DE10000454B4 - TSC method - Google Patents

Abstract

method for the treatment of waste water, characterized in that the biological Wastewater treatment in two separate but procedurally related Basin is carried out discontinuously.

Description

The The invention relates to a process for the purification of wastewater in a two-stage discontinuous sewage treatment plant in the backwater with the name TSC method (two-stage cycling).

At the conventional damming processes, the purification phases were nitrification, Denitrification and phosphate redissolution in time separated from each other in the same basin. The to disposal standing reaction time is according to a cycle time program divided into the individual cleaning phases. The filling of a conventional Aufstauanlage takes place according to the sewage inflow continuously or in spurts from a Vorspeicher.

There the volume of Aufstaubeckens even with a batch feed from a Vorspeicher in the ratio to the added wastewater is large, can only a small increase in COD concentration be achieved in Aufstaubecken. Part of the denitrification and biological Phosphate reversal easily degradable carbon compounds already goes through the Lost the residual oxygen content present in the SBR basin. The times for the sedimentation and the clear water withdrawal phase are in the conventional accumulation process lost as reaction time. The volume of the Aufstaubeckens must therefore increased accordingly become.

at the so-called TSC method applied here for the invention avoided the mentioned disadvantages.

The inflowing Wastewater (flow rate Q1) enters the basin B1. The purification steps denitrification and biological phosphate redissolution as well the storage of the incoming Sewage are in basin B1, the so-called VD basin, and the Purification steps nitrification and carbon degradation is in basin B2, the so-called N-basin performed. The sedimentation and clear water withdrawal phase is as in the conventional damming process performed in tank B2. In the Clear water withdrawal phase is the treated wastewater with a take-off device P4 lowered from water level H4 to H5.

There the basin B1 is not ventilated and the freshly flowing wastewater directly with the activated sludge can come into contact here optimal conditions for Set the denitrification and phosphate redissolution. The volume of the Vorspeichers B1 can in addition to the TSC method as Reaction volume, the volume of the N-pelvis B2 can be reduced accordingly. During the sedimentation and clear water withdrawal phase only the N-Basin B2 is not available as a reaction pool. The upstream basin B1 can in addition to the storage of the inflowing wastewater continue to be used as a reaction tank, This can Basin B2 compared to the conventional Aufstaubecken accordingly be reduced.

At the conventional accumulation method, the Vorspeichergröße from the Wastewater line and the cycle time program according to the cumulative line method determined. It must larger wastewater volumes for the single thrusts to be collected. In addition, must to Completion of the Cycle time program between the last thrust and the end the amount of wastewater flowing in the clear water withdrawal phase is stored become. This can take up to 5 hours and that phase fall into the period of the highest daily flow rate can, calculated a comparatively large Vorspeichervolumen. at the here presented TSC method the storage volume can be smaller, as only during the Sedimentation and Clearwasserabpumpphase incoming wastewater must be stored.

In Basin B1 and Basin B2 may be a device (P2, P5) for circulating the Basin contents are installed. Via a recirculation pump (P1) is the ammonium-containing wastewater activated sludge mixture according to a Cycle program pumped from the basin B1 in the N-tank (B2) (flow Q2). In the N-Basin (B2) is a ventilation system for oxidation of ammonium (nitrification) and degradation of organic wastewater constituents Installed.

There the recirculation pump P1 the wastewater activated sludge mixture in the basin B2 promotes Basin B2 becomes a level limited by an overflow H4 rise. From this level in the N-Basin B2 is running the nitrified wastewater activated sludge mixture with the flow Q3 back into the pool (B1), In the basin B1, the nitrate which has accumulated from the basin B2 can be mixed with the Carbon of fresh wastewater (Q1) are denitrified.

Due to the continuing flow of waste water (Q1), the level (H1) in basin B1 increases. From a certain level H2 in the basin B1, the sedimentation and pumping phase is initiated in the basin B2. The in this phase tapering Ab Water (Q1) is retained in the remaining storage space (Z3) of the basin B1.

The TSC method across from the conventional damming process via a self-regulating Cycle time. There is an automatic adjustment of the cycle time on hydraulic conditions of inlet Q1. After the N-basin B2 filled was and the overflow In B1, the water level in the VD-Basin B1 rises through the Feed stream Q1. As soon as the upper level reaches H2 in basin B1 is, the sedimentation and Abpumpphase is initiated in basin B2. At a high sewage inflow Q1 is the time until, next Cycle short and with a smaller inflow Q1, the cycle time is extended, reaching the upper water level in VD-basin B1 takes longer.

in the Connection to the pumping phase becomes excess sludge withdrawn with device P4.

Claims (9)

A process for the treatment of waste water, characterized in that the biological wastewater treatment is carried out discontinuously in two separate but procedurally related basin. Method according to claim 1, characterized that the Denitrification, the phosphate reversion and the storage of the incoming wastewater in a separate, the N-basin upstream pool, is arranged. Method according to claim 1, characterized that in the N-basin in addition to the reaction phase, the sedimentation and Clear water withdrawal phase carried out become. 4, Method according to claim 1, characterized in that any many N basins and denitrification / storage tanks together can be combined. Method according to claim 1, characterized in that that the basin contents from sewage and activated sludge from the denitrification / storage basin via a Conveyor into the N-basin. Method according to claim 1, characterized in that that in the Storage and denitrification tank means for circulating the Basin contents is installed. Method according to claim 1, characterized in that that, evoked through the promotion the VD-basin, from a certain level in the N-basin the sewage / activated sludge mixture by means an overflow runs back into the VD-basin and there meets the sewage of the inlet. Method according to claim 1, characterized in that that the Basin content of the VD basin is used as a reaction space. 9 Method according to claim 1, characterized in that during the Sedimentation and Abpumpphase the still influent wastewater cached in the VD basin. Method according to claim 1, characterized in that that at Reaching a certain level in the VD basin, the sedimentation and pumping out in the N-basin is performed. Method according to claim 1, characterized in that that in the Connection to the sedimentation and Abpumpphase excessively formed sludge is subtracted from the N-basin.