the gas mixture which is open to the atmosphere Area of the activated sludge tank is withdrawn, and that the liquid resulting from the exchange of substances Phase is returned from the open to the closed area of the aeration tank. 2. Device for performing the method according to claim 1, characterized by at least arranged in the activation tank on both sides open shaft (9), the lower end of which into the Immersed liquid and its upper end is guided near the water level, where there is a Overflow for the circulating flow is formed by a partition (15) surrounding the shaft at a distance, the lower end of which is immersed in the liquid and the upper end to the cover (5) of the Activation basin (1) is connected in a gas-tight manner, as well as by at least one liquid delivery device (11) and a gas supply device (12) inside the shaft (9). 3. Apparatus according to claim 2, characterized in that the shaft (9) in the central area of the activated sludge tank (1) is arranged. 4. Apparatus according to claim 2, characterized in that the shaft (9) directly one Side wall of the activation tank (1) is arranged adjacent. 5. Apparatus according to claim 3 or 4, characterized in that the lower end (16) of the Shaft (9) and the lower end (17) of the partition (15), seen from the inside of the shaft, according to are bent outwards and that on the shaft (9) approximately at the level of the lower end (17) of the partition (15) an outwardly bent liquid guide plate (18) is attached, as seen from the inside of the manhole. 6. Device according to claim 4 or 5, characterized by a further, parallel and in Distance to the lower area of the shaft (9) within the activation tank (1) arranged Partition (23). 7. Apparatus for performing the method according to claim 1, characterized by at least two shafts (9, 25) open on both sides, of which the first shaft (9) is directly one Side wall of the activated sludge tank (1) adjacent and the second shaft (25) immediately the opposite side wall is arranged adjacent, each shaft (9.25) with his the lower end is immersed in the liquid of the activation tank (J) and along its upper edge gas-tight with the cover (5) of the activation tank (1) is connected and wherein inside the first shaft (9) a liquid conveying device (11) and a gas supply device (12) are provided. 8. Apparatus according to claim 7, characterized in that the lower ends (27, 28) of both Shafts (9, 25), each seen from the inside of the shaft, are bent outwards.