LT3581B - Method and device for anaerobic treatment of sewage - Google Patents

Abstract

The invention refers to the field of biotechnology, anaerobic sewage cleaning and organic waste removal. The invention enhances the efficiency of anaerobic sewage cleaning processes and improves the quality of cleaned water. This is achieved by improving the characteristics of technological processes, as a larger concentration and density of micro-organism biomass is processed after improving bioreactor construction.The main point of anaerobic sewage cleaning is processing the sewage with suspended micro-organisms, immobilised on a robust carrier. A high concentration level is guaranteed by a stable load, consisting of a 10-50 mm long segment of polyethylene pipe, the diameter of which is 50 mm, a part of suspended anaerobic slit recirculation, slit separation device, which is mounted in the centre of lower zone of the bioreactor.The innovation is the fact that sewage passes the lower and upper parts of the cleaning zones at different filtration speeds, and different anaerobic micro-organism biomass concentrations and densities are maintained. At the same time, a natural active anaerobic slit recirculation takes place through a slit separation in the lower part of the bioreactor appliance.

Description

The invention relates to the field of biotechnology of wastewater treatment, in particular to the treatment of anaerobic wastewater from organic pollutants.

Widely known methods for anaerobic treatment of wastewater from organic pollutants, according to overview by D. Danilovich and others Anaerobic treatment of concentrated wastewater, 24-59 p. Moscow, RFTSR Ministry of Public Utilities, 1989, focused on their anaerobic treatment in bioreactors with a fixed microflora on a solid support consisting of flat-material cylinders 90 mm in diameter with openings in the side surface and transverse sections 90 mm in diameter; 80 - 100 mm diameter corrugated rings with internal honeycomb structure.

Known process for anaerobic treatment of wastewater in a bioreactor with attached microflora on a solid carrier which may contain sand, expanded clay, slag, activated carbon, artificial rings, polyurethane, polyethylene, foam, polypropylene or mixtures of various of these materials according to EP 0161469. some of the anaerobic microorganisms in suspension form are reused in the work area due to the recirculation process. This increases the efficiency of the organic pollutant decomposition process.

Known wastewater treatment plant having a closed cylindrical vessel in which the treated wastewater is fed through a loading batch with immobilized microorganisms and the purified water is discharged from the upper free portion of the bioreactor according to EP 0161469. of anaerobic sludge.

The disadvantage of the known method and device is that the wastewater treatment process does not ensure sufficient efficiency and low quality of treated water. This is explained by the fact that feeding the treated wastewater through the entire bed layer and recirculating some of the biomass through the entire bed bed results in a long passage of the bed, which causes the batch to curb and at the same time limit the technological parameters of the cleaning. The bioreactor of this design has a maximum biomass concentration of suspended anaerobic microorganisms of 30 kg / m3 and a chemical oxygen demand (CHDS) loading of not more than 14 kg / m3 of useful bioreactor volume per day at a purification rate of 90%.

In order to enlarge

In order to improve process efficiency and improve the quality of treated water, a new wastewater treatment method and a device for its implementation have been developed. According to this anaerobic method of treating wastewater in a closed bioreactor, the treated wastewater is fed from the bottom up and the treated water is discharged into a water collecting gutter, the internal volume of the bioreactor is divided into two zones with different biomass concentrations and densities of anaerobic microorganisms.

The increased concentration of suspended anaerobic microorganisms in the lower bioreactor area is maintained by the installation of an anaerobic sludge sedimentation center.

When entering the bioreactor, the effluent mixes with the suspended biomass of anaerobic microorganisms and passes through a layer of corrugated polyethylene pipe cut-offs with anaerobic microorganisms. In this way, intensive anaerobic digestion of organic pollutants occurs as the concentration of suspended microorganisms reaches 6.0 kg / nT. While fixed on. The charge surface biomass concentration is 38 kg / m ³ .

Also, the passage (filtration) rate of wastewater treated in the upper area of the bioreactor is reduced due to the increase in the cross-section of the bioreactor, which results in deposition of anaerobic microorganisms and an increase in its density.

The wastewater to be treated, passing through the upper batch area, is treated and discharged from the bioreactor into the water collecting gutter. It is the proposed Batch Form and the concentration of anaerobic microorganisms in the bioreactor that provide a higher throughput for the wastewater treatment process, while the proposed bioreactor design ensures a higher quality of treated water at a lower installation volume.

Comparison of the technical solution provided with the prototype highlights its novelty. In the analysis of the state of the art in this field of technology, no invention having analogous or equivalent essential features has been identified and therefore this technical solution has an inventive step.

The proposed anaerobic wastewater treatment method is implemented as follows. Wastewater is fed to the bioreactor from the bottom up and, after passing through the charging zone, the pollutants are decomposed by immobilized anaerobic microorganisms. In order to increase the efficiency of the digestion process, part of the biomass of anaerobic microorganisms is constantly recirculated in the form of granules and flakes by means of a sludge separator.

The bioreactor has two wastewater treatment areas with different concentrations and densities of anaerobic microorganisms. Concentration levels in the lower zone reach 44 kg / m3, in the upper zone 30 kg / m3.

The wastewater flow rate in the lower zone is constantly increasing and at its end is 35% higher than the initial flow rate.

High efficiency of the digestion process is achieved by increasing the biomass concentration and density of anaerobic microorganisms.

At the beginning of the bioreactor upper zone, the rate of rise of the flow decreases to the initial rate, while active suspension and flocculation of biomass particles takes place in the suspension stream, and the water to be treated passes through the upper charge zone where it is completed by immobilized microorganisms.

Purified water collects in the peripheral water collection gutter and drains out of the bioreactor through a dam. In the process of decomposition of organic pollutants, the evolved biogas is separated from the water droplets and removed from the upper part of the biorector by pressure of 200mm water column.

The realization of the present wastewater treatment method with the proposed anaerobic bioreactor having a sludge separating device and a charge consisting of 50 mm diameter corrugated polyethylene pipe cuts allows to purify the wastewater and significantly reduce the volume of the device with the same purification effect.

The proposed anaerobic bioreactor is schematically depicted in the drawing.

The bioreactor consists of a cylindrical closed vessel 1 with a lower grating 2 and a grating 3 at the upper part of the bioreactor dividing the bioreactor into two zones. The lower part of the bioreactor is equipped with a pipeline 4 for the treatment of wastewater and an evenly distributed perforated pipe system 5 as well as a pipeline 6 for removal of excess biomass of anaerobic microorganisms. In the middle of the lower bioreactor area there is a sludge separator 8 with a sludge distribution plate 7 at the bottom and a focusing ring 9 at the bottom. The lower and upper parts of the bioreactor are filled with . A water collecting duct 11 is connected to the upper part of the bioreactor for the purification of purified water, which is connected to the hydro barrier 12, which is needed to maintain the biogas pressure of the 200 mm water column in the bioreactor gas-filled part. The plate 13 is designed to separate the biogas exiting the pipeline 14 from the moisture droplets. A pipeline 14 is fitted with a safety valve 15 so that the maximum allowable pressure at the top of the bioreactor is not exceeded.

The invention is realized in the following manner. In a proposed manner, wastewater with a contamination of 10 g / l by CHDS is treated in a anaerobic bioreactor with a fixed charge to 1 g / l by CHDS.

The wastewater at a temperature of 0 ° C is fed to the anaerobic bioreactor through a perforated pipe distribution system installed in the lower part of the bioreactor, passing through two treatment areas with a charge and draining from the upper part of the bioreactor.

The load consists of 50 50 mm long corrugated polyethylene pipe sections. Charge porosity 95%. The biomass of anaerobic microorganisms in the lower part of the bioreactor is in the form of granules, flakes and attached biofilm. In the upper part of the bioreactor, the biomass takes the form of granules and an attached biofilm.

The waste water treatment time in the bioreactor is 18 hours. With a load of 18.5kg / m ³ CHDS per day, the effluent treatment efficiency is 90%. During this time, 0.36 m 2 of biogas is released per 1 kg of CHDS consumed, and the methane concentration in the biogas reaches 84%.

The anaerobic wastewater treatment method provided can be used for local treatment of wastewater containing 10-100 g / h CHDS contamination.

This method allows a significant increase in the decomposition intensity of pollutants and a reduction in the volume of wastewater treatment plants.

Examples of Comparison of the Invention with a Prototype and Analog With a Bioreactor Load of 1000 m ³ / day; 41.7 m ³ / h to sewage contamination 10000 mg / l; 10,000 kg / day in CHDS.

I. Analogs 1. Wastewater treatment according to CHDS 80% 2. Recirculation 15% of the amount of wastewater supplied 3. Total pollution removal 8000 kg CHDS / d 4. The sludge load is allowed 0.5 kg CHDS / kg / d 5. Required amount of sludge 20000 kg 6th Concentration of sludge 20 kg / m ³ 7th Required reactor volume 1000 m ³ 8th Bulk density according to CHDS 10 kg tm ³ / d 9th Bulk density according to CHDS removed 8.0 kg / m ³ / d. II. Prototype 1. Wastewater treatment according to CHDS 90% 2. Recirculation 15% of the amount of wastewater supplied 3. Total pollution removal 9000 kg CHDS / d 4. Required amount of sludge 20000 kg 5. Concentration of sludge 25 kg / m ^{3 of} fixed biomass + 3.0 kg / m ^{3 of} suspended biomass = 28 kg / m ³ 6th Required volume of bioreactor 714 m ³ 7th Bulk density according to CHDS 14kg / m ³ / d 8th Bulk density according to CHDS removed 12.6 kg / m ³ / d III. The proposed bioreactor 1. Wastewater Treatment according to CHDS 90% 2. Total pollution removal 9000 kg CHDS / d 3. The sludge load is allowed 0.5 CHDS / kg / d 4. Required amount of sludge 20000 kg

5. Concentration of sludge Zone I: 38 kg / m ³ immobilized biomass + 6.0 kg / m ³ suspended biomass = 44 kg / m ³ Zone II; 30 kg / m ³ immobilized of biomass. Average sludge concentration of 37 kg / m ³ 6th Required volume of bioreactor 540 m ³ 7th Bulk density according to CHDS 18.5 kg / m ³ / d 8th Bulk density according to CHDS removed 16.7 kg / m ³ / d. Comparison Characteristics Yesterday The title Analog- Prototype Offered No. as device 1 Required volume of bioreactor in m ³ 1000 714 540 2 Wastewater Treatment by CHDS,% 80 90 90 3 Bulk density according to CHDS, kg / m ³ / d 10 14 16.7

The use of the proposed anaerobic wastewater treatment method and bioreactor design allows to increase the efficiency of the treatment process by accumulating a higher biomass of anaerobic microorganisms in the bioreactor and thus reducing the volume of wastewater treatment plants by treating the same amount of pollutants in the wastewater.

At the same time, it eliminates the possibility of bioreactor charge obsolescence, eliminates the need for forced recirculation of the substrate, and reduces the energy costs of the process. At the same time, anaerobic micro-organisms are no longer transported with the effluent, which improves the quality of the treated water.

The bioreactor can be fed with waste from the manufacture of corrugated polyethylene pipes with a diameter of 50 mm.

Definition of the Invention

Claims (4)

Definition of the Invention 1. Anaerobic wastewater treatment process characterized by the microorganism decomposition of organic matter by channeling the treated wastewater through a micro-colony filter upwards, characterized in that the anaerobic treatment of the effluent takes place in two zones, the first of which is the active treatment zone with natural active anaerobic sludge. a recirculation with a higher concentration of microorganisms and a second with a filtration zone with a lower concentration of microorganisms. 2. An anaerobic wastewater treatment method according to claim I, wherein the first wastewater movement velocity is greater than the wastewater velocity in the second wastewater treatment area. 3. Anaerobic wastewater treatment method according to claim I, characterized in that the microorganisms used for wastewater treatment have volumetric immobilization. 4. Anaerobic wastewater treatment plant operating under anaerobic conditions, having a micro-colony filter through which the treated wastewater flows from the bottom to the top, having treated wastewater treatment, preheating and removal of the treated wastewater and formed gas, characterized by the addition of an anaerobic bioreactor. a cut-down, tapering, bottom-up, active anaerobic sludge planter located in the first treatment area, focusing the effluent ring and a conical plate for even distribution of the anaerobic sludge.