UA126637C2 - METHOD OF BIOLOGICAL WASTEWATER TREATMENT IN LOCAL WASTEWATER FACILITIES - Google Patents

Abstract

The invention relates to the field of wastewater treatment. Multi-stage cleaning is carried out in the installation, which is divided into successive hydraulically connected zones of receiving effluents, denitrification, the first stage of cleaning and a zone of post-treatment that is hydraulically separated from them. Aerobic treatment is carried out in the zones of the first stage of cleaning and further cleaning alternately, and, accordingly, in these zones, the phase of aeration, settling and removal or recirculation of activated sludge is alternately carried out. Recirculation of activated sludge from the zone of the first stage of cleaning is carried out during the aeration phase to the denitrification zone on the surface of the water-sludge mixture, and during the aeration phase in the zone of the first stage and in the zone of additional treatment, recirculation of the water-sludge mixture from the bottom part of the denitrification zone to the receiving zone is ensured drains with the provision of large-bubble aeration in this zone. The flow of the water-sludge mixture into the denitrification zone and the recirculation of the water-sludge mixture from this zone are carried out at diametrically opposite points of the surface and bottom parts of the denitrification zone, respectively. The movement of activated sludge from the post-treatment zone to the wastewater receiving area is carried out after the forced removal of settled purified water from it, after which pre-purified water with a sludge mixture is pumped from the zone of the first stage of treatment to the post-treatment zone, and the removal of purified water from the post-treatment zone, the movement of settled water- of the sludge mixture from the zone of the first stage of purification to the zone of additional purification and removal of residual active sludge is carried out to the corresponding minimum levels. In the absence of wastewater inflow, which is detected by a non-contact level sensor in the zone of the first stage of purification, in automatic mode, the recirculation time of activated sludge and the amount of air supplied in the aerobic treatment zones are reduced by at least half. The invention provides an increase in the degree of wastewater treatment.

Description

cleaning to the post-cleaning zone and removal of residual activated sludge is carried out to the corresponding minimum levels.

In the absence of wastewater inflow, which is detected by a non-contact level sensor in the zone of the first stage of cleaning, in automatic mode, the recirculation time of activated sludge and the amount of air supplied in the aerobic treatment zones are reduced by at least half.

The invention provides an increase in the degree of wastewater treatment.

The invention relates to the field of wastewater treatment and can be used for the biological treatment of domestic wastewater that comes from residential and public buildings and other separate facilities where there is no centralized sewage system.

A known method of biological wastewater treatment (Patent RF Mo 2225368, IPC СО2Е 3/30, 101/30, publ. 10.03.2004), which includes multi-stage purification using anaerobic and aerobic conditions with further separation of activated sludge and purified water by settling and removal or recirculation of activated sludge and purified water. During anaerobic treatment, pre-cleaning and averaging of incoming wastewater is carried out by mixing the liquid and ensuring denitrification using microflora attached to the loading material. Aerobic treatment is carried out with the provision of periodic phases of aeration in separated zones with the use of microflora attached to inert loading material, with a concentration of dissolved oxygen of 2-3 mg/l - in the first zone, and with the use of free-floating microflora with the maintenance of an excessive amount of dissolved oxygen - cleaning in another zone. This solution is the closest to the claimed invention and is considered the closest analogue

However, this method does not provide sufficient purification of wastewater for its further use.

The technical task of the invention is to create a simple technological process of biological wastewater treatment, which allows not only to purify wastewater with a high degree of purification, but also enables its further use, for example, for irrigation in horticulture and other technical needs.

The task is solved by the fact that in the method of biological wastewater treatment, which includes multi-stage treatment using anaerobic and aerobic conditions, while during anaerobic treatment, preliminary treatment and averaging of incoming wastewater is carried out by mixing the liquid, ensuring denitrification using microflora attached to loading material and return sludge during the settling phase in the absence of aeration, and aerobic treatment is carried out with the provision of periodic phases of aeration, mixing with subsequent separation of activated sludge and purified water by settling, removal or recirculation of activated sludge and

From purified water, according to the invention, the new thing is that multi-stage purification is carried out in an installation divided into successive hydraulically connected zones for receiving effluents, denitrification, the first stage of purification and a zone of further purification hydraulically separated from them. Aerobic treatment is carried out in the zones of the first stage of purification and additional purification alternately, and, accordingly, in these zones, the phase of aeration, settling and removal or recirculation of activated sludge is alternately carried out, while the recirculation of activated sludge from the zone of the first stage of purification is carried out during the aeration phase to the denitrification zone on the surface of the water-sludge mixture, and during the aeration phase in the zone of the first stage and in the post-treatment zone, they ensure the recirculation of the water-sludge mixture from the bottom part of the denitrification zone to the waste receiving zone with provision of large-bubble aeration in this zone. At the same time, the entry of the water-sludge mixture into the denitrification zone and the recirculation of the water-sludge mixture from this zone are carried out at diametrically opposite points of the surface and bottom parts of the denitrification zone, respectively. The movement of activated sludge from the post-treatment zone to the sewage receiving area is carried out after the forced removal of settled purified water from it, after which pre-purified water with a sludge mixture is pumped from the zone of the first stage of purification to the post-treatment zone, and the removal of purified water from the post-treatment zone, the movement of settled water- of the sludge mixture from the zone of the first stage of cleaning to the zone of further purification and removal of the remaining active sludge is carried out to the corresponding minimum set levels, in addition, in the absence of the inflow of wastewater, which is fixed by a non-contact sensor of the level in the zone of the first stage of cleaning, in automatic mode, the recirculation time is at least halved activated sludge and the amount of air supplied in the aerobic treatment zones.

What is also new is that the settling phase in the zone of the first stage of purification before pumping the water-sludge mixture into the zone of further purification is carried out in compliance with the conditions of preventing complete sedimentation of activated sludge and maintaining it in a suspended state.

The technical result, namely an increase in the degree of purification, is achieved due to: - the application of a method of installation with successive hydraulically connected zones for receiving effluents, denitrification and the first stage of purification, which are filled according to the principle of connecting vessels, which is the zone of the first stage, and hydraulically the post-treatment zone separated from it ensures the creation of an accumulative volume in the zone of the first stage, capable of receiving a volley of wastewater with a minimal risk of leaching 60 activated sludge from the post-treatment zone.

- alternate treatment in hydraulically separated zones of the first stage of purification and repurification, namely, the flow of liquid "from" or "into" the repurification zone occurs exclusively after the completion of the full cycle of purification, consisting of the phases of aeration, settling, forced removal of purified water and recirculation of activated sludge; - averaging of wastewater received due to periodic recirculation of activated sludge from aerobic treatment zones, as well as constant mixing in wastewater reception and denitrification zones. At the same time, mixing and large-bubble aeration in the sewage receiving area ensures the maintenance of sludge in a suspended state. - mixing of the liquid in the denitrification zone with its constant passage through the microflora attached to the loading material by the entry of the water-sludge mixture into the denitrification zone and its recirculation from this zone at diametrically opposite points of the surface and bottom parts, ensures a deeper pre-treatment of wastewater before its arrival to the zone of the first degree of purification; - automatic reduction of activated sludge recirculation time and the amount of air supplied in the aerobic treatment zones in the absence of wastewater, which allows not only to reduce energy costs, but also to ensure longer viability of microorganisms.

The method is implemented as follows:

The method of biological wastewater treatment includes multi-stage treatment using anaerobic and aerobic conditions in a facility divided into successive hydraulically connected areas of receiving effluents, denitrification of the first stage of treatment, and a post-treatment area hydraulically separated from them.

Domestic or commercial wastewater enters the wastewater receiving area, where, with the help of large-bubble aeration, the received wastewater is crushed and mixed. Next, the wastewater enters the denitrification zone and the zone of the first stage of purification through hydraulic connections. The denitrification process is carried out using microflora attached to the loading material in the denitrification zone.

In the zones of the first degree of cleaning and additional cleaning, aerobic treatment is carried out alternately, consisting of the phases of aeration, settling, pumping of the water-sludge mixture or

From purified water and removal or recirculation of activated sludge. Alternation means that when performing the aeration phase in the zone of the first degree of purification, the phase of settling (rest) occurs in the zone of additional purification or vice versa. The alternation of aeration and idle phases in these zones promotes the development of facultative microorganisms for a deeper flow of processes of nitrification, denitrification and removal of phosphorus in general.

During the aeration phase in the zone of the first stage of purification or the zone of post-treatment, in the zones of receiving sewage and denitrification, mixing of the water-sludge mixture by means of large-bubble aeration in the zone of receiving sewage, and recirculation of the water-sludge mixture from the bottom part of the zone of denitrification to the zone of receiving sewage are ensured. In addition, during the aeration phase in the zone of the first stage of cleaning, the activated sludge is recirculated to the denitrification zone on the surface of the water-sludge mixture in the diametrically opposite point from the point of its bottom recirculation to the area of receiving effluents for the forced passage of liquid through the microflora attached to the loading material. Mixing recycled activated sludge and incoming wastewater and performing denitrification using microflora attached to the loading material will provide deeper pretreatment, maximize the concentration of incoming wastewater, and minimize the possibility of bottom sludge deposits.

After the end of the aeration phase in the zone of the first stage of purification and the settling phase in the post-purification zone, the purified water is pumped out of the latter and the settled activated sludge is pumped into the wastewater receiving zone. Next, the water-sludge mixture from the zone of the first stage of purification is fed into the post-treatment zone, thereby freeing the volume in the hydraulically connected zones of receiving effluents, denitrification and the first stage of purification, with the creation of an accumulative volume for the volley of wastewater. After that, aeration, recirculation of the water-sludge mixture, and recirculation or removal of activated sludge are stopped in all zones, ensuring a deep denitrification regime that lasts at least 30 minutes. Then the cycle repeats.

Control of cycles with all modes and processes during the implementation of the method is performed by a software-hardware module by controlling the operation of the compressor, means of air supply and aeration, liquid pumping devices, etc. At the same time, when the non-contact level sensor detects the absence of sewage inflow in the zone of the first stage of treatment, the hardware and software module automatically reduces the active sludge recirculation time and the amount of air supplied in the aerobic treatment zones by at least half.

Drainage of purified water from the post-treatment zone, transfer of the settled water-sludge mixture from the zone of the first stage of treatment to the post-treatment zone, and discharge of residual active sludge are carried out to the corresponding minimum levels.

Claims (2)

FORMULA OF THE INVENTION 1. A method of biological wastewater treatment in local treatment plants, which includes multi-stage treatment using anaerobic and aerobic conditions, while during anaerobic treatment, preliminary treatment and averaging of incoming wastewater is carried out by mixing the liquid, ensuring denitrification using microflora attached to the loading material, and return sludge during the settling phase in the absence of aeration, and aerobic treatment is carried out with the provision of periodic phases of aeration, mixing followed by the separation of activated sludge and purified water by settling, removal or recirculation of activated sludge and purified water, which is characterized by the fact that multi-stage treatment is carried out in a unit divided into successive hydraulically connected zones of receiving effluents, denitrification of the first stage of treatment and a post-treatment zone hydraulically separated from them, aerobic treatment is carried out in the zones of the first stage of treatment and post-treatment alternately, and, accordingly, in these zones the phase of aeration, settling and removal or recirculation of activated sludge is carried out alternately, while the recirculation of activated sludge from the zone of the first stage of treatment is carried out during the aeration phase to the denitrification zone on the surface of the water-sludge mixture, and during the aeration phase in the zone of the first stage and in the zone additional treatment ensures the recirculation of the water-sludge mixture from the bottom part of the denitrification zone to the waste receiving area with the provision of large-bubble aeration in this zone, while the entry of the water-sludge mixture into the denitrification zone and the recirculation of the water-sludge mixture from this zone are carried out at diametrically opposite points of the surface and bottom parts of the denitrification zone, respectively, the movement of activated sludge from the post-treatment zone to the wastewater receiving zone is carried out after the forced removal of settled purified water from it, after which pre-treated water with a sludge mixture is pumped from the zone of the first stage of purification to the post-treatment zone, and the removal of purified water from the zone additional cleaning, movement of the settled water-sludge mixture from the zone of the first stage of purification to the zone of additional purification and removal of residual activated sludge are carried out to the corresponding minimum levels, in addition, in the absence of the inflow of wastewater, which is recorded by a non-contact level sensor in the zone of the first stage of purification, in the automatic mode reduce at least half the time of activated sludge recirculation and the amount of air supplied in the aerobic treatment zones. 2. The method of biological treatment of wastewater in local treatment facilities according to claim 1, which differs in that the settling phase in the zone of the first stage of treatment before pumping the water-sludge mixture into the post-treatment zone is carried out in compliance with the conditions for preventing complete sedimentation of activated sludge and maintaining it in a suspended state condition