DE2722401A1 - METHOD FOR BIOLOGICAL TREATMENT OF WASTE WATER - Google Patents

Description

Process for the biological treatment of waste water

The reduction of the biochemical oxygen demand (BOD ₅ ) is normally not a major problem in a biological sewage treatment plant that works according to the activated sludge process. Often, BOD elimination rates of more than 90% are achieved. In contrast, substances that are difficult to biodegrade are only partially eliminated, for example by adsorption on the activated sludge flake. The COD (chemical oxygen demand) elimination rates in the activated sludge process are generally only between 50% and 80% / depending on the type of wastewater to be treated.

The residual COD in the outlet of an activated sludge treatment plant can at least be absorbed by activated carbon can be partially eliminated. This process requires high operating costs due to the thermal reactivation the activated carbon.

Le A 17 947

809848/0075

The aim of the present invention is to determine the COD content in the outflow of a biological sewage treatment plant.

The present invention therefore relates to a method for the biological treatment of wastewater, which in addition to Easily biodegradable substances contains poorly biodegradable substances, part of which is biodegradable readily degradable material is degraded in an aerobic stage, which is characterized in that the Subjects aerobically treated wastewater to a semi-aerobic or anaerobic treatment on an inert carrier material, in the case of semi-aerobic or anaerobic treatment, easily biodegradable wastewater is supplied will.

It has surprisingly been found that the COD content in the outflow of an aerobic biological Sewage treatment plant by connecting a second operated under semi-aerobic or anaerobic conditions Level can be lowered further. In this second stage, an inert carrier material is used for the microorganisms, such as pumice stone, slag, activated aluminum oxide or macroporous adsorber resins, preferably activated carbon. In the second stage, the organic substances in the water, which are difficult to decompose aerobically, are only removed in the presence of readily biodegradable organic compounds broken down.

In one embodiment of the method according to the invention is therefore a partial flow of the raw sewage before the aerobic

Le A 17 947 - 2 -

809848/0075

Treatment branched off and directly to the semi-aerobically or anaerobically treated wastewater, which from the aerobic treatment stage results, admixed. The partial flow should be related to that in the semi-aerobic or anaerobic Treatment stage present aerobically pretreated wastewater 5 to 50, preferably 10 to 30 vol%.

In another embodiment of the invention Process can be used to semi-aerobically or anaerobically treated wastewater that has already been aerobically treated beforehand concentrated wastewater from a source other than that from which the wastewater to be aerobically treated comes from is also added will; in the same way, the sewage to be treated semi-aerobically or anaerobically, which nor contains the aerobically poorly degradable compounds, soluble waste materials are added, which are predominantly biological Contain easily degradable substances, such as municipal sewage.

According to the invention, it is essential that the sewage feed for the semi-aerobic or anaerobic treatment has at least a BODc content of 25 mg / l, preferably of at least 50 mg / l _f .

The temperature in the semi-aerobic or anaerobic stage can be at temperatures of about 10 to 60 C, the pH at values between 5 and 10, preferably between 6 and 9.

Le A 17 947 - 3 -

809848/0075

As an inert carrier material for the microorganisms of the semi-aerobic or anaerobic wastewater treatment, porous stones (0.5 to 3.0 mm in diameter), slag, activated aluminum oxide (grain size 0.05 to 3.0 nm) or macroporous adsorber resins such as styrene-divinylbenzene and acrylic acid-divinylbenzene resins or activated carbon, for example in granulated form. Granulated activated carbon is preferably used in the process according to the invention ("Biologically-extended physicochemical treatment "Walter J. Weber Jr. et al. 6th Intern. Conference on Water Pollution Research, June 1972).

Semi-aerobic wastewater treatment within the meaning of the present Invention understood the following:

After leaving the reactor filled with inert carrier material, the oxygen content of the wastewater is between and 2 mg 0 ₂ / l · Both aerobic and optionally anaerobic microorganisms are involved in biological degradation.

For the purposes of the present invention, anaerobic wastewater treatment is understood to mean the following: The oxygen content of the wastewater after leaving the reactor filled with inert carrier material is 0 mg / 10 ~. On biological Dismantling are involved:

facultative and obligatory anaerobic microorganisms with

Fermentation metabolism
and / or nitrate breathers
and / or SuIfatreamer.

In a particular embodiment of the method according to the invention it is possible to use the carrier material for the semi-aerobic or anaerobic wastewater treatment in the form of a

Le A 17 947 - 4 -

809848/0075

Use fluidized bed.

The carrier material is preferably arranged in the form of a column, wherein the inflow takes place at the foot of the column, and wherein the flow rate of the sewage inflow of this stage is continuous or is temporarily adjusted so that the flow from below The filter bed expands by 5 to 50% of its volume. In a variant of this process, the expansion of the the fixed bed flowing in from below can be brought about by recirculation of the wastewater.

The residence time of the wastewater in the semi-aerobic or anaerobic stage can be between about 10 minutes and 10 hours preferably between 1 and 5 hours. The COD volume load in the semi-aerobic resp. anaerobic level is set to values of about 0.1 to 5 kg COD / m times day, preferably 0.5 to 2 kg COD / m times day.

In a further embodiment of the invention The aerobically pretreated wastewater before its entry or during its treatment in the process can semi-aerobic or anaerobic stage chemically bound oxygen, for example in the form of hydrogen peroxide, Nitrate and sulfate, are mixed; this is done in such an amount that the chemically bound oxygen 20-2OO % of the COD content of the sewage to be treated semi-aerobically or anaerobically, preferably 40-170%.

The following is a process scheme of the invention Method described with reference to FIG. The individual digits have the following meaning:

Le A 17 947 - 5 -

809848/0075

I sewage inlet; 2 primary clarifier; 3 primary sewage sludge; 4 bypass the first stage, 5 return sludge; 6 aeration basins; 7 secondary clarifier; 8 excess sludge 1st stage; 9 Procedure 1st stage (aerobically pretreated); 10 2nd stage feed;

II 2nd biological stage (semi-aerobic or anaerobic); 12 excess sludge 2nd stage; 13 2nd stage process; 14 Circulation.

In detail, the wastewater, which contains substances that are easily and difficult to biodegrade, first arrives at 1 Into the primary clarifier 2, where sedimentable material is separated, via 3 primary sludge is discharged. The the Waste water leaving the primary clarification tank is now introduced into the aeration tank 6, where the aerobic treatment is carried out. A partial flow (4) is led past the activated sludge basin and directly into the semi-aerobic or anaerobic stage fed. After the aerobic treatment in the activated sludge tank 6, the aerobically treated wastewater is together with the Activated sludge passed into the secondary clarifier 7, from which excess sludge formed aerobically via 8 discharged or via 5 return sludge can be returned to the aerobic part. The aerobically pretreated wastewater is after separation of the activated sludge passed through 9 and 10 into the second, semi-aerobic or anaerobic biological stage, with previously it is mixed with the wastewater diverted via 4. The aerobically treated wastewater supplied from 7 via 9 mainly contains substances that are difficult to decompose aerobically. About 12 is excess sludge from the second stage discharged, the treated wastewater is discharged via 13. In a variant of this embodiment, the dashed line Line 14 wastewater can be circulated.

The method according to the invention is exemplified below shown:

Le A 17 947 - 6 -

809848/0075

example 1

A wastewater from a textile dye works that contains a non-ionic surfactant, sodium sulfate and acetic acid in addition to dye contained, was adjusted to pH 7 and in a laboratory activated sludge plant treated with an aeration time of 4 h. There was no change in color.

After 5 weeks of testing, the downstream activated charcoal column achieved a discoloration of 55%. In a system operated in parallel, in which 20% of the feed was fed directly to the second stage aerobes, as well as nitrate and sulfate substances (activated carbon column with obligatory and optional anaerobic bacteria), the discoloration at the same point in time was 99%.
Example 2

Wastewater from the chemical industry was treated in a semi-industrial activated sludge plant with an aeration time of 11 hours. The analysis data of the inflow to the first Level were the following:

COD = 1810 mg / 1
BOD ₅ = 837 mg / l

After the aerobic treatment, wastewater also resulted

COD = 643 mg / 1
BOD ₅ = 67 mg / l

Le A 17 947 - 7 -

809848/0075

Part of the volume of the first stage drain was combined with part of the volume of mechanically pre-treated municipal wastewater mixed. The municipal wastewater showed the following analysis values:

COD = 257 mg / 1 BOD ₅ = 151 mg / 1

The mixture of both wastewater became an anaerobic one Activated charcoal filter supplied. A sequence of the second stage resulted with

COD = 106 mg / 1 BOD ₅ = 7 mg / 1

The contact time of the wastewater with the activated carbon was - calculated on the free cross section - -4h.

An activated sludge plant operated in parallel with the second anaerobic stage In contrast, provided only the following wastewater quality with 6 hours of aeration time:

COD = 339 mg / 1 BOD ₅ = 16 mg / 1

Le A 17 947 - 8 -

809848/0075

Claims (11)

Claims M.) Processes for the biological treatment of wastewater, which, in addition to readily biodegradable substances, contains substances that are difficult to biodegrade, whereby a Part of the readily biodegradable material is degraded in an aerobic stage, characterized in that that the aerobically treated wastewater becomes a semi-aerobic or undergoes anaerobic treatment on inert carrier material, with the semi-aerobic or anaerobic treatment is fed to readily biodegradable wastewater. 2. The method according to claim 1, characterized in that a partial flow of the waste water before the aerobic treatment branched off and directly to the semi-aerobic or anaerobic wastewater to be treated, which from the aerobic Treatment stage results, is admixed. 3. The method according to claim 2, characterized in that the partial flow, based on that in the semi-aerobic or anaerobic treatment stage aerobically pretreated wastewater present 5 to 50, preferably 10 to 30 vol .-% wearing. 4. The method according to any one of claims 1 to 3, characterized in, that the sewage feed for semi-aerobic or anaerobic treatment at least one BODjj content of 25 mg / 1, preferably at least 50 mg / l. 5. The method according to any one of claims 1 to 4, characterized in that that the temperature in the semi-aerobic resp. Le A 17 947 - 9 - 809848/0075 anaerobic stage at temperatures of about 10 to 60 C and the pH fourth at values between 5 to 10, preferably between 6 and 9. 0700 / Π1 6. The method according to any one of claims 1 to 5, characterized in, that the residence time of the wastewater in the semi-aerobic or anaerobic stage between 10 min. and 10 hours, preferably between 1 to 5 hours. 7. The method according to any one of claims 1 to 6, characterized in, that the COD volume load in the semi-aerobic or anaerobic stage to values of about 0.1 to 5 kg COD / m times day, preferably 0.5 to 2.0 kg COD / m times day is set. 8. The method according to any one of claims 1 to 7, characterized in that that the aerobically pretreated wastewater before its entry or during its treatment in the semi-aerobic or anaerobic stage chemically bound oxygen is added. 9. The method according to claim 8, characterized in that the waste water is hydrogen peroxide and / or nitrate and / or Sulphate is added. 10. The method according to any one of claims 1 to 9, characterized in that that as an inert carrier material for the microorganisms of the semi-aerobic or anaerobic Treatment activated charcoal is used. 11. The method according to claim 10, characterized in that the carrier material is used in the form of a fluidized bed will. Le A 17 947 - 10 - & 09848 / 0Ö75