DD294006A5 - CONTROL ARRANGEMENT AND METHOD FOR CONTROLLING MICROBIAL TREATMENT OF WASTEWATERS - Google Patents

Abstract

For termination of the denitrification treatment of waste water, the occurrence of a marked drop in the measured redox potential is used as a criterion. The control signal is accordingly produced by means of a evaluating and control unit 2, which is connected to a redox electrode 1. <IMAGE>

Description

For this 3 pages drawings

Control arrangement and method for controlling the microbial treatment of waste water The invention relates to a method for controlling the microbial treatment of waste water and a Control arrangement for this. The realization has prevailed that to avoid a large nitrate pollution of groundwater and rivers

nitrogenous compounds should be eliminated from the wastewater during treatment in a wastewater treatment plant.

For this purpose, biochemical processes are exploited, with which on the one hand an oxidation of the water present Ammonium to nitrate (nitrification) and on the other hand a reduction of the nitrate to molecular nitrogen (denitrification)

is carried out, which can then escape in gaseous form into the atmosphere without damage. From a process point of view, the problem is that nitrification only takes place in the presence of dissolved oxygen, while denitrification only takes place in an oxygen-free environment.

It is therefore known that nitrification and denitrification in separate reaction chambers, so for example, a basin Wastewater treatment plant to perform. The nitrification subjected to the wastewater is then in the reaction space for the Denitrification pumped. It is also known to drain the nitrification and denitrification in the same reaction space, but to

different times. For this purpose, the activated sludge is ventilated intermittently, so that in a temporal change suitable

Environmental conditions for nitrification, intensive aeration, presence of dissolved oxygen) as well as for the Denitrification (weak or switched off ventilation, absence of dissolved oxygen) can be created. It is common to control the duration of the nitrification treatment and the denitrification treatment with timers,

in particular in the intermittent treatment in which nitrification and denitrification take place in succession in the same reaction space.

It is obvious, a direct control of the switching time between denitrification and nitrification by the measurement of Parameters ammonium content or nitrate content. The required continuously measuring Analyzers are present, but require a sample stream that is free of any particulate matter, obtained only by ultrafiltration

can be. Such control is therefore not profitable, especially for small systems.

In addition to the nitrogen compounds, phosphates are decisively botoiligt to dor Coordiingung dor Gowössor. Also dioso Stoffo

Therefore sollton was in Kläranlagon woelfgohond possible entfornt been.

It is known that the phosphate elimination from sewage both on chemischom Wogo by precipitation as well as biological

can be done by existing in sewage treatment plants microorganisms.

The biological elimination presupposes that the microorganisms in the temporal Wochsol einom anorstoffhaltigcn (aorobon)

and a completely oxygenated (annorobon) environment is poured out.

It is customary to aerosolize and anaerobic environment in the gotronne reaction space to schaifon, dioe inoinandor from sewage Activated sludge mixture has been flowed through. However, it is also possible, the Milioubodingungon temporally intormittiorond in only

a '-teaktionsraum produce, which is only temporarily supplied with oxygen.

The invention is therefore based on the object, a control option for the microbial treatment of wastewater

be specified, which allows a little effort on a measurement affecting influencing the treatment.

This object is achieved with an ancestor of the type mentioned in that untorworfcnon in the treatment The redox potential is measured and evaluated and that the occurrence of a large drop in the Potontials is used as a control criterion for the treatment. It has been found that the measurement of the redox potential in a suitable evaluation, for example for Termination of Denitrifikationsbehandlung is exploitable. This is surprising because the Rodox potential of wastewater oino

is very complex composite size, which thus does not directly with the content of the wastewater to a certain

Substance component is to bring. However, it has been shown that at the end of the denitrification treatment, while

which steadily decreases the redox potential, a sudden increase in the negative slope of the curve of the Rodox potential is observed. If one evaluates this sudden increase of the negative slope ("kink") in goeignotor Woise, dio

Determination of the occurrence of the phenomenon as a termination criterion for denitrification. In an intermittent Denitrification is thus re-aerated to this Zoitpunkt so that the nitrification process can begin orneut. Since at times that have nothing to do with the end of the denitrification Potential occur, it is expedient for the completion of Denitrifikationsvorgangos a woitoros Mosskritorium

should increase. For this purpose, the absolute value of the Rodox potontial, d. H. that the shutdown of

Donitrification treatment is only performed when the absolute value of the Rodox potontials is within a

Another possible criterion for the avoidance of a predetermined interval ("redox window")

Fault control is the measurement of the Oj content of the wastewater, which must be virtually zero, if the Denitrification treatment is going on. The recorded in the denitrification Rodox Vorläufo can also be used for Use control of the biological phosphate removal, if after the occurrence of dos Rodox break point, the end of the Denitrification signals that the oxygen supply is not switched on immediately but delayed. That for dio verstürkto

Biological phosphate removal required anaerobic environment entsstoht if both dissolved and that in the nitrate or

Nitrate-bound oxygen has completely disappeared, ie at the end of a Denitrifikationsbohandlung. The delay

can be effected by (see Fig. 3)

- Specification of a delay time At.

- Specification of an absolute Radox limit value which must be reached after the break point.

- Specification of a redox difference Δ Redox, which must be run through after the break point.

The object underlying the invention is achieved by a control arrangement of the type mentioned, the

a sensor for the redox potential, an evaluation circuit for the measured values of the sensor, a detector for a strong

Reduction of the Rodox potential and a device connected to the detector for influencing the treatment

having.

The detector for the strong decrease of the redox potential preferably has a differentiation stage for the formation of the first Derivative and / or the second derivative of the measuring signal of the sensor. As a result, the "redox kink" can be sure

detect.

In addition, the evaluation circuit can determine the absolute value of the redox potential and with the switching unit

be connected to reduce the risk of malfunction. For the same purpose, a sensor for the

Oxygen content of the waste water and act on the switching unit. It has been shown that the best measuring results are obtained when measuring the redox potential in the activated sludge

is, so the sensor for the redox potential in the activated sludge tank is arranged.

The invention will be explained in more detail below with reference to an embodiment shown in the drawing. It

demonstrate

Fig. 1: a schematic representation of the control arrangement according to the invention Fig. 2: measured waveforms for the nitrate concentration and the redox voltage during the Denitrification Prozosses and serving for evaluation curves of the first and second derivative of

ORP

 Fig. 3-5: Redox voltage curve for treatments in which, after reaching a break, the 5 outer material supply is switched on delayed.

FIG. 1 schematically shows a redox electrode 1 projecting into the treated wastewater or preferably into the activated sludge, which is connected to an evaluation and control unit 2, the function of which will be explained in more detail with reference to FIG. The arrangement shown is intended for an intermittent denitrification plant and thus controls a (not shown) ventilation device through which the activated sludge can be supplied with oxygen. At the end of the denitrification treatment, the aeration device is turned on so that oxygen is fed to the sludge for nitrification treatment and the ammonium dissolved in the water is converted into nitrate. FIG. 2 shows the course of the nitrate concentration during the denitrification treatment. This steadily decreases and approaches zero at the end of the denitrification treatment.

The underneath of the Rodox voltage, that is, the Molisignals dor Rodox-Eloktrodo 1, ojoes steady abinilinio of the redox voltage up to the moment when the nitrate concentration is practically zero. Something gogonübor diosom is pre-established with the Rodox-Eloktrodo leash significant increase of waste dor Rodox tension ("Rodox-Knick") ernsnrnn.Dns occurrence diosos "Rodox-Knicks" is erfindungsgomäß used as a Stoorenparamotor for dio union dor denitritikationbehandlung. In order to be able to reliably detect this "Rodox-Knick," the first and the second derivative of the Rodox voltage are formed in the control and regulation unit, both coinciding with the time at which the nitrate concentration becomes practically zero Dio ovoroinstimmondon Fillings of the curves of the first and the second derivative form a self-evident feature for the appearance of the "Rodox Knicks" and are therefore the control criterion for the completion of the donitrification drilling.

Since it can not be ruled out that a similarly strong drop in the redox potential due to other efficiencies in the waste water will occur at other times that have nothing to do with the end of the denitrification, it is notable that the redox voltage drops below a further shutdown criterion to use experimentally vorermittolton Schwollwort. An incorrect control could alternatively be achieved by the determination of the oxygen content of the wastewater, since a criterion for Denitrifikationsbohandlung is the absence of oxygen. As a switching criterion, therefore, the measured value would be zero for the O ₂ GoHaIt of the wastewater in question.

The time lag between reaching the zero point for the nitrate concentration and the occurrence of the "redox kink" is on the order of one to three minutes, which is inadvisable for the control and lies within the control damping which is used to avoid false control due to Störimpulson o. Ä. Is expediently provided.

Figures 3 to 5 show curves for the Rodox-Potontial, in the denon the Getroton dos boschriobcnon break point is illustrated. To maintain an anaerobic environment for the phosphate removal, switching on the oxygen supply after the break point is delayed. According to FIG. 3, a predetermined zoom span At is predetermined for this purpose. After this period of time At, the oxygen supply is switched on.

According to Figure 4, the anaerobic environment is maintained until an absolute redox limit value is exceeded. According to FIG. 5, the duration of the anaerobic environment is determined after reaching a minimum value for the difference of the redox voltages after the break point Δ Redox.

All three stowage options are readily available and allow, in addition to the denitrification, a phosphate removal from the wastewater.

Claims (8)

1. A method for controlling the microwave treatment of waste water, characterized in that in the treated wastewater the redox potential is measured and evaluated and that the occurrence of a strong drop in the redox potential is used as a control criterion for the treatment. 2. The method according to claim 1, wherein the treatment of the effluents comprises a denitrification treatment, characterized in that the denitrification treatment is terminated when the strong drop of the redox potential occurs. 3. The method according to claim 2, characterized in that is used as an additional criterion for the termination of Denitrifikationsbehandlung located within a predetermined interval absolute value of the redox potential. 4. The method according to claim 2 or 3, characterized in that the measured oxygen freedom of the waste water is used as an additional criterion for the completion of the denitrification treatment. 5. Control arrangement for the microbial treatment, in particular Denitrifikationsbohandlung, of waste water, characterized by a sensor (1) for the Rodox potential, an evaluation circuit for the measured values of the sensor (1), a detector for a strong decrease of the redox potential and a Switching unit connected to the detector for influencing the treatment. 6. Control arrangement according to claim 5, characterized in that the detector for the strong decrease of the redox potential has a differentiation stage for the formation of the first derivative and / or the second derivative of the measuring signal of the sensor (1). 7. Control arrangement according to claim 5 or 6, characterized in that the evaluation circuit comprises a comparison arrangement for determining whether the absolute value of the redox potential is within a predetermined interval, and that the comparison arrangement together with the detector via an AND link with the switching unit connected is. 8. Control arrangement according to one of claims 5 to 7, characterized by a sensor for the O ₂ content of the waste water, whose output signal is connected to the output signal of the detector for the strong decrease of the redox potential via an AND link with the switching unit.