KR20050003633A - Bio activator for a sewage treatment plant - Google Patents

Abstract

PURPOSE: To provide a biological activation device for promoting activation of microorganisms in a sewage and wastewater treatment plant to improve treatment efficiency of sewage and wastewater and completely adsorb and remove odorous gas in exhaust gas generated from sewage and wastewater containing high concentrated organic matter and high concentrated nitrogen and phosphorus at the same time. CONSTITUTION: The biological activation device for sewage and wastewater treatment plant comprises a sprinkling pipe(11) into which water to be treated flows; an activation illite ceramic layer(13) which is formed of a special ceramic so that the activation illite ceramic layer emits wavelength of far-infrared rays to generate energy and completely adsorb thus deodorize noxious gas by revolving electrons around the cell when a cell of microorganisms are divided; a permanent magnet layer(14) for generating magnetic force; an activation tourmaline ceramic layer(15) to which a weak electric current is consistently impressed by a magnetic field generated from the permanent magnet so that the activation tourmaline ceramic layer generates anions as a polar crystal that is formed of a special ceramic to have electric polarization itself; a crystalline graphite layer(16) installed on a lower part of the activation tourmaline ceramic layer; and a diffuser(18) into which exhaust gas generated from sewage and wastewater flows.

Description

Bio activator for a sewage treatment plant

The present invention relates to the field of wastewater treatment. More specifically, in the process of recycling part of the treated water, the efficiency of wastewater treatment can be improved by activating the cell division of microorganisms by activating the cellular group of organic substances by transferring far infrared rays and anions. The present invention relates to a biologically activated device for a wastewater treatment apparatus capable of completely adsorbing and deodorizing odorous gases in waste gas generated from wastewater containing high concentrations of organic substances and high concentrations of nitrogen and phosphorus.

In general, wastewater containing high concentrations of organic substances such as livestock wastewater and septic tank wastewater, and high concentrations of nitrogen and phosphorus are treated appropriately below the effluent discharge limit by removing organic matter, nitrogen, and phosphorus to prevent eutrophication of nearby streams. Regulated by law. Therefore, wastewater treatment facilities for treating domestic sewage or factory wastewater are installed in living zones and factories.

However, the conventional wastewater treatment facility has a disadvantage in that it does not completely oxidize organic materials and microbialize them, and relatively lowers the treatment efficiency by sedimenting the organic material itself using a physical and chemical addition method.

In addition, the conventional wastewater treatment facility has a problem in that by releasing the gas discharged from the treatment plant into the atmosphere, when the air pressure is low, odor is diffused around, causing environmental pollution.

An object of the present invention is to solve such a conventional problem, wastewater treatment by activating the cell division of the microorganism by activating the cell group of the organic material by the transfer of far infrared rays and anions in the process of recycling part of the treated water To increase the efficiency and at the same time provide a biological activation device for wastewater treatment equipment that can completely adsorb and deodorize odorous gases from the waste gas generated from wastewater containing high concentrations of organic substances and high concentrations of nitrogen and phosphorus. have.

1 is a block diagram of a wastewater treatment system to which a biologically activated device for a wastewater treatment apparatus according to an embodiment of the present invention is applied.

Explanation of symbols on the main parts of the drawings

10 biologically activated device 20 tide tank

30: screen tank 40: flow rate adjustment tank

50: blower for flow adjustment tank 60: anoxic tank

65: DO adjustment tank 70: aeration tank blower

80: exhaust fan 90: aeration tank

100: sedimentation tank 110: sludge transfer pump

120: concentrated storage tank 130: dewatering device

140: post treatment tank 150: defoaming tank

160: treatment tank 170: disinfection tank

180: pump 190: tank

As a means for achieving the above object, the constitution of the present invention is made of a watering pipe into which treated water flows in, and made of a special ceramic so that far-infrared wavelengths are diverged so that the surrounding electrons are regenerated when the cells of the microorganism divide. The permanent magnet described above is an active elite ceramic layer that completely adsorbs and deodorizes toxic gases, a permanent magnet layer that generates magnetic force, and a polar crystal that is made of special ceramics and has electric polarization. An active tourmaline ceramic layer that generates a negative ion by continuously applying a weak current to each other by a magnetic field generated in the layer, and an impression smell ceramic disposed below the active tourmaline ceramic layer. And an exhaust pipe into which the exhaust gas generated from the waste water flows.

As a means for achieving the above object, in the constitution of the present invention, an activated carbon layer is provided between the water spray pipe and the active illite ceramic layer, and a silica gel layer is provided between the impression graphite layer and the diffuser layer. More preferably.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

1 is a block diagram of a wastewater treatment system to which a biologically activated device for a wastewater treatment apparatus according to an embodiment of the present invention is applied.

As shown in Figure 1, the configuration of the wastewater treatment system to which the biologically activated device for a wastewater treatment apparatus according to an embodiment of the present invention is applied, the sedimentation tank 20, the screen tank 30, the flow adjustment tank 40 ), Pre-treatment step by metering tank 45, oxygen-free tank 60, DO adjustment tank 65, central treatment step by aeration tank 90, sedimentation tank 100, post-treatment tank 140, defoaming tank ( 150), based on the three-step advanced biological treatment process consisting of a post treatment step by the treatment tank 160, the disinfection tank 170.

According to the above configuration, the action of the wastewater treatment system to which the biologically activated device for wastewater treatment apparatus according to the embodiment of the present invention is applied is as follows.

The pretreatment step is to improve the denitrification rate, dephosphorization rate and nitrification rate by making anaerobic conditions and storing the organic material in the cell.

When a high concentration of wastewater flows in, the sedimentation tank 20 and the screen tank 30 for sedimentation and separation of contaminants and suspended matter are transferred to the flow rate adjustment tank 40, and the flow rate adjustment tank 40 supplies the flow rate suitable for the treatment capacity. The pump is introduced into the weighing tank 45.

The role of the flow adjustment tank 40 is to store and dilute the non-constant flow rate in the discharge source to average the BOD concentration to maintain a certain load at the outflow, and to be stored under anaerobic conditions.

In this way, the flow rate adjusting tank 40 used as the anaerobic tank and the anoxic tank 60 connected to the flow adjusting tank 40 via the metering tank 45 are treated to remove nitrogen and phosphorus efficiently so that sludge production is reduced. Reduces the need for oxygen and oxygen and ensures high efficiency of nitrification, biological nitrogen and phosphorus removal even with short residence times.

The wastewater passed through the flow rate adjustment tank 40, the metering tank 45, and the anaerobic tank 60 is naturally discharged to the DO adjustment tank 65. In this step, the raw water and the sludge returned from the conveying pump 110 are mixed, and denitrification and phosphorus intake, which is made into an electron acceptor containing DO and NO _X -N by nitrogen and phosphorus removing microorganisms, proceeds. That is, by injecting oxygen (O ₂ ) with DO adjustment tank 65 to intake residual phosphorus and convert anaerobic microorganisms into aerobic microorganisms, it is used as an electron acceptor in the form of NH _3- > NO ₂ -N, NO ₃ -N. Allow the residual phosphorus to change into an ingestible microorganism.

In the central treatment step, which is a core treatment step of biological treatment, DO is adjusted by blowing air into the aeration tank blower 70 to adjust DO, and the organic matter of the waste water is discharged by the aerobic microorganisms in the aeration tank 90. Enzyme is completely decomposed into atoms (CHON S) to cause cell division, thereby allowing the growth of new aerobic microorganisms.

Therefore, the aeration tank 90 propagates dozens of microorganisms suitable for the ratio of BOD: N: P as a reaction tank of microorganisms, and treats with activated sludge having excellent sedimentation effect, and also prevents intake of residual phosphorus and prevention of nitrification. do.

The outflow water of the aeration tank 90 is naturally introduced into the center of the settling tank 100 is separated into the supernatant and sludge, the separated supernatant is discharged to the after-treatment tank 140.

The sludge sedimented in the settling tank 100 is collected in the center by a collector (Scrubber), the excess sludge is recycled (recycling) a certain amount to the metering tank 45 by the conveying pump 110, another constant amount is concentrated storage tank Transferred to 120 and concentrated.

The concentrated sludge of the concentrated storage tank 120 is sent to the dewatering device 130 or the sludge consignment treatment plant, and the supernatant of the concentrated storage tank 120 is discharged to the after-treatment tank 140.

On the other hand, the sludge returned to the metering tank 45 is subjected to the nitrogen and phosphorus removal process is repeated while passing through the anaerobic tank 60, DO control tank 65, aeration tank 90, to promote the growth of microorganisms in the aeration tank 90 Be sure to

In the post-treatment step, aeration, reaction, precipitation, once again to remove un-dissolved dissolved organic matter such as BOD, N, P residues remaining in the supernatant and NH ₄ -N outflow from the precipitation tank 100 Release it to ensure perfect water quality. That is, the post-treatment step is a secondary treatment by performing periodic air injection and interruption (oxygen injection, anoxicization), reaction and precipitation to treat residual BOD, N, P of the supernatant introduced into the after-treatment tank 140. Ensure stable treated water quality.

The water discharged from the after-treatment tank 140 is stored in the treatment tank 160 so that it can be recycled as water, and when discharged from the treatment tank 160, it is sanitary by disinfectant in the disinfection tank 170. It must be sterilized in order to be discharged so as not to cause environmental pollution.

In such biological wastewater treatment, the treatment capacity of the facility is evaluated according to the amount and activity of the microorganisms present in the aeration tank 90 in order to improve the purification capacity.

In the present invention, by adding a biological activator (10) in addition to the wastewater treatment system having such a function, the amount and activity of microorganisms present in the aeration tank 90 is increased to significantly improve the wastewater treatment efficiency. At the same time, the odorous gas in the exhaust gas generated from wastewater containing high concentrations of organic substances and high concentrations of nitrogen and phosphorus is completely adsorbed and deodorized.

First, the gas discharged from the flow adjusting tank 40, the oxygen-free tank 60, the DO adjusting tank 65 in the pretreatment step is input to the biological activation device 10 by the exhaust fan 80, the biological activation device 10 The malodorous gas in the exhaust gas is adsorbed and deodorized by the filter media layers 12 to 17 in the process of being sent upward through the nozzle of the lower exhaust pipe 18 of the exhaust pipe.

In addition, a portion of the treated water is input to the biological activation device 10 by the parcel water pump of the defoaming tank 150 connected to the after-treatment tank 140, the treated water is installed on top of the biological activation device 10 Far infrared rays and anions are transferred to the treated water in the process of contacting the filter media layers 12 to 17 composed of special ceramic layers while being dispersed downwards through the nozzles of the water spray pipes 11, which are converted into water to the electron acceptors. Electron pairs are covalently bonded to each other and are converted into activated water and transported to the anaerobic tank 60, the DO adjustment tank 65, and the aeration tank 90 to promote cell division of microorganisms.

In the present invention, biological phosphorus removal using microorganisms is performed by using PhO (Phosphorus Accumulating Organism) which releases phosphorus out of cells under anaerobic conditions and then overingests the phosphorus released through aerobic conditions.

The PAO accumulates the organic material introduced under anaerobic conditions as PHA (Poly-Hydroxy-Alkanonate), an intermediate product in the form of a polymer, and in this process, APT (Adenosine Triphosphate) in the cell is obtained in order to obtain energy required in the process. Adenosine Diphosphate) releases phosphorus out of the cell.

Therefore, when oxygen (O ₂ ) is supplied to the electron acceptor after anaerobic conditions, PHA accumulated in anaerobic conditions is used as an electron donor to obtain energy to form APT again in the cell. Over-accumulation occurs, and the wastewater-containing phosphorus is removed by discarding the sludge that has accumulated excessive phosphorus.

This can be summarized as the molecular formula.

CH ₃ COOH + 0.16 NH ₄ ⁺ + 1.2 O ₂ + 0.2 PO ₄ ^-3

_{-> 0.16C 5 H 7 O 2} N + 1.2CO 2 + 0.2 [HPO 3] + 0.44OH - + 1.44H 2 O

In the present invention, in order to activate the microorganisms that play the most important role in the biological treatment of wastewater, the biological activation device 10 is additionally installed, and electrons are injected between the atoms around the cell during cell division. By covalently bonding to each other to promote cell division, even a small treatment plant can be highly processed in a short time.

Fundamental to the biological treatment of wastewater is its capacity to evaluate, depending on how active the microorganism is.

The present invention is an inventive technique of advanced processing that increases the amount of enzyme produced by microorganisms and increases the activity, thereby improving the decomposition ability of organic materials. (10) is additionally installed, and microorganisms make electron pairs by exchanging electrons between neighboring atoms during cell division, and provide a role for promoting cell division according to the activity of covalent bonding of these electron pairs. Done. In other words, the cluster of organic matter is decomposed into atoms (C. H. O. N. S) by an enzyme and converted into a new microorganism (Cx Hy Oz).

Biological activation device 10 of the present invention, the spraying water pipe 11, the treatment water flows from the after-treatment tank 140, the activated carbon layer 12 is provided in the lower portion of the watering pipe 11 and a special ceramic And an active illite ceramic layer 13 formed under the activated carbon layer 12, a permanent magnet layer 14 disposed under the active illite ceramic layer 13, and special ceramics. The active tomaline ceramic layer 15 is made of a permanent magnet layer 14, which is provided in the lower portion of the active tomaline ceramic layer 15, and the impression graphite layer 16 is provided in the lower, The silica gel layer 17 provided below the graphite layer 16 and the diffuser 18 provided below the said silica gel layer 17 are comprised.

In the active illite ceramic layer 13, 5.6-14 microns of far infrared rays are diverged, and when the cells of the microorganism divide, the surrounding electrons revolve to generate energy, and this energy is thermally energized again to generate resonance. It accelerates the growth and promotion of enzymes according to the aging effect of microorganisms, and the ammonia gas (NH ₃ ), sulfurous acid gas (SO ₂ ), carbon monoxide exhausted from the flow control tank 40, anoxic tank 60, DO control tank 65 Toxic gases such as (CO), hydrogen sulfide (H ₂ S) and chlorine gas (Cl ₂ ) are completely adsorbed and deodorized.

The active tomalin ceramic layer 15 is a polar crystal having an electric polarization itself, and generates a negative ion by continuously operating a weak current by a magnetic field generated in the permanent magnet layer 14. If the water (H ₂ O) Contact with polar crystals there is instantaneously water electrolysis as, at this time the water molecules (H ₂ O) is a hydrogen ion (H ⁺⁾ and hydroxyl ions (OH ^-) is separated by the surrounding water molecules In combination with, it forms a surface-active substance called hydroxyl (H ₃ O ₂ ) anion. At this time, by subdividing the molecular group of the clustered foreign matter around the cell to increase the promotion of cell division of the microorganism.

The biological activation device 10 of the present invention can be used semi-permanently, once installed, provides an increase in the treatment capacity when the efficiency of the existing wastewater treatment device is reduced, and maximizes the treatment capacity per unit area at the time of new installation, It can reduce the operating cost, completely solve the odor problem of the exhaust gas generated from the treatment plant, and realize the perfect wastewater treatment system against environmental pollution by using the high efficiency wastewater treatment device.

In addition, biologically active device 10 of the present invention, a high concentration of organic material containing a high concentration of nitrogen and phosphorous containing the livestock waste water and the purified water tank effluent waste water and the ammonia generated from the process gas (NH _3), sulfur dioxide Various types of odorous gases such as (SO ₂ ), carbon monoxide (CO), hydrogen sulfide (H ₂ S), chlorine gas (Cl ₂ ) and fine dust are completely adsorbed, deodorized, and purified to be released.

In addition, the biological activation device 10 of the present invention promotes the growth of microorganisms to maintain a high concentration of MLVSS can increase the processing efficiency per unit treatment facility.

In addition, the biological activation device 10 of the present invention is to circulate a predetermined amount (20 ~ 30%) of the return sludge to have a stable treatment performance of the water load, by using a defoaming water pump from the after-treatment tank 140 By adjusting the amount of circulation water (10-20%) passing through the biological activation device 10 to promote the activity of the microorganism.

As described in the above embodiments, the present invention improves the efficiency of wastewater treatment by activating the cell division of microorganisms by activating the cellular group of organic substances by transferring far infrared rays and anions in the process of recycling part of the treated water. At the same time, it has the effect of completely adsorbing and deodorizing odorous gases in the exhaust gas generated from wastewater containing high concentrations of organic substances and high concentrations of nitrogen and phosphorus.

Claims (3)

Sprinkling pipe into which treated water flows, It is made of special ceramic and emits far-infrared wavelength, so that when the cells of microorganism divide, the surrounding electrons revolve to generate energy, and the active illite ceramic layer which completely adsorbs and deodorizes toxic gas, A permanent magnet layer generating magnetic force, An active tomaline ceramic layer, which is made of special ceramics and has an electric polarization itself, and which generates negative ions by continuously acting a weak current by the magnetic field generated in the above-mentioned permanent magnet layer, An impression graphite layer provided below the active tomalin ceramic layer; Biological activation device for a wastewater treatment device, characterized in that it comprises an acid pipe into which the discharge gas generated from the wastewater flows. The biologically activated device for wastewater treatment apparatus according to claim 1, wherein an activated carbon layer is further provided between the water spray pipe and the active illite ceramic layer. The biologically activated device for wastewater treatment apparatus according to claim 1 or 2, wherein a silica gel layer is further provided between said impression graphite layer and said diffuser layer.