KR20020031916A - Process for Treating an Organic Wastewater by Earth Microorganism and Its Plant - Google Patents

Abstract

The present invention relates to a method and apparatus for purifying organic wastewater using soil microorganisms, and more particularly, to aerated organic waste such as various wastewater and livestock manure, phosphorus manure, and leachate, which are the main causes of soil, water and air pollution. After precipitation, it is treated with soil microorganisms instead of general microbial treatment, but under specific activation conditions, it continuously contacts with the phenolic metabolites of soil microorganisms to continuously produce coagulation, condensation, and polymerization processes to produce bulk oxides and return them to aeration. By effectively purifying and removing pollutants through effective methods such as sedimentation and sedimentation, unlike the conventional method, it is possible to reduce the aversion of odors and pests generated during the wastewater treatment process, and to prevent secondary pollution as well as treatment. Water and surplus sludge are returned to nature and recycled into resources. The present invention relates to a system for the purification of organic wastewater using a new concept of soil microorganisms, which can treat the wastewater very naturally.

Description

Process for Treating an Organic Wastewater by Earth Microorganism and Its Plant

The present invention relates to a method for treating and treating organic wastewater using soil microorganisms, and more particularly, to a waste of organic waste such as various wastewaters, livestock manure, phosphorus manure and leachate, which are the main causes of soil, water and air pollution. After precipitation, it is treated with soil microorganisms rather than general microbial treatment, but under constant activation conditions, it continuously contacts with the phenolic metabolite of soil microorganisms to produce coarse oxide continuously during the coagulation, condensation and polymerization process, and then return it. By effectively purifying through aeration, sedimentation, and the like to remove and remove pollutants, unlike the conventional method, it is possible to reduce the occurrence of complaints to the wastewater treatment facility by eliminating aversions such as odors and pests generated during the wastewater treatment process. Treated water and excess sludge as well as preventing secondary contamination The present invention relates to a system for the purification of organic wastewater using a new concept of soil microorganisms that can be recycled back to nature and recycled and recycled.

As human life improves and the industry develops, the amount of organic wastewater is increasing rapidly due to pollution generated from domestic sewage and various industrial activities, and water pollution is a serious problem.

In particular, with the recent increase in various sources of pollution, environmental pollution has become the biggest problem of the global environment, and environmental problems are recognized as a major policy challenge in developed countries.

As a representative of these environmental problems, drinking water is contaminated due to water pollution, and a problem of human drinking water is emerging as a new problem along with problems such as population increase or natural disasters. To this end, the development of water resources and the saving of water are important, but the purification technology of wastewater to reduce the polluted wastewater and to return to nature by becoming a very important research project.

Among these wastewater treatment methods, the wastewater treatment (purification of pollutant) system in the natural state can be understood as purifying organic wastewater by returning organic matter contained in the wastewater to soil. However, due to the development of various life and industry in modern society, it has been a long time since the concentration of pollution in the ground or underground water in the natural world has increased remarkably, so that it is impossible to handle the wastewater purification by the natural purification power alone.

In this situation, various methods for wastewater treatment have been devised, but the efficiency of wastewater purification has not been obtained due to the efficiency problems of the facility, operation, and economic burden. Among them, a remarkable wastewater treatment method was born at the beginning of the 20th century, and a new wastewater treatment technology was established.However, the active sludge method is sufficient to purify wastewater in today's dense society. "There is a common perception," and a lot of wastewater treatment methods are being developed, but the reality is that no good effect can be expected in terms of efficiency and operating costs.

In other words, the existing wastewater treatment method (active sludge method, etc.) is treated by selectively using specific microorganisms to remove contaminants in the wastewater. This wastewater treatment method is a difficult method requiring operational technical expertise. In particular, in the existing technology of selectively using specific microorganisms, the effect of wastewater purification may be somewhat effective, but in the process of treating wastewater with microorganisms, odors are generated in the treatment system, and in order to remove the secondary odor, It was necessary to have facilities, and since pests such as flies and mosquitoes occurred, periodic pest control was necessary. In addition, residual bacteria (e.g., E. coli, Salmonella, pathogenic bacteria, etc.) in the final treated water are inevitably present, and additional disinfection facilities are required for the killing of these bacteria. In addition to the technical and operational problems such as the need to equip, the economic problems caused by large-scale facilities are serious, and practically reluctant to install wastewater purification facilities.

As a problem to be solved urgently, problems such as the enlargement of purification facilities, operational difficulties, economic problems, problems of secondary pollution such as odor or bacterial propagation, etc., which are the main problems in the conventional wastewater purification treatment methods, are to be solved urgently. In order to solve the problems caused by the wastewater treatment technology, the present invention has been completed for a long time as a result of a long study on the method of artificially controlling the wastewater purification treatment system to apply the purification effect in nature most effectively. It is.

Therefore, the present invention, unlike the conventional method of treating organic wastewater by the active sludge method using microorganisms, by using the microorganisms as a microorganism under the specific activation conditions to purify and effectively remove the pollutant, it occurs during the wastewater treatment process In addition to the reduction of odors and pests, and the prevention of secondary pollution, the newly treated organic wastewater has a new concept of organic wastewater that can be recycled to agricultural water and fertilizer, respectively. The purpose is to provide a device.

1 is a view showing an embodiment of an organic wastewater purification apparatus using soil microorganisms according to the present invention.

2 is a view showing another embodiment of a wastewater purification treatment apparatus according to the present invention.

3 is a view showing another embodiment of a wastewater purification treatment apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

101, 201, 301-Wastewater supply tank 102-Aeration tank

202a, 305-First Aeration Tank 202b, 308-Second Aeration Tank

103, 208-Precipitation Tank 306-First Precipitation Tank

309-Second settling tank 104, 307-Microbial active culture tank

205-First Microbial Active Culture Tank 207-Second Microbial Active Culture Tank

105, 210, 211, 316-Distribution Weighing Tanks

106, 107, 212, 213, 214, 312, 313, 314, 315-Return Line

108-Microorganism activator 109, 209, 310-Filtration tank

110, 304-Sludge tank 111, 203, 311-Dehydrator

204, 302-Flow regulating tank 303-Ultra-low needle

The present invention is a method for purifying organic wastewater, including aeration, sedimentation, microbial treatment, filtration, and sludge removal of the wastewater, after aeration and precipitation of the wastewater, and the microorganisms in the presence of activated silicate in the microbial treatment step. Treated by using the microorganisms by the method of continuous contact with the waste microbial metabolites of the soil microorganisms under the activation conditions filled with highly concentrated corrosion precursors, characterized in that the purification.

At this time, in the microbial treatment step, organic contaminants are contacted with silicates and pulmonary metabolites to undergo agglomeration, condensation and polymerization to form a sludge in a corroded form, and aeration and precipitation in this state. After returning to sludge, the sludge is removed and some are returned to wastewater and microbial treatment, and some are filtered and discharged, followed by purification.

In addition, in the present invention, it is preferable to minimize the load fluctuation by adjusting the inflow of the waste water and the treated water so that the corrosion reaction in the microbial treatment step is continuously performed evenly without short circuiting for 24 hours. In some cases, a denitrification reaction may be introduced in which the activated nitriding liquid is returned to the wastewater during the wastewater treatment process to remove nitrogen contained in the wastewater.

In the method of the present invention, the sludge of the high concentration wastewater is removed through the precipitation step as a pretreatment step in order to efficiently treat the high concentration wastewater, and composting the obtained sludge, and if necessary, the dewatered sludge is dehydrated. Next, the wastewater obtained by the separation is repeated again and treated to stabilize the wastewater.

As such, the most typical apparatus suitable for applying the wastewater purification treatment method according to the present invention is as shown in FIG.

Wastewater treatment apparatus according to the present invention is a schematic diagram shown conceptually in Figure 1, in the wastewater purification treatment apparatus including a wastewater supply tank, aeration tank, sedimentation tank, microbial treatment tank, filtration tank, as typically illustrated, discharged from the sedimentation tank A distribution weighing tank for distributing and supplying contaminants to the microbial active culture tank, waste water supply tank, aeration tank, and sludge storage tank; A rock containing silicic acid as an active ingredient exists as an active ingredient, and is filled with corrosion precursors and phenolic metabolites produced by soil microorganisms, and aeration tanks are treated with soil microorganisms under active conditions in the contaminants supplied from the distribution weighing tank. A microbial active culture tank which is returned and supplied with; It may be used that comprises a sludge storage tank for storing the sludge sludge settled in the settling tank to dehydrate and remove in the dehydrator.

In addition, the apparatus of the present invention may be installed in the rear end of the aeration tank to install a pump for spraying the vesicles at high pressure to remove the bubbles, by installing an acid engine for supplying air to the one or more tanks to improve the treatment efficiency.

And, in order to treat high concentration wastewater or wastewater of a specific composition, an ultra-precipitation tank is installed at the previous stage to temporarily remove sludge sludge of high concentration wastewater, or the sludge accumulated in the final sedimentation tank is sent to the aeration tank, which is a pre-treatment reaction tank, to remove residual suspended matter in the sedimentation tank. It is also desirable to have a return line for removal, and the apparatus may be repeatedly configured to repeatedly process wastewater separated from the dehydrator for sludge dewatering.

When described in more detail with respect to the wastewater treatment system of the present invention consisting of the wastewater treatment method and the wastewater treatment apparatus as described above.

When explaining the wastewater treatment method and the wastewater treatment apparatus using the same as a system form, the wastewater treatment system of the present invention performs wastewater treatment using activated soil microorganisms. By restoring the metabolic circuits, the wastewater is purified by the same mechanism as the natural state.

In general, the natural wastewater purification function is a metabolic function expressed in the absence of free oxygen, which is a natural function of native soil microorganisms, and contains metabolites or metabolites of soil microorganisms containing phenol or a compound having a phenol-exposed group. The soil microbial group is placed over a long period of time in the presence of a substance, thereby constituting a condition for all soil microbial groups to actively live.

In addition, the present invention uses soil microorganisms rather than conventional microorganisms, the original soil microorganism group has the characteristics of inducing an antimicrobial atmosphere, in the presence of the metabolite as described above, the action of the metabolite By restoring the function of the original bacterial group that has antibacterial activity against other bacterial groups other than the same bacterial group, E. coli and rot bacteria, which have been a problem in the microbial treatment process of the bacterial group other than the soil microbial group, especially the active cucumber method And the like are activated by the antibacterial group in the inactivated or killed state, and conditions for maintaining homeostasis are formed.

Thus, in the wastewater treatment process of the present invention in which the soil microorganism is applied under the activation conditions, the corrosiveness of the pollutants is promoted, so that the most efficient purification occurs. The organic matter forming the pollutant of the wastewater is catalyzed by the metabolite of the soil microorganism. It rapidly bonds, aggregates, condenses, and polymerizes to massify and chelate to promote corrosion in water.

It also creates conditions for the organic pollutants to react in a non-degradable manner, and the general enzymatic reaction proceeds in a decomposed form to reduce the molecular weight, but in the wastewater treatment conditions of the present invention, Since metabolites catalyze, the new method is to purify wastewater with a completely new concept of increasing the molecular weight of organic contaminants and inducing them into non-degradable forms by macromolecular bonds, granulation, condensation, and polymerization. .

In addition, according to the present invention, while pursuing a purification mechanism of wastewater by the method using the soil microorganisms, on the other hand, contaminants, some purified substances, corroded sludge, and purified treated water during the wastewater treatment process. It is also characterized by the proper distribution of parts and the like through the conveying line, partly through the conveying line, and by the partial improvement to enable the proper supply or denitrification of the air in the reaction tank applied for each process. have.

Hereinafter, the wastewater purification treatment method and apparatus according to the present invention will be described in detail with reference to FIGS.

1 is a diagram showing the concept of a basic device configuration suitable for explaining the most typical method of the present invention, which can be suitably used to treat relatively low concentrations of wastewater.

In Figure 1, the wastewater supply tank 101 is a tank for storing the wastewater introduced through the wastewater inlet pipe and adjusting the amount of water flowing into the aeration tank 102, removing the odor from the beginning, and effectively suspended the material in the screen installed at the end of the process. The sludge is sent to the return line 106 through the distribution weighing tank 105 for removal to the microbial active culture tank 104 and the wastewater supply tank 101 which is a raw water inlet. In addition, the rear end of the distribution weighing tank 105 is installed by combining the primary screen (2 mm) and the secondary screen (0.5 mm), and the waste water separated from the suspended matter is sheared aeration tank 102 and waste water supply tank 101 Send it to activate microorganisms and corrode organics. At this time, the sludge (solid content) separated from the screen is sent to the reservoir tank 110, and dehydrated properly in the dehydrator 111, it may be composted and recycled as a resource.

In the present invention, the wastewater supply tank 101 may serve as a raw water tank for storing the introduced wastewater, but may be separated into two stages to have an independent flow rate adjustment tank. And, to perform the role of the denitrification tank to be installed separately in the conventional activated sludge treatment method. This is applied to the principle of biological denitrification method by nitriding the ammonia nitrogen in the waste water by highly nitriding nitriding liquid (ammonia nitrite bacteria, nitrite oxidizing bacteria nitrate bacteria) transferred through the distribution weighing tank 105 Nitrite nitrogen or nitrate nitrogen) is sent to the wastewater supply tank 101 through the return line 106 to react with the organic carbon source contained therein under an anoxic state to release nitrogen gas into the atmosphere. This removes the nitrogen component. From this process, agglomeration and polymerization are initiated by the aromatic compound and the chelate structure, which are metabolites of soil bacteria group, and the sedimentation of sludge is improved and phosphorus (P) is also removed.

Here, the distribution metering tank 105 is a place for dispensing the sludge settled in the settling tank 103, a structure that can be operated to maintain a constant amount of wastewater transported by a pump or an air lift (24 hours) for 24 hours Produced by using.

The aeration tank 102 in FIG. 1 is a place where corrosion occurs unlike the conventional one, and the wastewater transferred from the wastewater supply tank 101, which is a raw water tank, and the treated water activated in the microbial active culture tank 104, return lines 106, 107), and the mixture is subjected to a corrosive process, which is one of the core technologies of the present invention. In this aeration tank 102, the necessary oxygen is supplied by the diffuser (micro-bubble diffuser) installed in the front of the floor, and the core reaction in which the oxygen-contaminated pollutant and the active treated water are mixed and corroded is excited. The waste water from the wastewater can be purified very efficiently.

Here, briefly summarize the corrosion reaction system occurring in the wastewater purification treatment method and apparatus in the present invention, the corrosive substance or corrosion precursor and silicate material is embedded in the microorganism activator 108 installed in the microbial active culture tank 104 As a result, a mixture of silicate and corrosive or corrosive precursors is mixed and aerated in the pollutant (wastewater) that is the target of wastewater treatment, thereby changing the biological and biological environment of the microorganisms. To induce metabolic activity in the lungs to cause the purification of the natural soil. Particularly, in the present invention, the activated treatment liquid is distributed to the wastewater supply tank 101, the microbial active culture tank 104, and the aeration tank 102 by using a distribution metering tank 105 to rapidly advance the reaction. The method is also one of the unique methods of the present invention.

In addition, in the present invention, by operating the concentration of pulmonary metabolites to increase the operation to be strong to the load fluctuations, in general, operating the MLSS (sludge) concentration in the treatment system does not have a high operating method of the existing active sludge method. On the other hand, in the present invention, although depending on the original wastewater contamination concentration, the MLSS concentration in the aeration tank 102 is increased to the maximum as illustrated in the following Table 1, so that the nitride bacteria are fully grown, and this is the wastewater supply tank. (101) It is a completely new concept of wastewater purification treatment method because it adopts a method of speeding up the front end and the aeration tank 102 to accelerate the purification treatment reaction such as corrosion.

Wastewater Concentration (BOD) MLSS concentration Target main wastewater 500PPM or less 4,000PPM or more Life sewage, merger septic tank 500PPM ~ 3,000PPM 8,000 PPM or more Factory wastewater, food wastewater, slaughter wastewater 3,000PPM ~ 10,000PPM 10,000PPM or more General Garbage Leachate 10,000PPM or more 15,000 PPM or more Manure, manure, food waste leachate

In addition, the present invention is a very effective wastewater treatment method in that the surplus sludge can be used as a high quality compost raw material by mass-oxidizing the activated sludge as described above and chelating the chelated structure to effectively utilize the inorganic material. The sludge produced by the wastewater treatment in the present invention is stabilized even after dehydration, and does not rot and smell even when stored for a long time. This is because the wastewater treatment method of the present invention is not a corpse of simple microorganisms but rather a metabolite with a metabolite due to a mechanism in which phenolic metabolism is expressed by the action of soil microorganisms in the wastewater treatment system and the pollutants are corroded. Because it is mad.

Thus, in the present invention, in treating wastewater with microorganisms, the reaction of microorganisms does not react in the form of enzymatic degradation, but the enzymatic reaction of soil microorganisms during the wastewater treatment is polymerized into a non-degradable type, resulting in an energy level. It is a new concept of wastewater treatment that could not be expected at all in terms of producing good water for living organisms beyond simply purifying wastewater because it produces increased treated water.

In addition, in the waste water treatment process, foam removal in the treatment system is also used in the prior art by using a defoaming agent or a method of spraying fresh water, but in the present invention, the treated water pulled up by the pump installed in the rear end of the aeration tank 102 is independently improved. By spraying the treatment interface using one spray nozzle, it is possible to increase the treatment efficiency (mixing effect of the activated treated water) as well as removing the bubbles. By doing so, the treatment cost can be reduced by eliminating the use of separate chemicals in the wastewater treatment process, and the increase of the treatment water volume is not caused by the use of external fresh water, which can reduce the size of the tank and the size of the wastewater treatment facility. The dual effect could reduce plant construction costs.

On the other hand, one of the key components of the present invention is a microbial active culture tank 104 and a microbial activator 108 located therein, the microbial active culture tank 104, the main component is a rock containing silicic acid as an active ingredient Corrosive precursor and phenolic metabolite produced by soil microorganisms are filled, and the pollutants supplied from the distribution metering tank 105 are treated as soil microorganisms under active conditions and returned to the aeration tank 102. The rock component containing a large amount of silicic acid content contained therein may be used, for example, andesite pumice, andesite volcanic glass, and the like, and specially prepared pellets containing a large amount of phenolic metabolites and corrosive substances may be used. By using it to express the original function of the soil microbial flora is to activate the microorganisms.

In addition, it is also preferable to add the soil microorganism spawning agent initially for smooth treatment in the microorganism treatment step.

In general, water as a natural component should not be distilled water, and should contain various minerals in an appropriate ratio, and contain inhibitory and sterilizing ability against rot, pathogens, and the like. Should be To make such water, one must understand the emergence of living things on the primitive earth, and also understand the living environment in which they have survived, which means that the living environment before free oxygen generation. In view of such useful conditions of water, in order to discharge the treated water in the most desirable state in the present invention, it is preferable to use a soil microorganism having a characteristic of expressing a non-pulmonary metabolic function, and the soil microorganism has a pulmonary metabolism function. In order for this expression to occur, a description of how to induce culture is very important.

In the present invention, as a result of searching for the preferred active conditions based on the above facts, since the soil microorganisms originally existed and persisted in the soil, the phenol-based metabolism, its original metabolic function, when soil microorganisms naturally grow in the soil On the basis of the theoretical fact that it will be expressed stably in the wastewater treatment process, if we create the bio-environmental environment of soil microorganisms on the premise of the presence of silicate as an environmental substance in the primitive earth environment, the waste aging system This leads to the conclusion that the induction culture can be naturally expressed in the metabolic function even in water to find the soil microorganism activation conditions such as the present invention.

That is, in the present invention, the microorganisms introduced into the microbial active culture tank 104 through the conveyance line 106 are in an active state such as andesite pumice and volcanic glass embedded in the microorganism activator 108 in the activated intermediate treated water. The silicate is configured to act, and the upper part of the microorganism activator 108 has a pellet of highly concentrated corrosion precursor material, which is in contact with the oxygen supplied from the lower part of the microorganism activator 108 to react and stir in nature. The reaction taking place is accelerated in situ.

And, in the present invention, in order to further activate the waste water reacted in this way, it can be circulated, stirred while continuing to supply the oxygen in front of the microbial active culture tank 104 through the acid pipe.

As above, the bubbles generated in the reaction process in the microbial active culture tank 104 is removed by spraying the vesicles, where the return amount reflected by the aeration tank 102 is a distribution metering tank separately installed using a pump or air lift ( 105 may be conveyed as much as the amount introduced, or may be naturally introduced into the aeration tank 102 by mixing a predetermined amount of wastewater through the distribution metering tank 105 to be mixed.

According to the present invention, the amount of activated wastewater returned and introduced may be adjusted as shown in Table 3 below, and the amount may be used because it is possible to make and use a distribution weighing tank 105 that may adjust the amount according to the amount of BOD or the operation state. The function of the weighing tank 105 is very important.

In addition, the filling material such as the pellets of the corrosive precursor material and the pumice of the silicic acid component contained in the microorganism activator 108 may be refilled once a year, but may be adjusted twice a year according to the change in the appearance of the wastewater. In addition, the amount of air supplied to the microorganism activator 108 does not cause a problem if the contents are supplied only enough to be sufficiently stirred.

In addition, in the present invention, the filling amount according to the component and BOD amount constituting the pellet of the corrosion precursor material embedded in the microorganism activator 108 can be appropriately adjusted by the operator according to the purpose of the invention, for example, the preferred composition of the pellet is Table 2, it can be determined depending on the total amount of BOD microorganism activator 108 size and filling amount, such as 3 to 5% of the total amount of BOD inflow.

ingredient moisture Organic matter T-C T-N C / N C / organic matter pH content(%) 9.5 45.0 19.6 1.28 15 44 2.88 ingredient SiO ₂ Al ₂ O ₃ Fe ₂ O ₃ K ₂ O CaO MgO Etc content(%) 43.7 7.6 4.2 0.4 0.7 0.4

In the present invention, the air supply line can be installed in each tank in each wastewater treatment step, by installing an acid pipe (not shown) in each tank from the wastewater supply tank 101 into which the wastewater is introduced to the final filtration discharge tank 109. It can also be stirred, mixed, aerated, stabilized, and when the diffuser is installed, it is advantageous to prevent deposits from accumulating due to deposits in the tank.

In particular, in the present invention, when the diffuser is installed as described above, the air supply amount is lower than the DO concentration (2.0 to 3.0) in the general activated sludge method, for example, even if it is operated at 0.2 to 2.0 depending on each group, the activation is well induced. Therefore, it shows excellent processing efficiency without installing a separate auxiliary contact material.

As described above, the sludge and the treated water generated as a result of the wastewater treated according to the present invention is completed in the wastewater treatment by dehydration and filtration discharge, respectively, the configuration of Figure 1 shown as a typical embodiment in the present invention is a low concentration organic wastewater (BOD 5,000 PPM or less) is shown as an embodiment when the case is suitable, where the sludge generated during the wastewater treatment process is separated from the filtrate in the dehydrator 110 and transported back to the wastewater supply tank 101 The supernatant treated and separated from the settling tank 103 is sent to the filtration discharge tank 109 in a completely purified state to pass through or discharge the final filter.

In the present invention, the dewatering of the surplus sludge generated after the wastewater treatment has a good sedimentation and cohesiveness compared to the sludge generated by the general activated sludge method, so that the amount of flocculant used is significantly reduced. Sometimes it does not need to be dehydrated.

In addition, in the filtration discharge tank 109 of the present invention, it is preferable to install sand filters (S / F), A / C, etc. so that the SS of the final effluent is removed. Because of this, even if S / F, A / C, etc. are not used, the discharged water is often discharged while maintaining the quality of the discharged water in a good state.

As described above, the invention has been illustrated by the embodiment of FIG. 1 illustrated by a typical embodiment of the invention, as well as the typical methods and apparatus as described above, as well as those skilled in the art. Is included to the extent that it may be suitably modified.

As another embodiment of the present invention, a relatively high concentration of wastewater treatment or a method of treating organic wastewater of a particular property is also included in the present invention. Thus, the wastewater treatment by the activated sludge process has been frequently performed in high concentration wastewater treatment (more than 5,000 PPM). The problems and the high cost of treatment have made the plant operation difficult. However, in the present invention, in the above-described configuration illustrated in FIG. 1, even simple combinations of the wastewater can be safely purified in the treatment system without dilution in advance, and the wastewater having a special composition can also be transformed into suitable casting. It's simple.

Referring to the wastewater treatment method and apparatus of Figure 2 shown as another embodiment of the present invention.

Figure 2 also shows an apparatus composed of the same method and processing mechanism as in the case of Figure 1 above, and similar equipment structure.

That is, various tanks and conveying lines in FIG. 2 mostly play the same function and role as in the case of FIG. 1, and when described with reference to other parts compared to FIG. 1, wastewater is introduced in FIG. The microbial active culture liquid passed through 201 and processed in the first aeration tank 202a is further activated in the second aeration tank 202b, and the transfer line using the distribution weighing tank 210 through a pump installed at the rear stage. Process water is sent to the front of the wastewater supply tank 201 and the first aeration tank 202a to 212 to induce the same action as the conveying line 106 in FIG. 1, and the first microbial active culture tank 205. Intermediate treatment water introduced into is to repeat the role of the microorganism active culture tank 104 of FIG. 1 to be returned to the first aeration tank 202a through the transfer line 214.

In another embodiment illustrated in FIG. 2 in the present invention, the basic reaction system of FIG. 1 is maintained as far as it is, except that the treated water separated from the dehydrator 203 is a flow rate adjusting tank in consideration of the high concentration of waste water. The system of FIG. 1, which constitutes the typical system of the present invention described above to 204, can be secondarily combined to achieve high purification efficiency and stable treatment water.

At this time, the sludge dewatered from the dehydrator 203 is composted and recycled as a high quality soil improver, and the second aeration tank 206 and the second microorganism active culture tank 207 process the remaining organic matter in the same manner as described above. In the sedimentation tank 208, the supernatant and sedimentation sludge are separated, and in the filtration discharge tank 209, the residual SS is removed and discharged or recycled. Here, reference numeral 211 denotes a distribution weighing tank, and 213 denotes a conveying line.

As described above, according to the present invention, as illustrated in FIG. 2, in the treatment of high concentration wastewater, it is important that the raw water of the wastewater can be treated without diluting water. It is possible to reduce the cost of construction and long-term operation costs due to the reduction of treatment tanks because the waste water treatment is possible even without increasing the capacity.

In addition, when the wastewater is treated according to the present invention, the removal efficiency of nitrogen (TN) and phosphorus (TP) is more than 98%, and when the animal wastewater is discharged after treatment, it prevents eutrophication generated in the stream and prevents algae generation. In addition, due to the characterization of the wastewater treatment method, the activity of the effluent is excellent, and thus, the pollutant of the stream can be purified and stabilized. This is due to the action of the phenolic metabolite and the silicate activating substance of the microorganisms contained in the final treated water of the present invention. .

Meanwhile, FIG. 3, which is shown as another embodiment of the present invention, is a modified and illustrated typical system configuration of the present invention with an emphasis on composting livestock wastewater. As the basic method and the device configuration and operation and the same role, in Figure 3, the super-sedimentation tank 303 is installed in the previous stage to concentrate the sludge in the sludge storage tank 304, and then compost the sludge dewatered with the dehydrator 311. In addition, the concentrate can be applied directly to composting by mixing with moisture regulators such as flakes, sawdust. Here, the supernatant separated from the superprecipitation tank 303 is transferred to the first aeration tank 305 and purified while undergoing a purification process. In Figure 3, reference numeral 301 is a wastewater supply tank, 302 is a flow rate adjustment tank, 306 is a first settling tank, 307 is a microorganism active culture tank, 308 is a second aeration tank, 309 is a second precipitation tank, 310 is a filtration discharge tank, 312, 313, 314 and 315 are conveying lines, and 316 is a distribution weighing tank.

In the present invention as described above, the treated water activated during the wastewater treatment process is used for proper reprocessing or effective purification through a conveying line, and it is also important to construct such a conveying line.

That is, in the activated sludge process, the main purpose is generally to remove the sludge deposited in the settling tank, but in the present invention, not only the return of the settling tank, but also the conveying line denoted by reference numerals 106 and 107 in FIG. The conveying line indicated by reference numerals 212, 213, and 214, and the conveying line indicated by reference numerals 312, 313, and 314 in Fig. 3 are characterized by conveying at all stages, and each conveying quantity is an operation process of the wastewater treatment process. As can be adjusted appropriately, preferably, the conveyed amount can be manipulated and treated as shown in Table 3 below, and can be conveyed while adjusting the amount according to the processing state. In addition, the operation operation of the treatment system is important to maintain a constant reaction occurs in the present invention, for this purpose by using the distribution metering tank (105, 210, 211, 316) for 24 hours without interruption of the waste water is made evenly It can be made to be an efficient wastewater purification treatment.

Table 3 below shows, as an example, the conveyance amount in each of the embodiments shown in FIGS. 1, 2, and 3.

drawing division Return amount Remarks Figure 1 Sedimentation tank → Raw water tank 20% to 50% Sedimentation tank → aeration tank 50% to 100% Sedimentation tank → Culture tank 50% to 100% Culture tank → aeration tank 50% to 100% Figure 2 Aeration tank rear end → Raw water tank 100% Aeration tank front stage → Aeration tank front stage 100% Aeration tank after the first culture tank 100% Flow Adjustment Tank → Second Culture Tank 50% Second culture tank → Second aeration tank 50% Sedimentation tank → Aeration tank Required Sedimentation sludge removal Figure 3 1st sedimentation tank → raw water tank 100% 1st settling tank → flow adjusting tank 50% to 100% 1st settling tank → culture tank 100% Culture tank → first aeration tank 100% Second settling tank → First aeration tank Required Sedimentation sludge removal

In the present invention, as described above, a certain amount is uniformly introduced and reacted through the conveying line, thereby making it extremely resistant to load fluctuations, and when the phenol-based metabolite is constantly supplied, the treatment system is stable and operation can be performed without any special operation. In addition, even if the temperature change is unreasonable (reaction temperature: 5 ℃ to 45 ℃), even if the operation is temporarily stopped (several hours or 1 to 2 days) due to power interruption or mechanical failure, abnormalities occur in the tank. If only external factors are solved, there is an advantage in plant operation that can be operated normally. In addition, if a problem occurs at this time, it is a stable system that can easily solve the problem only by adding the soil microbial seed.

Hereinafter, when the present invention is actually applied to a wastewater treatment site, it is particularly important to induce culture of soil microorganisms at the time of initial commissioning, and thus the wastewater treatment method will be described as an embodiment of the present invention. It is not limited based on this embodiment.

Example

Wastewater treatment was performed by performing the following steps to induce culture of soil microorganisms for wastewater treatment.

1) Fill the sludge about 1/2 of the culture tank or the corrosion aeration tank, and inject the soil microorganism-derived culture medium at the rate of 1㎏ per 1㎥ of inflow and aeration for more than 24 hours.

2) When the microbial activity of the induction tank is changed to the characteristic of soil microorganisms, the aeration is continued to react with each other while introducing raw water into the tank.

3) Check the activation status of microorganisms while continuously introducing raw water into the tank for induction culture, and induction culture for 1 week to 1 month depending on BOD concentration of raw wastewater.

4) During the process of 2) and 3), settling experiment was carried out in the measuring cylinder (1,000ml), and the SV ₃₀ was maintained at 30% to 90% depending on the concentration of the raw wastewater and the supernatant became clear. It can be judged that the processing state has reached the normal value.

5) If the treatment condition is considered good, transfer the raw water to the settling tank to separate the supernatant and settling sludge, and transfer the activated settling sludge to the aeration tank and start introducing the raw wastewater.

6) If the proper MLSS is maintained in the aeration tank and the supernatant is treated normally in the sedimentation tank, normal operation starts by inflowing the raw water according to the planned treatment volume.

7) If the concentration of MLSS in the aeration tank is not maintained, the treatment efficiency is lowered. Therefore, the sludge is additionally added from the outside or microbial induction culture medium is added to the culture medium to maintain the proper MLSS based on the following Equation 1.

Proper sludge load = (inflow BOD × inflow sewage volume) / (MLSS × treatment tank capacity)

= 0.15

As described above, the method for purifying organic wastewater using soil microorganisms according to the present invention is to apply the principle of nature to the wastewater treatment system, so that the action of soil bacterial groups that have existed since the emergence of organisms in the primitive earth environment. It is systemized to make continuous response by creating bio-environmental environment of these soil microorganisms by expressing in the wastewater treatment system. Especially, stabilization of water by restoring phenolic metabolic circuit which is the original function of bacterial group and promoting corrosion in water. The organic material is a very natural-friendly wastewater treatment method because the organic material is formed to chelate structure, and exhibits a high self-cleaning ability to turn the mass into a soil by granulation, aggregation, condensation and polymerization.

Therefore, while going through the purification process of the wastewater by the method according to the present invention, the soil microbial group expresses the antibacterial action against the decaying microorganisms inherent in the odor generated a problem in the wastewater treatment method by the conventional active sludge method The problem is fundamentally solved, preventing the access of pests, creating a sanitary environment, and treating the final reaction product and the excess sludge generated in a stable state so that there is no problem of secondary pollution.

In addition, in the treatment system of the present invention, by the antibacterial action of phenol-based metabolism, which is the original function of soil microorganisms, there is an effect of suppressing or killing the occurrence of odor, pest generation, residual bacteria, etc., unlike the conventional wastewater treatment method. No auxiliary facilities required

In addition, the method of the present invention treats the wastewater containing organic substances with a high technique using soil microorganisms, so that the final product is made of high quality compost and bioactive water, so that the excess sludge is fermented together with the constituents. When used as biologically active water, the final treated water is a method that can prevent the secondary pollution and increase the economic added value by preventing soil improvement and promoting the growth and development of organisms. Going beyond just wastewater treatment, it is a nature-friendly and environmentally-friendly way of recycling products after wastewater treatment and returning them to nature.

As described above, the present invention does not process various organic wastes after aeration and precipitation, such as conventional activated sludge process, through general microbial treatment, but by continuously contacting with phenolic metabolites of soil microorganisms under specific activation conditions. , The condensation and polymerization process is continuously progressed, and the treated water is conveyed properly to effectively purify and remove contaminants by aeration, sedimentation, and the like. As well as reducing the aversion of odors and pests, and preventing secondary pollution, the treated water and surplus sludge can be recycled back to nature and recycled into a natural environment. In addition, the waste water can be purified in an efficient manner.

The organic wastewater treated with the method and apparatus of the present invention causes a significant change in the wastewater treatment product compared to the conventional method as follows, and is changed into a resource-rich form of economic value in the waste.

1) Changing the habitat environment of soil flora in the treatment system will change the appearance of life,

2) by being placed in the presence of silicate (original habitat environment), it restores pulmonary metabolism and secretes good metabolites for living things.

3) Pulmonary metabolites are markedly antibacterial against various bacteria (E. coli, rot, pathogen, etc.) and have growth promoting functions for higher organisms.

4) Also, during this process, odor generation, which is a problem in the existing treatment methods, is suppressed, and pest generation is suppressed, thereby improving the environment.

5) The final discharged water is reborn as biologically active water and converted into a material having good soil improving agent and growth promoting function, which can be used for agriculture.

6) Even if discharged into streams, the streams are purified by the action of pulmonary metabolites, making it possible to inhabit fish.

7) Therefore, in large residential complexes and buildings, the treated water quality is good, so it can be used as heavy water to prevent waste of valuable water resources.

8) Furthermore, recycling to drinking water for livestock and cleaning water for livestock farms will not only improve the breeding environment, but also contribute to meat quality, weight gain, and health, leading to good results in livestock management.

9) In the case of wastewater with low concentrations of wastewater, there is almost no generation of excess sludge, and the use of flocculant required for removing the sludge is considerably reduced, thereby reducing the operating cost.

Claims (13)

A method for the purification of wastewater, including aeration, sedimentation, microbial treatment, filtration and sludge removal, wherein the wastewater is aerated and precipitated, and then treated with soil microorganisms in the presence of activated silicates in a microbial treatment step. A method for the purification of organic wastewater using soil microorganisms, characterized in that the microorganisms are purified by continuous contact with the waste microbial metabolites of soil microorganisms under activation conditions filled with highly concentrated corrosion precursors. The method of claim 1, In the step of treating microorganisms, organic contaminants come into contact with silicates and phenolic metabolites and undergo sludge, condensation, and polymerization to produce sludge in a corroded form, and in this state, the sludge is returned to the aeration and sedimentation step. Is removed and part is returned to the wastewater and microbial treatment step, and part of the purification process of organic wastewater, characterized in that it comprises a step of purifying while passing through the process of filtration. The method according to claim 1 or 2, The method of purifying organic wastewater, characterized in that to remove the nitrogen contained in the wastewater by returning the nitriding liquid activated in the microbial treatment step. The method according to claim 1 or 2, Purification of organic wastewater, characterized in that to minimize the load fluctuations by adjusting the flow rate of the transfer and return of wastewater and treated water so that the corrosion reaction in the microbial treatment step is continuously made uniformly without short circuit for 24 hours. Treatment method. The method according to claim 1 or 2, A method for purifying organic wastewater, characterized in that the sludge of the high concentration wastewater is removed through a precipitation step as a treatment step, and the resulting sludge is composted. The method according to claim 1 or 2, After dewatering the pretreated sludge sludge, the wastewater obtained by separating and stabilizing the wastewater is repeatedly treated to stabilize the organic wastewater. The method according to claim 1 or 2, A method for purifying organic wastewater, characterized in that the soil microbial spawn is initially added in the step of treating microorganisms. In the wastewater purification treatment apparatus including a wastewater supply tank, aeration tank, sedimentation tank, microbial treatment tank, filtration tank, A distribution weighing tank for distributing and feeding contaminants discharged from the settling tank to the microbial active culture tank, the wastewater supply tank, the aeration tank, and the sludge storage tank; A rock containing silicic acid as an active ingredient exists as an active ingredient, and is filled with corrosion precursors and phenolic metabolites produced by soil microorganisms, and aeration tanks are treated with soil microorganisms under active conditions in the contaminants supplied from the distribution weighing tank. A microbial active culture tank which is returned and supplied with; A device for purifying organic wastewater using soil microorganisms, comprising: a sludge storage tank for storing sludge sludge settled in a settling tank to dehydrate and remove the sludge from a dehydrator. The method of claim 8, A device for purifying organic wastewater, characterized in that a pump is installed at the rear end of the aeration tank to spray bubbles at high pressure to remove bubbles. The method of claim 8, And an acid pipe for supplying air to the at least one tank. The method of claim 8, A purification apparatus for organic wastewater, characterized in that an ultra-precipitate for temporarily removing sludge of high concentration wastewater is provided at a previous stage. The method of claim 8, The apparatus is provided with a return line to remove the residual suspended solids in the sedimentation tank to send the sludge accumulated in the final sedimentation tank to the aeration tank which is a pre-treatment reaction tank. The method of claim 8, The apparatus is a purification apparatus for organic wastewater, characterized in that the repeated combination of the device for the repeated treatment of the wastewater separated from the dehydrator for sludge dewatering.