NL1012130C2 - A method for the biological purification of waste water that has a low content of nutrients, and an apparatus for carrying out such a method. - Google Patents

Description

Short designation: A method for the biological purification of waste water which has a low nutrient content, and an apparatus for carrying out such a method.

The present invention relates to a method for biologically purifying waste water which has a low nutrient content. The present invention furthermore relates to an installation for the biological purification of waste water which has a low nutrient content.

The method as stated in the preamble is known per se from European patent application 0 893 413, whereby an exchange of liquid takes place between a reservoir for untreated water and a reservoir for sludge water as required, so that during a long interruption of the supply the micro-organisms of waste water can be kept alive in a biological purification reactor. In addition, at peak load, if the capacity of the untreated waste water reservoir is exceeded for a short time due to a large amount of supplied, untreated wastewater, an excess of the untreated wastewater can be stored in the sludge reservoir . This untreated waste water can later be used as a liquid for providing bioconversion nutrients if no raw waste water is supplied for a long period of time. It is therefore a useful application of aqueous flows within the same process to bridge a period without supply of untreated waste water, whereby sludge reduction techniques are not applied.

Such a method is also known from international patent application WO 98/012397, in which an activated sludge stream is formed within the same waste water system, which sludge stream is fed to an aerobic reactor. In this international patent application it is further stated that the recycling of an organic carbon-containing liquid is favorable because it is thus possible to refrain from administering external carbon / energy sources. No information has been provided on the required nutrient balance.

1012130 2

The object of the present invention is to provide a method for the biological purification of waste water which has a low nutrient content, wherein the nutrient deficiency is remedied in a simple manner.

Another object of the present invention is to provide a method and apparatus for the biological purification of waste water which has a low nutrient content, whereby the nutrient deficiency is remedied by making use of residual flows from water purification plants.

The method as stated in the preamble according to the present invention is characterized in that a nutrient-rich aqueous stream is added to the nutrient-poor waste water, which nutrient-rich aqueous stream has a different origin than the nutrient-poor waste water, in particular sludge processing for the release of nutrients. .

By applying a nutrient-rich aqueous stream from a source other than the nutrient-poor waste water, two different treatment plants are linked together in an economically sound manner. Moreover, by using a nutrient-rich aqueous stream from a different origin, the present method is less sensitive to disturbances because no internal recycling streams are used. While recycling streams will in practice exist in a treatment plant, it should be understood that the internal recycling streams listed below should not be considered primarily as nutrient balance flows.

Nutrients are mainly understood to mean nitrogen and phosphate compounds. These nitrogen and phosphate compounds are particularly necessary for the biological conversion processes that take place in the wastewater. The terms nutrient-poor and nutrient-rich used in the present invention are based on the ratio between the organic compounds present in the untreated waste water (measured according to usual standard as chemical oxygen consumption, namely COD) and the nutrients (nitrogen (N) and / or phosphate (P) compounds The nutrient-rich aqueous stream preferably has a COD / N ratio of <5 and a COD / P ratio of <20. The amount of N (mg / l) is preferably> 100 mg / l , the amount of P (mg / 1)> 10 mg / 1.

According to a special embodiment of the present method, the nutrient-poor waste water has been discharged by an industrial company up to 2130 t 3. Industrial waste water is defined as waste water that is released in a company as a result of applied production processes. However, the present method is not limited to industrial wastewater but is aimed at restoring the nutrient balance in an aqueous stream by using a nutrient-rich aqueous stream from a different origin. This waste water thus obtained is generally characterized by a low nutrient content relative to the amount of organic compounds. If such waste water is subjected to a biological purification, an unstable process of the purification will result as a result of an unbalanced composition of this waste water. In general, this leads to a low purification efficiency, sludge leaching and sudden discharges due to the disturbance of the unstable biological environment. In order to be able to treat such waste water in practice, additional nutrients are added according to the prior art, which nutrients cause an increase in costs. The administration of such nutrients restores the balance between organic compounds and the necessary nutrients. The present method has found a solution for restoring the nutrient balance in wastewater installations in an economically responsible manner.

The nutrient-poor wastewater is purified in an aerobic biological wastewater treatment plant or in an anaerobic biological wastewater treatment plant.

It is further preferred that the nutrient-rich aqueous stream comes from a domestic wastewater treatment plant.

Such household wastewater is generally collected and treated in a municipal sewage treatment plant. Such wastewater is characterized by a relatively high nutrient content relative to the organic compounds (carbon compounds such as starch, fats, sugars and the like), namely a low COD / N ratio, in particular. The compounds present in the domestic waste water are converted during the biological purification process into carbon dioxide gas, nitrogen gas and bacterial sludge. The wastewater thus purified is stripped of the aforementioned impurities, however, part of the impurities are in the sludge.

f01212n c 4

In order to reduce the amount of sludge, it is preferable to use a technique in which the organic compounds in the sludge are converted into gaseous compounds. It is particularly preferred to subject the sludge to an anaerobic treatment, in particular an anaerobic digestion, in which the organic sludge mass is converted into methane gas and the nutrients are released from the sludge. After such an anaerobic treatment, a mixture of water, residues and dissolved nitrogen and phosphate compounds is obtained.

According to another embodiment of the present invention, it is preferable to reduce the amount of sludge by using a wet oxidation. Such wet oxidation under the supply of oxygen leads to a decomposition of the organic sludge mass into carbon dioxide. During such a treatment, nutrients are released from the sludge, after which a mixture of water, residual sludge and dissolved nitrogen and phosphate compounds is obtained.

It is further preferable to dehydrate the mixture obtained in the anaerobic treatment and / or wet oxidation, after which the sludge is removed for final processing. The water fraction, also known as supernatant, is then biologically treated to remove the nutrients from this stream. The essence of the present invention is therefore directed to the use of this supernatant stream from domestic wastewater treatment plants as a nutrient source for wastewater discharged by an industrial company, which wastewater has a nutrient deficiency.

To facilitate reuse of the dissolved nutrients, the aqueous phase can be separated from the remaining sludge for reuse to produce a nutrient-rich supernatant stream. Various thickening techniques can be used to perform such an operation, namely gravity thickening, flotation thickening and band thickening. After such a thickening treatment, a nutrient-rich water fraction is obtained, and a sludge fraction which is also rich in nutrients. To further maximize nutrient yield, the sludge may additionally be subjected to a dewatering treatment, for example, by centrifugation, hand pressing, filter pressing and evaporation and drying. This increases the supernatant yield. The presence of sludge residues in the then remaining supernatant can be further limited by separating the remaining sludge from the water fraction in the supernatant, for example by settling, flotation and filtration.

In order to further limit the transport costs of the nutrient-rich aqueous stream, it is preferable to carry out a pre-dewatering treatment of the sludge before releasing the nutrients from the sludge. The same amount of nutrients is thus released in a smaller volume, which reduces transport costs. However, the present method is not limited to such pretreatment.

It is further preferable to concentrate the supernatant, after which the nutrients can subsequently be transported in a reduced volume. It is thus preferable to carry out such a concentration using one of the following techniques or a combination thereof, namely reverse osmosis, caustic and / or steam stripping, scrubbing, or electrodialysis.

The nutrient-rich aqueous stream is used in particular for processes in which the waste water has an unbalanced composition, in particular a nutrient deficiency. Such a situation is particularly applicable to waste water discharged by an industrial company, however it should be noted that any waste water that is deficient in nutrients can be used according to the present method. The nutrients present in a large amount of nutrients in an aqueous stream are then transferred to an installation where there is a shortage of such nutrients. The transport takes place, for example, by means of transport pipes, ships and tank trucks.

In practice, the nutrient-rich aqueous flow will be supplied via a pipe, it is further preferred that the nutrient-rich aqueous flow is supplied to a buffer vessel, the nutrient-rich aqueous flow being supplied to the nutrient-poor waste water, depending on the need, via a discharge pipe.

The present invention further relates to a device for the biological purification of waste water which has a small amount of nutrients, which device is characterized in that the pipe of waste water with a low content of nutrients is connected to a pipe of a nutrient-rich aqueous stream.

It is further preferred that the line of the nutrient-rich aqueous stream is connected to a buffer vessel, the buffer tank being connected via a discharge line to the line of wastewater with a low nutrient content. In a special embodiment it is moreover desirable that the nutrient-rich aqueous stream is supplied directly to the biological purification unit, in which purification unit the waste water is treated with a low nutrient content.

J U ü 4 = ü o 0

Claims (20)

9 Method for the biological purification of waste water which has a low nutrient content, characterized in that a nutrient-rich aqueous stream is added to the nutrient-poor waste water, which nutrient-rich aqueous stream originates from a different source than the nutrient-poor waste water, in particular of sludge processing for nutrient release. 2. Process according to claim 1, characterized in that the COD / N ratio of the nutrient-rich aqueous stream is <5. Process according to claims 1-2, characterized in that the COD / P ratio of the nutrient-rich aqueous stream is <20. Method according to claims 1-3, characterized in that the nutrient-poor waste water is discharged by an industrial company. Method according to claim 4, characterized in that the nutrient-poor waste water is purified in an aerobic biological treatment plant for industrial waste water. 6. Method according to claim 4, characterized in that the nutrient-poor waste water is purified in an anaerobic biological purification plant for industrial waste water. Method according to claims 1-3, characterized in that the nutrient-rich aqueous stream originates from a purification installation for domestic waste water. 8. Method according to claim 7, characterized in that the sludge obtained in the domestic waste water purification plant is subjected to an anaerobic treatment in order to obtain the nutrient-rich aqueous flow. 9. A method according to claim 7, characterized in that in order to obtain the nutrient-rich aqueous stream, the sludge obtained in the domestic waste water purification plant is subjected to a wet oxidation. A method according to claims 1-9, characterized in that the nutrient-rich aqueous stream is additionally freed from sludge. 11. A method according to claims 1-10, characterized in that the nutrient-rich aqueous stream is reduced in volume. Method according to claim 11, characterized in that the reduction in volume is performed by reverse osmosis. 1012130 » Method according to claim 11, characterized in that the reduction in volume is carried out by stripping with lye and / or steam followed by an acid scrubbing. 14. Method according to claim 11, characterized in that the reduction in volume is carried out by electrodialysis. Method according to claims 1-14, characterized in that the nutrient-rich aqueous flow is supplied to the nutrient-poor waste water via one or more pipes. 16. A method according to claims 1-15, characterized in that the nutrient-rich aqueous stream is supplied to the nutrient-poor waste water via ships. A method according to claims 1-16, characterized in that the nutrient-rich aqueous flow is supplied to the nutrient-poor waste water via tankers. 18. Device for the biological purification of waste water having a low nutrient content, characterized in that the pipe of waste water with a low nutrient content is connected to a pipe of a nutrient-rich aqueous stream. 19. Device for the biological purification of waste water 20 which has a low nutrient content according to claim 18, characterized in that the pipe of the nutrient-rich aqueous stream is connected to a buffer vessel, which buffer vessel is connected via a discharge pipe to the waste water pipe. with a low nutrient content. 20. Apparatus according to claim 18, characterized in that the conduit of a nutrient-rich aqueous stream directly flows into a purification installation in which the wastewater with a low nutrient content is treated. 101 213o COOPERATION TREATY (PCT) REPORT ON NEWNESS RESEARCH OF INTERNATIONAL TYPE IDENTIFICATION OF OE NATIONAL APPLICATION Characteristic of the applicant oi of the authorized representative 40968 / AB / ravl Dutch application no. Date of the request for an examination of an international type Granted by the International Research Authority (ISA) to the request for an examination of an international type No SN 33154 EN I. CLASSIFICATION OF THE SUBJECT (where different classifications apply, all specify classification symbols) According to International Classification (IPC) Int.Cl.6: C 02 F 3/00 II. FIELDS OF TECHNIQUE EXAMINED Minimum documentation examined Classification system Classification symbols Int.Cl.6: C 02 F Documentation examined other than minimum documentation provided that such documents are included in the areas examined ΙΠ. | | NO EXAMINATION FOR CERTAIN CONCLUSIONS (comments on supplementary sheet) IV. | } LACK OF INVENTION UNIT (remarks on supplement sheet) 'U form rCT / ISA / roi (j | OM979