DE4407353A1 - Rainwater separation for rural water purification systems - Google Patents

Abstract

The separation tank is connected via an overflow channel to a stream of similar outflow (3), and a water purification unit. The level is maintained by a filtered intake (22), connected to the channel by a hosepipe (23), and fitted with an ability for assessing the water condition. The position of the intake is adjustable, and may be fitted with floatation and suspension members. The use of sensors (eventually) combined with electronic data processing equipment) to control the intake position, depending on the outflow capacity and the water purity, is also included.

Description

The present invention relates to rain Run pool for a mixed water system with a connection to a sewage treatment plant and an overflow to a receiving water.

In the channels of a mixing system, this exceeds when it rains the maximum amount of water generated by the weather many times over the capacity of the sewage treatment plant. The concentration of Contaminants in the mixed water can in particular Beginning of rain, d. H. if the deposits in the channels be washed away, very high. In these cases then rain overflow basins (RÜB) through their stacks effect (catch basin) or their stacking and settling effect (Continuous basin) the pollution of the receiving water decrease in rainy weather. In other words RÜB’s job is to mix rainwater sewer water systems in general first to store relatively heavily soiled rinse impacts (too puf distant) in order to forward it to the sewage treatment plant conduct. As soon as the (available) RÜB is full, the rainwater continues to flow - it then gets over an overflow into the receiving water. Ultimately, the whole is Sewage treatment system (sewage treatment plant, RÜB, etc.) with regard to the Ge water pollution as one unit and it would be pointless to increase the cleaning effect of the sewage treatment plant  and the excess mixed water without any treatment to feed the receiving water.

Rainwater overflow basins are everywhere in mixed sewage systems to be used where the maximum inflow quantity is greater than the capacity of the drain (channel, pumping station, etc.) and where no rain overflow and therefore no relief is possible.

In connection with rainwater relief structures are also known as rainwater retention basins (RRB), whose up gift is the difference between the larger addition run and the smaller run at short notice.

General background on the present Er the following should be pointed out: In rural areas Residential drainage is generally in the space Mixing system operated. Here are the volumes of the RÜB's to be designed for a development period of 30 years, d. H. it a RÜB is built, at least at the time of construction is far too large. The function of the RÜB’s is there to separate the rainwater from the dirty water in to those carried along by a time restraint Pollutants sink down and ultimately "clear" Water overflows at the top. Too big (prophylactic) out However, laying the RÜB's leads very much in every rain event much diluted water to the sewage treatment plant, which eventually not least is reflected in high wastewater tax and unnecessarily hydraulically loaded the sewage treatment plant. (It has showed that due to new demands for smaller ones Storage volume and reduced connection areas existing RÜB's at 30. . . 50% are too big).

Under certain circumstances, a too small interpretation would after a few years require substantial investments to then create a new RÜB with additional storage space len. However, this requires additional building land  to be available and to be developed. In rural areas and So there are also sparsely populated outskirts another fundamental problem - the appropriate is often missing This may result in the early flow and the smallest streams very heavily overloaded.

The object underlying the present invention consists in specifying a RÜB of the generic type, the quasi multifunctional as a turnip in the conventional sense is usable and also serves as an RRB, so that under Ensuring the greatest possible environmental protection optimal and variable adaptation to the future regional and population development is possible.

This problem is solved in that the congestion target (in RÜB) with the help of one depending on the to be recorded Variable adjustment of mixed water adjustable swimming flow is cash.

With other than in claim 1 reproduced above Used words are the essence of the present invention an additional one Saddle up storage space and thus a variable storage realizing space that on the one hand is the normal function of the RÜB, d. H. the rainwater declaration, and the on the other hand, the function of rain retention, rainwater buffering, with an additional clarifier effect fulfilled. The combination of a RÜB's with a saddled RRB can ultimately (at least withstand any development, at least for the next few years and operated in accordance with ecological requirements become. In this respect, the RRB also serves as flood protection for the receiving water and it also causes a purge of the overflowing water by settling also finer Dirt particles in the RÜB. The usable volume of the RÜB is therefore to vary at any time.  

Special refinements and developments of the previous one RÜB's explained are the subject of the dependent claims.

The details of the present invention are described in the fol genden explained in more detail with reference to the drawing. This shows in

Figure 1 is a schematic diagram of a RÜB's with a variably adjustable swimming process.

Fig. 2 is a schematic diagram of an existing RÜB, an earth basin and a receiving water rain relief system according to the prior art.

The rainwater discharge system of FIG. 2 consists of the functional units rainwater overflow basin (CSO) 1, earthen basin 2 and outfall. 3 The RÜB is designed as a circular or rectangular basin and has a lateral channel 4 . The interior of the RÜB's 1, on the one hand, and the flume 4, on the other hand, are functionally connected to one another via a discharge threshold insofar as the water overflows into the flume 4 when the water level in the RÜB 1 rises to the stowage target 5 specified by the discharge threshold. Accordingly, a connection 6 connects to the channel 4 , which leads to an (artificially created or naturally existing) earth basin or earth pond 7 . To this extent, this earth basin 7 takes on the function of a rain retention basin (RRB) and stores the rainwater overflowing from the RÜB 1 .

In the event that the capacity of the earth basin 7 is no longer sufficient due to a rain event, this in turn has a drain 8 which leads to the receiving water 3 , for example a stream. In the normal case, the mixed water stored in the earth basin 7 is thus slowly fed into the receiving water 3 ; under certain circumstances, the earth basin 7 is also relieved via an overflow. For the sake of completeness, it should also be noted that the RÜB 1 has a (mixing system) inlet 10 via which the rainwater R and the dirty water S are supplied. The RÜB 1 is also intended with a - not shown - wastewater treatment plant (see reference number 11 ), to which the mixed water collected and stored in the RÜB 1 is fed for cleaning; in general, to protect the receiving water 3, the entire content of the RÜB's 1 is forwarded to the sewage treatment plant 11 and here the mixed water is then largely biologically cleaned.

The overall system shown in Fig. 2 shows from the outset the problem underlying the present invention per problem. The RÜB 1 is dimensioned so that all future expansion and population-related expansion plans are taken into account. So far it can be stated that at today's building prices it is hardly economically justifiable to dimension RÜB's 1 only according to worst-case considerations - it has been shown that future developments have been largely overestimated, so that RÜB′s 1 are often oversized today. Ultimately, in the case of a RÜB that was overdimensioned by 100%, the sewage treatment plant would possibly be entirely unnecessary, since, given the degree of dilution of the mixed water, a direct discharge into a receiving river could be permissible.

In the event of unusual rain events, the inflowing runs Mixed water with its dirt load to the earth basin over where the carried sludge settles. To overgrow To avoid the earth basin, this must be done from time to time be cleared - a costly maintenance effort.

Referring to Fig. 1, a rain overflow basin (CSO) is hereinafter described 20, which is basically the same-dimensioned large dimen as the CSO of Fig. 2, ie according to the prior art. In contrast to the rainwater relief system shown and explained with the aid of FIG. 2, the volume of the RÜB's 20 corresponding to the conditions of the associated settlement area is now used as a normal RÜB - and the somewhat oversized pool volume serves as a rain retention pool - in the event of a heavy rain event (RRB) 21 , the separation between these two volumes being set via a floating (arrow X) fixable swimming process 22 . This variably an adjustable swimming drain 22 consists in the case shown of a hose 23 which on the one hand has an inlet funnel 24 with a floating sludge shield and on the other hand is open to the channel 25 of the RÜB's 20 .

According to the simplest embodiment or functional example, the height of this swimming course 22 is set statically depending on the conditions of the connected settlement area. If the mixed water inflow R, S exceeds the critical value, ie if the water level reaches the level of the swimming outlet 22 , the overflowing water flows through the hose 23 to the channel 25 and from there to the receiving water 3 . The so-called supernatant water in the RRB 21 thus equally uses on the one hand the volume of the RÜB's 20 and on the other hand the volume between this and the swimming drain 22 , so that ultimately the basin according to the overall system shown in Fig. 2 is unnecessary. In this respect, it should be particularly pointed out that due to the temporary storage of the supernatant water above the actual RÜB volume, the dirt content of this supernatant water can settle and (quite) normally with the mixed water of the RÜB's 20 can be derived to the sewage treatment plant 11 .

A special embodiment of the RÜB's 20 in relation to the swimming drain 22 is to hang it floating in the area of the RRB's 21 insofar as it delays the drain to the receiving water 3 in order to further purify the mixed water dammed in the RRB 21 and load the receiving water 3 less. This is realized in practice by the fact that the hose outlet quantity - in quantity (m³ / h) - can be predetermined by means of a slide (possibly an electric slide) or that the time of the start of the process (for example 1 or 2 hours late after the inlet) can be postponed.

It is important that the entire volume of the RRB 21 reaches the receiving water 3 and does not dilute the sewage treatment plant feed volume. The sludge from the RRB 21 goes safely down to the RÜB 20 and then to the sewage treatment plant 11 .

According to a further embodiment, it is provided to control the swimming process 22 via a data processing device 28 in the manner of a control process. In this data processing device 28 , the measurement signals derived from the discharge to the sewage treatment plant 11 , from the discharge to the receiving water 3 and from the water level in the RÜB 20 are processed or linked in such a way that a slide control 29 at the open outlet of the hose 23 results in a delayed and slow release of the excess water to the receiving water 3 he can be aimed. To a certain extent, flood protection is also implemented for the receiving water 3 .

The advantage of delayed delivery of the excess water can be seen in the fact that this excess water only then the receiving water is supplied if it is already due to the accumulated rainwater has water flow.

Claims (6)

1. rain overflow basin for a mixed water system with a connection to a sewage treatment plant and an overflow to a receiving water, characterized in that the accumulation target is variably adjustable with the aid of a swimming sequence which can be set as a function of the mixed water to be taken up. 2. rainwater overflow basin according to claim 1, characterized, that the swimming process through one with an enema funneled hose is realized, the one has an open connection to the receiving water. 3. rainwater overflow basin according to claim 1 or 2, characterized, that the swimming process ent a predetermined storage target speaking is fixed. 4. rain overflow basin according to claim 1 or 2, characterized, that the swimming process is suspended in such a floating way that the overflow to the receiving water is delayed follows.   5. rainwater overflow basin according to claim 1 or 2, characterized, that the swimming process depending on the load availability of the receiving water and / or water quality is adjustable. 6. rainwater overflow basin according to claim 1 or 2, characterized, that the swimming process is connected to a slide, which, depending on the circumstances, the Controls connection to the receiving water.