RU2170710C1 - Method for biological cleaning of domestic and compositionally analogous industrial waste waters from organic and suspended substances - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: invention, in particular, relates to removal of organics, suspended substances, and ammonium nitrogen in aerobic and anaerobic modes. Waste water is settled and subjected to anaerobic treatment on charge with attached microorganisms in anaerobic zone with damping volume, while waste water consumption is leveled. Aerobic treatment of water preliminarily saturated with air in aeration zone, hydraulically connected with suspended activated sludge zone, is carried out in stepwise mode: before treatment on charge with attached microorganisms in anaerobic zone, waste water is treated in zone containing suspended bed of 15-30 days-aged activated sludge with concentration 5-6 g/l using loading on boundary sludge layer equal to 0.4-0.7 cu.m|sq.m.h, while clarification of water is effected in both steps. Prior to be directed to postcleaning zone, clarified water is saturated with oxygen in the second aeration zone and postcleaning is accomplished on charge with attached microorganisms in descending-ascending flow. EFFECT: reduced process duration. 1 dwg, 2 ex

Description

 The invention relates to the field of biological treatment of domestic and similar in composition industrial wastewater from organic compounds, suspended solids and ammonia nitrogen in anaerobic and aerobic modes and can be used as a solution to the problems of treating the aforementioned wastewater from detached houses, cottage quarters, hotels, motels, and for enterprises of local industry of small productivity.

 Known aerobic-anaerobic method of wastewater treatment from organic compounds and suspended solids by aeration in a closed reactor with constant stirring, re-aeration in the next aerobic reactor with periodic stirring; after a specified period of time, water is supplied to the third reactor for its treatment under anaerobic conditions and then to the fourth for nitrification (see application US N 5861095 A, class C 02 F 3/30 with priority 09/04/97, publ. January 19, 1999).

 The disadvantage of this method is its complexity, due to the multi-stage, and increased energy consumption, due to the need for constant mixing.

 A known method of treating wastewater from organic compounds and suspended solids by aerobic treatment in the presence of a floating charge with attached microorganisms to lower BOD; after aeration, the water is sedimented to separate activated sludge, clarified water is subjected to secondary aeration on a nozzle with attached microorganisms in order to nitrify and then anaerobic treatment with stirring for denitrification; further aeration in the presence of a floating carrier with attached microorganisms ensures the removal of phosphorus with subsequent sedimentation to clarify the water (see Japanese application N 62-295838, class C 02 F 9/00, KYOTO SUIKEN KK with priority 24.11.89, publ. . 11.24.94 g.).

 The disadvantages of this method are its complexity, due to the multi-stage process, the difficulty of retaining a floating carrier in the cleaning system and the need to use mixing devices leading to increased energy costs.

 Known aerobic-anaerobic method of biological wastewater treatment from organic compounds and suspended solids, which consists in mixing the source water and activated sludge, saturating the mixture with air, sorbing contaminants from the resulting water-air mixture when it passes through a suspended layer of activated sludge with clarification of water, separation of organic sediment and its destruction under anaerobic conditions; clarified water is subjected to aeration in a suspended layer of activated sludge to remove organic contaminants with further nitrification at a charge with immobilized microorganisms and denitrification with the release of free nitrogen. The sludge mixture saturated with air is subjected to post-aeration and flotation with the removal of the released air for aeration. The treated water flows in a downward flow through a suspended layer of activated sludge aeroflocules, being cleaned of contaminants and nitrogen released, and then, with the remaining part of activated sludge, passes through a charge with nitrofication, and in an upward flow passes through a fluidized bed of granular material with an optional biocenosis. Anaerobic treatment of purified water is carried out by passing it through a dense suspended layer of activated sludge to restore nitrate nitrogen; purified water is defended to remove residual sludge, followed by saturation of clarified water with oxygen for air to finally remove nitrogen (see patent RU N 2136614, class C 02 F 3/30, 9/00 with priority 04.06.97, publ. 10.09. 99 g.).

 The disadvantage of this method is its complexity, due to the multi-stage process, and, as a result, its complex design.

 There is an aerobic-anaerobic method for treating domestic and biodegradable industrial wastewater by aeration of a mixture of purified water and a suspension of suspended solids returned from the settler on the surfaces of a stationary charge immersed in water with attached microorganisms; the created circulating water-air flow “washes” the upper and lower loading surfaces, contributing to the intensive oxidation of organic substances and their fermentation under the influence of biomass, and suspended solids and biomass particles remaining in the water are removed by settling (see application N 95116354, class C 02 F 3 / 06, the company Jet Inc. (US) with priority 02/01/93, publ. 07/28/95).

 The disadvantage of this method is the insufficiently high degree of wastewater treatment.

 A known method of biological treatment of domestic and similar in composition industrial wastewater, the closest in purpose and technical essence to the declared one, which consists in the sedimentation, anaerobic treatment, aerobic biological treatment of pre-clarified wastewater by aeration on a volumetric, porous, shaped charge, in the process which, as a result of saturation of water with atmospheric oxygen and the creation of intense circulation in the aeration zone, the oxidation of organic substances occurs; after aeration, the water is subjected to secondary sedimentation with separation of the biofilm returned to the primary sedimentation stage, and the water that has undergone a complete biological treatment is subjected to biofiltration treatment at the charge, followed by disinfection (see RF patent N 2137720, class C 02 F 3/06 with priority 02/12/1999, published on 09/20/1999).

 The disadvantage of this method is the duration of the process - about 85 hours due to insufficient use of the anaerobic zone, devoid of loading, a one-stage process of aerobic treatment (only at the load with attached microorganisms) and the unsatisfactory mode of circulation of the water-air mixture both in the process of aerobic treatment and in the process tertiary treatment with a downward movement of water and insufficiently high degree of ammonium nitrogen removal.

The technical result of the proposed method is to reduce the duration of the process while maintaining the same degree of purification by BOD _full. and suspended solids while removing ammonia nitrogen.

The technical result is achieved by the fact that in the method of biological treatment of domestic and similar in composition industrial wastewater from organic compounds and suspended solids, including sedimentation, anaerobic and aerobic treatment with clarification of water, biological treatment of water at the load with attached microorganisms and subsequent disinfection, sedimentation and anaerobic treatment at the load with attached microorganisms in the anaerobic zone with a damping volume is carried out simultaneously with averaging the flow Yes, wastewater, aerobic treatment pre-saturated with oxygen in the aeration zone of water hydraulically connected to the zone of the suspended layer of activated sludge is carried out in stages - before treatment in the loading zone with attached microorganisms, the treatment is carried out in the zone of the suspended layer of activated sludge with a concentration of 5-6 g / l, sludge age of 15-30 days, with a load on the boundary layer of sludge equal to 0.4 - 0.7 m ³ / m ² hour with simultaneous clarification of water at both stages, before being fed to the post-treatment zone, clarified water is saturated with oxygen in the second s on aeration, and post-treatment is carried out on loading with attached microorganisms in a downward - upward flow.

 The drawing shows a diagram of a method of biological treatment of household and similar in composition industrial wastewater from organic compounds and suspended solids.

 Anaerobic treatment zone 1, inert fiber loading 2 of the above zone, pump 3, first aeration zone 4, suspended sludge layer 5, loading zone with attached microorganisms 6, device for collecting clarified water 7, device for pumping excess biomass 8, second zone aeration 9, a post-treatment zone with a load of 10, a device for disinfection 11.

 The method is as follows.

Initial domestic or close in composition industrial wastewater with a concentration of BOD _full. 120-500 mg / l, suspended solids - 150-400 mg / l and ammonia nitrogen - 20-45 mg / l are fed into the anaerobic zone 1 with a damping volume, part of which is filled with an inert fiber load 2. In anaerobic zone 1, gravitational separation occurs impurities with the deposition of heavy and the release of pop-up substances, preliminary biological destruction of organic compounds and stabilization of the resulting precipitate. As a result of the wastewater staying in anaerobic zone 1 for an average of 1 day, up to 60% of suspended solids pass into the sediment. Filtration of wastewater through an inert loading layer 2 with attached microorganisms contributes to the intensification of the process of biological destruction of organic pollutants, which leads to a decrease in the value of BOD _full. approximately 25%. The use of a load with attached microorganisms ensures the stability of the cleaning process by improving mass transfer.

 In the absence of water influx and a decrease in the level in the anaerobic zone 1 below the minimum, device 3 is automatically turned off; at the maximum level, the wastewater in gravity flow overflows into the aeration zone 4.

 The simultaneous averaging of wastewater due to the damping volume of the anaerobic zone 1 ensures the regulation of wastewater flow, smoothing the peak loads on the suspended layer of activated sludge 5 during aerobic treatment, and thereby creating stable hydraulic conditions for the operation of the suspended layer of activated sludge.

 The clarified wastewater that has passed the anaerobic treatment zone 1 is subjected to aerobic treatment. To do this, the device 3 serves it in the aeration zone 4, hydraulically connected with the zone of the suspended layer of activated sludge 5, to create intensive water circulation: the zone of the suspended layer of activated sludge 5 - the aeration zone 4. Water saturated with oxygen in the aeration zone 4 enters the 1st stage of aerobic treatment - in the zone of the suspended layer of activated sludge 5, in which the intensive oxidation of organic compounds and ammonium nitrogen occurs.

 In a suspended layer of activated sludge, the concentration of the latter is maintained equal to 4-6 g / l. A high concentration of biomass allows you to intensify the process of biooxidation and reduce the duration of the cleaning process. With a decrease in biomass concentration (less than 4 g / l), the duration of the cleaning process increases, and an increase in biomass concentration (more than 6 g / l) is technologically impractical.

 The high age of activated sludge - 15-30 days, provides favorable conditions for the development of nitrifying microflora, leading the process of oxidation of ammonium nitrogen. When sludge is less than 15 days old, nitrification processes slow down. Maintaining the age of sludge more than 30 days is not economically feasible.

At hydraulic loads of 0.4-0.7 m ³ / m ² hour, the suspended layer of activated sludge stably works, contributing to a more intense clarification of wastewater and, thereby, reducing the duration of the cleaning process.

The implementation of the process at a lower load is not economically feasible, since the required surface area of the suspended layer of activated sludge increases. Loads of more than 0.7 m ³ / m ² hour can lead to the destruction of the suspended layer of activated sludge.

 Next, the wastewater enters the second stage of aerobic treatment in an inert loading zone to immobilize microflora 6. In this zone, the processes of oxidation of organic substances and nitrification of ammonium nitrogen continue; in both zones 5 and 6, at the same time, additional clarification of wastewater takes place, which is supplied by the device for collecting it 7 for purification, and the excess biomass by the device 8 is pumped into the anaerobic zone 1.

 Then, the wastewater is saturated with oxygen in the second aeration zone 9 and enters the tertiary treatment in the loading zone with attached microorganisms 10, where the process is in a downward-upward flow. Aeration in conjunction with the organization of a downward-upward flow of wastewater, improving mass transfer, creates an intensive circulation of water in the volume of the load, which increases the efficiency of the oxidation process and, therefore, reduces the cleaning time.

 Immobilized biomass works in the mode of deep tertiary treatment, providing the standard quality of purified water.

 The treated wastewater is disinfected in the corresponding zone 11 and is discharged from the system.

The treated wastewater has a concentration of suspended solids and BOD _full. - 3 mg / l, for ammonia nitrogen - 0.5-1 mg / l.

Example 1. Domestic wastewater with a concentration of BOD _full. suspended solids and ammonia nitrogen, respectively, 326, 283 and 34.8 mg / l through a gravity collector enter the anaerobic zone 1, where as a result of gravitational separation sedimentation of suspended solids occurs (60% of the latter goes into sediment) and the release of pop-up substances. At the same time, biological destruction of organic pollutants occurs - BOD is _full. reduced by 25%. The biomass fixed on an inert fiber charge 2 helps to stabilize the cleaning process.

With the maximum filling of the anaerobic zone 1, the pre-clarified and purified at the loading water flows by gravity into the first aeration zone 4, hydraulically connected to the zone of the suspended layer of activated sludge 5 (1st stage of aerobic treatment), where the sludge concentration is maintained at 6 g / l to intensify the process of biological oxidation; the load on the boundary layer of sludge is 0.6 m ³ / m ² hour, and the age of the sludge is 20 days, then the wastewater is supplied to the 2nd stage of aerobic treatment, to the inert loading zone with attached microorganisms 6. Simultaneously with cleaning at both stages aerobic treatment is the clarification of water; clarified water (purification efficiency according to BOD _full. - 96%) by the clarified water collection system 7 is supplied for purification. Excessive biomass generated during aerobic treatment with device 8 is pumped once a day to anaerobic zone 1.

 The clarified water is saturated with air in the second aeration zone 9 and a downward-flowing stream passes through an inert loading layer with attached microorganisms 10.

Immobilized biomass contributes to deep purification, ensuring the normative quality of purified water: BOD _full. - 3 mg / l, ammonium nitrogen - 1 mg / l.

The cleaning efficiency is _full according to BOD _. - 99.1%, for suspended solids - 98.3%, for ammonium nitrogen - 97%.

The purified water is subjected to disinfection in the corresponding zone with 11 chlorinated preparations of prolonged action or ultraviolet radiation. The total amount of sludge formed is 189 g per 1 m ^{3 of} treated water.

Example 2. The process is carried out analogously to example 1 with the following characteristics of the source wastewater: concentration by BOD _full. - 120 mg / l, for suspended solids - 300 mg / l, for ammonium nitrogen - 20 mg / l at a sludge concentration of 4 mg / l; sludge age of 15 days and the load on the boundary layer of activated sludge of 0.4 m ³ m ² hour.

Purified water has the following indicators:
BOD _full. 3 mg / l, suspended solids - 3 mg / l, ammonium nitrogen - 0.7 mg / l.

The cleaning efficiency for these indicators is respectively: 97.5%, 99%, 96.5%. The total amount of sludge formed is 157 g per 1 m ^{3 of} treated water.

 Only a combination of factors such as simultaneous sedimentation, anaerobic treatment at loading in a zone with a damping volume and averaging of wastewater flow rate, stepwise aerobic treatment of water pre-saturated with oxygen in the first aeration zone, hydraulically connected to the zone of suspended layer of activated sludge, as in this zone ( 1st stage) - with certain parameters of activated sludge, and in the zone with inert loading (2nd stage), with simultaneous clarification of water at both stages and subsequent purification of water, previously saturated with oxygen in the second aeration zone at the charge with attached microorganisms in the downward-upward flow reduces the duration of the process while simultaneously removing ammonia nitrogen from wastewater due to stabilization and, therefore, intensification of treatment in the anaerobic zone at the charge and in the suspended layer of activated sludge (in mode of circulation of the water-air flow between the above zone and the aeration zone), as well as due to the intensification of mass transfer in the process of deep post-treatment at the load when saved and the same degree of purification as in the known method.

The proposed method differs from the known reduction in the duration of the process from 85 hours in the known method to 65 hours in the claimed at the same degree of purification by BOD _full. , and suspended solids and increased purification from ammonia nitrogen to 0.7 mg / L.

Claims (1)

The method of biological treatment of household and similar in composition industrial wastewater from organic compounds and suspended solids, including settling, anaerobic and aerobic treatment at the load with attached microorganisms with clarification of water, its biological treatment at the load with attached microorganisms and subsequent disinfection, characterized in that sedimentation and anaerobic treatment at the load with attached microorganisms in the anaerobic zone with a damping volume are performed simultaneously о with averaging the flow rate of wastewater, aerobic treatment of water pre-saturated with oxygen in the aeration zone, hydraulically connected to the zone of the suspended layer of activated sludge, is carried out in stages - before processing in the loading zone with attached microorganisms, the treatment is carried out in the zone of the suspended layer of activated sludge with a concentration of 5 -6 g / l, sludge age of 15-30 days with a load on the boundary layer of sludge equal to 0.4-0.7 m ³ / m ² h, with simultaneous clarification of water at both stages, before supplying to the aftertreatment zone, clarified water is saturated oxygen th second aeration zone, and advanced treatment lead to loading with attached micro-organisms in the falling-rising flow.