NL8204658A - METHOD AND APPARATUS FOR REMOVING NITROGEN FROM WASTE WATER USING DIPPING DROP BODIES. - Google Patents

Description

823140 / vdKl / EB "« -1-

Short designation: Method and device for removing nitrogen from waste water with the aid of immersion drip bodies.

The invention relates to a method for removing nitrogen from waste water with the aid of immersion drip bodies and to an apparatus for carrying out the method. Immersion drip bodies are used for biological cleaning in such a way that they act in the nitrification area.

The object of the present invention is to assemble and apply these immersion drip bodies in such a way that denitrification (removal of nitrogen) can be obtained without enlarging the immersion drip bodies and without substantial additional investments, whereby the denitrifice is also ring degree can be set.

In order to obtain a denitrification with the immersion drip bodies, the specific surface load, relative to the biological oxygen demand (BSBc), must be less than 8 grams Og / m.d.

The composition of such drip-drip bodies active in the nitrification region is known. Several dip-droplet body rollers with radial or axial flow can be placed one behind the other and designed for an average surface load (relative to BSBc) of less than 8 grams Oj / m ', d. In order to obtain a certain nitrification, the dip-drip body device can also be divided into two stages with an intermediate purification.

The first stage is designed for the decomposition of the organic carbon, operating in the range of about 18 to 30 grams Og / md. The excess sludge formed in the first stage is separated in the intermediate purification. By using an intermediate purification, an optimum biological field for nitrification can be formed on the growth surfaces of the dip-drop bodies of the second stage of the device. The second stage of the drip-drip body device (non-firing stage) operates in the region - relative to BSBg - that is less than 8 grams Og / m .d.

8204658 -2-

Finally, the device has a post-purification step,

The object of the invention is now to remove the nitrate formed in the nitrification step from the wastewater without enlarging the drip-dripping bodies by controlled denitrification.

This object is achieved by the method according to the invention in that in the dip-drip body step, which per se provides for the carbon decomposition, oxygen can be withdrawn from the air on the one hand and, after conversion, on the other hand from the nitrate, the conversion being adjustable.

The biologically purified post-purification effluent contains the nitrate oxidized nitrogen. The effluent is recycled, in accordance with the desired degree of denitrification, into the first stage, which now acts as a denitrification stage. In this denitrification step, the oxygen of the nitrate is separated from the nitrogen. This separation can only take place if there is no free dissolved oxygen in the denitrification stage and the bacteria are forced to use the oxygen from the nitrate for the oxygen requirement.

As the denitrification step, the dip-drop bodies 20 step was used, which initially served for the decomposition of the organic carbon. To break down the organic carbon, the microorganisms require oxygen from the air, which is supplied to the dip-drip bodies by immersing the growth surfaces about half in the wastewater and the other half in the air. When the immersion, drip and body rollers are rotated, the microorganisms absorb oxygen when rising in the air and the impurities when immersed in the waste water.

The microorganisms of this dip-droplet organic carbon decomposition step 30 therefore draw the oxygen from the air, since only about half of the curls are immersed in the wastewater. By measuring the oxygen content in the denitrification step, the device is controlled such that after exceeding an oxygen content of 0.2 mg / liter, the waste water is pushed up in this step. By pushing up the wastewater until the immersion drip body rollers are fully immersed, the microorganisms on the immersion drip body rollers are forced to oxygenate. -f- 3- which is present in the nitrate of the biologically purified wastewater from post-purification. The cycle (recycle after post-purification) must be regulated in such a way that the oxygen present in the nitrate is sufficient for the oxygen requirement of the 5 micro-organisms, which cause the breakdown of the organic carbon. Waste water recirculation can therefore be controlled between an amount less than or equal to the inflowing amount and an amount three times the inflowing amount.

When the nitrate-oxygen of the amount recycled is not sufficient, the back-up of the dip-drop body roller must be correspondingly reduced. Reducing the backwater must be achieved in that no denobler states occur in the denitrification stage.

The invention is further elucidated in the description below with reference to an exemplary embodiment shown in the drawing, from which further details of the subject-matter of the invention also appear.

The drawing schematically shows a waste water purification device 1, which has two biological stages 2 and 3, which are provided with two immersion-drip body rollers 4 and 5 and 6, 7 and 8, respectively.

Between the first and the second immersion-drip body stage, an intermediate purification basin 9 is placed, from which excess sludge can be discharged via the lines 11 and 12. The second immersion-drip body stage is followed by a post-purification basin 13, from which, on the one hand, purified sludge is returned or separated via line 14 and, on the other hand, biologically purified waste water is returned via return line 15 to return 16, thereby returning it to first submersible drip body 2.

The tub of the drip-drip bodies 17 of the first drip-drip body 2 must be formed such that the top 18 projects in any case above the highest point of the dip-drip bodies in the tub 17.

The outlet 19 of the immersion-drip body tub 17 is adjustable in height, so that each level of the water level can be adjusted between the deepest position 20 and the highest position 21.

For the measurement of the oxygen content in the immersion-drip body 17, an oxygen measuring device 22 is placed, which can adjust the oxygen content in this step to 0.1-0.2 rog / liter.d.

The measuring device 22 forces the outlet 19 to be raised when the limit of 0.2 mg / liter 0 lb in the immersion-drip body vessel 15 is exceeded. Despite the fact that the maximum position 21 has been reached, however, the oxygen content in this tank 15 does not decrease yet, then it is ensured that the waste water return in the pipe 15 is throttled.

In order for the device 1 according to the invention to operate in the manner shown, it must first of all be achieved that the device operates in the nitrification region in the second nitrification stage 3, while carbon is degraded in the first stage 2 for this purpose. . The apparatus must therefore first adjust before the denitrification can take place in the first stage 2, which then becomes the denitrification stage.

15 This takes place in the following manner:

For nitrogen removal, the drip-drop body device 1 must operate in the nitrification range, i.e., the BSBc surface load must be less than 2 3 8 grams Og / m .d. After the adjustment of the device and the attainment of the nitrogen oxidation to nitrate, the recycle from the post-purification (recycle) is increased according to the nitrate content and the BSBg load while simultaneously raising the water level in the first stage 2, which in itself is used for the decomposition of the organic carbon is intended. The stowage height also depends on the oxygen requirement of the microorganisms for the degradation of the organic carbon and of the nitrate from the available oxygen from the recycle of the post-purification. It is therefore necessary that 1) the return in the range of $ 100-300 of the incoming waste water be adjustable; 2) the water level in the immersion-drip body rollers 4 and 5, which are to perform the denitrification, without transitions until the rollers are completely flooded.

From these considerations, it appears that the dip-drip bodies-device 1 itself need not be enlarged to obtain denitrification. The oxygen of the nitrate is used to provide the oxygen requirement of the microorganisms in the decomposition of the organic carbon of the wastewater. Therefore, 8204658 pr --- '· _' · '' · '· - · IV: ¾¾

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-5- at the same time, an important saving of the energy requirement of the dip-drip body rollers is possible. By using the nitrate oxygen, it is possible to reduce the energy-demanding supply of oxygen for the micro-organisms from the air.5 The nitrate oxygen is used for the oxygen transport of the micro-organisms for the decomposition of the organic carbon then the rotational speed of the drip-drop body traps can be reduced to zero revolutions / minute. This enables energy savings of approximately 50% with the same purification performance as with known devices.

Finally, the control device must also be so. provided that with an insufficient amount of nitrate-oxygen in the return line 15, the backwater around the submersible tipping body rollers 4 and 5 is lowered.

8204658

Claims (5)

A method for removing nitrogen from the waste water by means of biologically active dip-drip bodies, which have a nitrification stage in addition to the carbon degradation stage, wherein the excess sludge can be recycled from the post-treatment basin, characterized in that, that for this purpose oxygen can be withdrawn from the air on the one hand and on the other after a conversion from the nitrate in the first dip-drip body stage, which in itself ensures the carbon breakdown, which conversion can be adjustable. 1Q2. Device for carrying out the method according to claim 1, characterized in that the two-stage immersion-drip body device (1) comprising a first stage (2) for the carbon break-up, followed by a purification basin (9) with sludge return, and a second stage (3) for the nitrogen oxy-oxidation, the nitrification stage, comprising from the post-purification basin (13) via the conduit (14). purified sludge and waste water can be recycled via the return pipe (15), in the first stage has a height-adjustable drain (19), so that the level of the waste water (20, 21) in this stage from the center of the shaft 2Q of the immersion-drip body rollers (4, 5) until its upper edge can be continuously changed. Device according to claim 2, characterized in that the return of waste water in the return pipe (15) can be controlled between an amount smaller than or equal to the inflowing amount and the three-fold amount thereof. Device for controlling the device according to claim 2 or 3, characterized in that oxygen measuring devices (22) are placed in the denitrification stage (2), the content of dissolved oxygen in this stage (2) being 0 , Set 1 to 0.2 mg / liter, that when this limit is exceeded they raise the discharge (19) of this step (2), after which the return is reached when the maximum position is reached and the oxygen content is not reduced. of wastewater in the return pipe 35 (15) can be throttled. 8204658 ψ - 7-— “f * -7- Device according to claim 4, characterized in that the revolution speed of the drip-drip bodies (4f 5) in the denitrification step (2) can be reduced to zero when the desired denitrification value is reached. Device according to claim 4 or 5, characterized in that, in the case of an insufficient amount of nitrate-oxygen in the return line (15), the push-up around the dip-drop body rollers (4 and 5) can be reduced. 8204658