DE3106422A1 - Process for the anaerobic degradation of organic substances present in wastewater - Google Patents

Abstract

Process and apparatus for the anaerobic degradation of dissolved and/or undissolved organic substances present in wastewater, the degradation in a digestion tank (10) being activated by resupply of solids separated out from the wastewater in a flotation tank (16) arranged downstream of the digestion tank. For the flotation, a gas, preferably digestion gas, not impairing the vital activity of the methane bacteria causing the anaerobic degradation, is used. <IMAGE>

Description

Process for the anaerobic degradation of wastewater

existing organic substances The invention relates to a Process for the anaerobic degradation of dissolved and / or undissolved substances present in wastewater organic matter that is recovered in a digester by recycling from the Waste water is separated in a (second) container arranged downstream of the digester Solids is activated, as well as on a device for carrying out the method.

The known anaerobic digestion processes are used to break down organically polluted wastewater. Device for carrying out the anaerobic degradation of wastewater existing organic substances essentially consist of a stacking basin or storage tank, a digester and a sedimentation tank. The anaerobic Dismantling process in the closed Fa.ul container, for example in prestressed concrete or can be made of sheet steel.

The efficiency of anaerobic degradation is among other things through the separation and recycling of the solids flowing off with the digested water substrate certainly. These are taken from the sedimentation basin and fed back into the holding tank to become. The disadvantage often arises that this is the case with anaerobic treatment resulting digester gas can affect the settling process in the suspended Substances partially suspended and therefore not returned to the cycle can be. Another disadvantage of this sedimentation is to be seen in the fact that that despite the long residence time in the sedimentation tank, only a small amount of solids separated and fed back to the digester, whereby the anaerobic Degradation is impaired.

The object of the present invention is to provide a method of the above to design said type in such a way that. a faster anaerobic breakdown of those in wastewater existing organic substances can occur that the separation of the solids, which are fed back to the digester, accelerated compared to sedimentation is, with the simultaneously occurring disadvantages of floating the suspended substances are avoided.

The object is achieved according to the invention in that the solids be separated in the second container by means of flotation. This is preferably done the e flotation with a methane bacteria that do the anaerobic breakdown of organic substances, gas that does not impair their vital activity. According to one embodiment of the invention, this should preferably be the case during dismantling be generated digester gas.

The phase separation by means of flotation takes place in comparison to Sedimentation in the sedimentation tank separates the solids approx. 4 to 8 times faster, so that they can be returned to the digester in a more concentrated form, whereby the anaerobic degradation is accelerated.

This makes better use of the volume of the digester, as one higher solids content can be selected.

In other words, a greater throughput is possible when the inventive Procedure is used.

A device for the anaerobic degradation of dissolved substances in wastewater and / or undissolved organic solids with a digester and one of these downstream tank for separating solids, which is returned to the digester can be supplied, in particular for carrying out the method described above, is characterized in that the second container is opposite to the ambient air is a closed flotation tank. This ensures that from the flotation tank neither odorous or explosive gases can escape into the ambient air. Also, the gas that is above of the existing in the flotation tank Water is available to be used to be dissolved in the water. It can can therefore be used directly for flotation. To get the gas in the sewage too Loosen it in order to then relax it in the flotation tank so that the Substances can accumulate on the resulting small and tiny gas bubbles, a pressure vessel is provided to which wastewater and pressurized gas are fed will. When using digester gas, this can either be the digester or taken from the flotation tank. The gas is dissolved in the water preferably in that the water can be fed to an ejector, the suction opening of which is in communication with the gas under pressure in the pressure-tight container and the outlet opening of which is arranged in the pressure-tight container. To the pressure vessel to make maintenance-friendly with regard to the ejector, this can outside of the be arranged pressure-resistant container, then of course between the pressurized gas cushion in the pressure-tight container and the suction opening the ejector is connected.

The use of digester gas as used for flotation in the The gas to be dissolved in wastewater is not harmful to other methane bacteria Gases have the advantage that a high level of economy is achieved, since that in the CH4 and CO2 present in digester gas have such a high solubility that the pressure vessel The amount of wastewater to be supplied is very small compared to flotation with air chosen can be. In addition, the working pressure in the pressure-tight container can be kept low (for example 2 bar).

Further details, advantages and features of the invention are the schematic representation of a preferred embodiment of a device on the anaerobic degradation of organic substances.

A digester 10 is continuously or via a line 12 intermittently organic # highly polluted wastewater supplied, whereby the amount of supplied wastewater depending on the fill level in the digester 10 regulated. can be. The contents of the digester are preferably circulated through Gas injection. Via a line 14, 10 solids are removed from the digester Waste water is fed to a basin 16, which according to the invention is an opposite of the ambient air is a closed flotation tank. The separated in the flotation tank 16 Solids are fed back to the digester 10 via a line 18. One Conveyor device 20 built into line 18, such as an exenter screw pump 20 is used to recycle the solid. At the same time can the flotation tank 16 wastewater freed from solids can be withdrawn via a line 22. Will further desired that the flotation tank 16 sludge is withdrawn, so can this is done via a line 24. To carry out a phase separation by means of flotation, gas dissolved in wastewater must be expanded in the flotation tank. It may the gas to be dissolved the vital activity of the methane bacteria causing the anaerobic degradation not affect.

Since digester gas is produced during anaerobic degradation, it is therefore preferred this used for flotation. The digester gas to be taken from the digester 10 is fed via a line 26 to a pressure-tight container 28 in which the gas is dissolved in wastewater. To a purified digester gas the pressure-tight container 28 To be able to supply, a gravel filter 30 as well is preferably in the line 26 a separator 32 is arranged. The conveyance of the digester gas from the digester 10 A water ring pump 34 can preferably be used for the pressure-tight container 28.

As a result of the isolation of the flotation basin 16 compared to the Ambient air collects digester gas above the wastewater surface. This can also are fed to the line 26 to be used again for dissolving in the wastewater.

As an example, it is indicated in the drawing that the flotation tank 16 withdrawn gas is fed to the line 26 upstream of the gravel filter 30 via a line 36 will.

Preferably, the digester 10 and / or the is released Flotation tank 16 removed digester gas in the pressure-tight container via a ejector, not shown, whose suction opening with the pressurized in the pressure-tight Container 28 standing gas is connected. The outlet opening of the ejector opens then in the pressure-resistant Container 28. Preferably, the ejector be arranged with respect to the pressure-tight container 28 that only its outlet opening protrudes into the container, so the other parts in particular the suction opening outside the container. This has the advantage that a suitably trained Ejector is very easy to maintain. Of course, the suction opening must then of the ejector via, for example, a pipe with the pressurized gas cushion in the container 28 are in communication.

To achieve the phase separation by means of flotation in the flotation tank 16 to be able to carry out, is to be taken from the pressure vessel 28 via a line 38 Waste water in the bottom area of the flotation basin 16 is supplied. In this sewage Sufficient amounts of gas are dissolved so that when the flotation tank 16 is relaxed Small and very small gas bubbles are formed to the desired extent, on which solids are attached can attach. Because the solubility of digester gas compared, for example, of air is very large, must be in the sewage supply line 40 from the flotation tank 16 to Pressure-tight container 28 arranged recycle pump 42 is not designed excessively large because only small amounts of waste water are sufficient to achieve the desired extent to be able to supply wastewater provided with dissolved gas to the flotation tank 16. In addition, because of the high solubility, it is not necessary that the pressure-resistant Container 28 prevailing pressure is chosen to be extremely large, whereby a high expenditure of energy would be required. The pressure in the container 28 should preferably be 2 bar.

It should be pointed out that of course that Digester gas also directly, that is to say without an ejector, into that which is present in the pressure-tight container 28 Water can be introduced and dissolved.

The teaching according to the invention is an extremely economical one Process for the anaerobic degradation of dissolved and / or undissolved in wastewater organic substances made available. This opens up the possibility of that a high throughput is possible through an appropriately designed device is that a faster breakdown of the organic matter takes place. Also have to the digester to be used should not be chosen to be excessively large, as the solids content for anaerobic degradation due to the rapid separation of solids in the flotation tank can be chosen relatively high, so that even with limited space a good architectural adaptation to the environment is possible.

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Claims (8)

Process for the anaerobic degradation of organic substances present in wastewater Substances claims: 1. Process for the anaerobic degradation of those present in wastewater dissolved and / or undissolved organic matter in a digester Recirculation of from the wastewater in a (second) downstream of the digester Container precipitated solids is activated, characterized in that the solids are separated in the (second) container (16) by means of flotation. 2. The method according to claim 1, characterized in that the flotation with a gas that does not impair their vital activity he follows. 3. The method according to claim 2, characterized in that the Gas is digester gas. 4. The method according to at least claim 1, characterized in that the gas to be dissolved in a (third) pressure-tight container (28) flowing to the second Container (16) # water removed from the sub-container present in the third container Pressurized gas is added. 5. Device for the anaerobic degradation of dissolved substances present in wastewater and /> the undissolved organic matter with a digester and one of these downstream tank for separating solids, which is returned to the digester can be supplied, preferably for carrying out the method # after at least one of claims 1 to 4, characterized in that the (second) container (16) is a flotation tank that is closed off from the ambient air. 6. Apparatus according to claim 5, characterized in that the in the sewage to be dissolved digester gas in a pressure-tight container (28) is soluble, the the digester gas can be supplied from the digester (10) and / or from the flotation tank (16) is. 7. Apparatus according to claim 6, characterized in that for releasing of gas in the water this can be supplied to an ejector, the suction opening with is in communication with the gas under pressure in the pressure-tight container (28) and the outlet opening of which is arranged in the pressure-tight container. 8. Apparatus according to claim 7, characterized in that at least the suction opening of the ejector is arranged outside the pressure-tight container.