SK104999A3 - Method for the treatment of municipal sewage waters - Google Patents

Abstract

A method of treatment of municipal waste-waters from which coarse impurities have been removed using anaerobic treatment process and a carrier, consists in that after removal of insoluble substances in the first stage, the municipal waste-water is treated stepwise in at least three next stages by anaerobic treatment comprising attached biomass with a hydraulic retention time of 6 to 48 hours, and subsequently it is subjected to oxic treatment process (6) with a hydraulic retention time of 0.2 to 12 hours, while the anaerobic and oxic removal take place in the presence of a biomass carrier having a specific surface of 60 to 500 m2/m3. The municipal waste-water proceeds through the individual stages of the anaerobic process either from below upwards or from above downwards. At the oxic treatment biomass is intensively aerated with pressure air, and after the oxic treatment the waste-water may be, together with the built-up biomass, recycled into at least one of the anaerobic stages.

Description

Technical field

The invention relates to a process for the treatment of municipal waste water.

BACKGROUND OF THE INVENTION

The current methods of municipal wastewater treatment are based solely on aerobic processes. Under aerobic conditions, the activation mixture together with the effluent is aerated to decompose the organic substances present in the effluent. The organic substances present in domestic waste water are usually well degradable. In the aerobic stages of WWTPs they are decomposed to CO2, while at the same time a new biomass - sludge is created in the system. The activation mixture is then deposited in settling tanks. Part of the activation mixture is taken in the form of excess sludge and stabilized in the digesters. In the case of small WWTPs (up to 10,000 to 20,000 PE), sludge stabilization is carried out simultaneously, resp. in a separate manner together with the activation mixture.

More energy-efficient anaerobic processes (without oxygen) are used in practice mainly in more concentrated waste water (eg from the food industry).

The combination of anaerobic - aerobic processes is used for increased biological phosphorus removal (luxury uptake). The anaerobic part of the reactor serves here only for the biochemical processes of phosphate release into the activation mixture, but the process of removing organic contamination itself does not take place in this part of the reactor. This method is characterized by a residence time of wastewater in the anaerobic portion of a maximum of two to three hours, as disclosed in CS patent no. 275 878.

PV 1313-96 discloses a biological wastewater treatment process using a two-stage anaerobic-aerobic treatment process. However, the raw waste water supplied is acidified, while being mixed with recirculated thickened anaerobic sludge. The method is particularly suitable for medium and higher polluted waste water, not for municipal waste water.

-2US Patent 5,667,688 also utilizes a combination of anaerobic-aerobic processes with a strict division of anaerobic and aerobic zones. This strict separation is effected by separate recirculation of anaerobic and aerobic sludge, with some of the purified wastewater being returned to the process for denitrification.

Also, the published application WO 97/00833 utilizes a ring-shaped division of the treatment plant into an anaerobic and aerobic portion, wherein the length of the anaerobic zone is at least seven times greater than the length of the aerobic zone. The biomass is not fixed by the carrier, but is floating freely in space.

EP 0 302 545 A2 defines a process for the psycho-hydrological treatment of waste water with a medium to low concentration of pollution. The anaerobic process in this case is divided into two stages: The UASB sludge bed reactor, the second stage consisting of a fluidized bed reactor and a fine biomass carrier, and finally the aerobic stage is again defined for the nitrification process as a fluidized bed reactor consisting of a fine carrier. The aerobic reactor is aerated.

SK patent no. 279 389 defines a water purification method in which waste water is fed into a reactor comprising carrier bodies consisting of plastic.

For municipal wastewater treatment plants, about 70% of the operating costs are the costs of ensuring the supply of oxygen from the air due to the effective creation of aerobic conditions. This is a relatively energy intensive process, resulting in purified waste water and sewage sludge. The entire existing method of municipal (sewage) wastewater treatment for small WWTPs can be characterized by relatively large volumes of activation tanks (150 - 250 l / inhabitant) and high specific costs per inhabitant.

More energy efficient anaerobic methods for municipal wastewater treatment encounter a number of technical and technological problems.

It is an object of the present invention to provide a municipal wastewater treatment method which would greatly streamline municipal wastewater treatment while achieving the desired water purity parameters at the aerobic stage effluent.

3. Summary of the Invention

Said object fulfills the method of treatment of municipal waste water free of coarse impurities using aerobic decomposition and carrier. SUMMARY OF THE INVENTION [0003] After the insoluble matter has been removed in the first stage, the municipal waste water is subjected in successive at least three stages to anaerobic decomposition by the presence of growth biomass with a hydraulic residence time of 6 to 48 hours. compressed air with a hydraulic residence time of 0.2 to 12 hours. Anaerobic and oxic decomposition are carried out in the presence of a biomass carrier with a specific surface area of 60 to 500 m ² / m ³ .

The anaerobic decomposition of the municipal waste water is preferably carried out for 10 to 24 hours.

Municipal wastewater proceeds through the individual stages of anaerobic degradation from bottom to top or top to bottom.

Synthetic materials with a specific surface area of 80 to 150 m ² / m ³ can be used as carriers of growth biomass in anaerobic decomposition.

In anaerobic digestion, a growth biomass carrier with a larger specific surface area can be used in each further digestion step, downstream of the municipal wastewater.

It has been found advantageous to carry out the oxic decomposition of the municipal waste water for 1 to 3 hours.

The biomass carrier may be a natural material, e.g. gravel or sand, or suitably treated synthetic materials, e.g. polyurethane foams or insulating pipes.

It has also been found that municipal waste water after the oxic decomposition together with the growth biomass can advantageously be recycled to at least one of the anaerobic stages.

The organic substances present in the waste water are broken down into simpler substances (lower fatty acids) until the final cleavage product is methane, which is released from the water.

The waste water passes through a layer of growth biomass adhered to the support surface and the organic substances contained therein anaerobically decompose, whereby the waste water achieves the required purity parameters at the reactor effluent.

In case of increased quality requirements for waste water treatment is possible

- After the anaerobic step, the waste water has to be cleaned aerobically with air oxygen. The oxic decomposition is effected by the presence of growth biomass intensively aerated with compressed air.

The advantage of this method is that the decomposition of municipal waste water can be carried out even in the absence of oxygen.

This purification method minimizes sludge problems, i. j. there is no need to build up digesters for storing the sludge formed.

Another non-negligible advantage of the invention is the considerably reduced energy and investment costs for the treatment of municipal waste water, whereby waste water of the required purity parameters is obtained.

Overview of the figure in the drawing

The attached figure shows the basic scheme of the individual steps of the municipal waste water treatment method.

Example

Waste water flows after the removal of coarse impurities to the stage 1, formed by a sedimentation tank with a volume of 0.45 m ³ , where the waste water is mostly freed from insoluble matter. Through the upper overflow the waste water reaches stages 2, 3, 4 and 5. These stages are filled with goose necks. In the 2nd and 3rd stage goosenecks with a specific surface area of 90 m ² / m ³ , vo

4th and 5th steps with a specific surface area of 110 m ² / m ³ . Waste water passes through a layer of growth biomass adhered to the surface of the carrier, where organic matter decomposes.

The input parameters of municipal waste water were:

COD = 475 mg / L

BOD5 = 229 mg / l insoluble matter NL = 448 mg / l

-5With a hydraulic wastewater residence time in the anaerobic sections of 24 hours, the following parameters were measured at the effluent from step 5:

COD = 160 mg / l, 66% cleaning efficiency

BOD5 = 73 mg / l, purification efficiency 68% insoluble matter NL = 22 mg / l, purification efficiency 95%.

The pre-treated wastewater flowed to step 6, which is a 0.2 m ³ tank.

T

Polypropylene cords with a total length of 230 m and a specific surface area of about 250-300 m ² / m ³ were used as the biomass carrier. At a hydraulic holding time of 3 hours with intensive aeration with compressed air, the biomass present is thoroughly cleaned of the waste water.

Stage 7 serves to deposit insoluble substances escaping from the previous stages and to drain the purified water into the recipient.

The following parameters were measured at the outflow from stage 7:

COD = 43 mg / L

BOD5 = 12 mg / l insoluble matter NL = 8 mg / l

Industrial usability

The method according to the invention can be used for the treatment of sewage or municipal waste water, especially in small sources of pollution such as e.g. houses, cottages, recreational facilities, hotels, but also for larger resources such as. small villages, small towns.

Claims (7)

PATENT CLAIMS Process for the treatment of municipal waste water free of coarse impurities using an aerobic decomposition and a carrier, characterized in that the municipal waste water, after removal of the insoluble matter in the first stage, is subjected to a progressively anaerobic decomposition by increasing biomass with hydraulic residence time. up to 48 hours, and subsequently subjected to oxic decomposition by the growth biomass present under intensive aeration with compressed air with a hydraulic residence time of 0.2 to 12 hours, the anaerobic and oxic decomposition being carried out in the presence of a biomass support with a specific surface area of 60 to 500 m ² / m ³ . Method according to claim 1, characterized in that the anaerobic decomposition of the municipal waste water is preferably carried out for 10 to 24 hours. Method according to claim 1 and 2, characterized in that the municipal waste water proceeds from bottom to top or top to bottom through the individual stages of anaerobic decomposition. Method according to claims 1 to 3, characterized in that the carrier of the growth biomass during anaerobic decomposition is preferably synthetic materials with a specific surface area of 80 to 150 m ² / m ³ . Method according to claims 1 to 4, characterized in that, in anaerobic decomposition, in each subsequent decomposition step, downstream of the municipal waste water, an increase biomass carrier with a larger specific surface area is preferably used. Method according to claims 1 to 5, characterized in that the oxic decomposition of the municipal waste water is preferably carried out for 1 to 3 hours. Method according to claims 1 to 5, characterized in that the municipal waste water after the oxic decomposition together with the growth biomass is preferably recycled to at least one of the anaerobic stages.