JP4681576B2 - Advanced sewage treatment equipment - Google Patents

Description

  The present invention relates to an advanced sewage treatment apparatus using a reticulated rotary bacillus contact tank. Specifically, the maintenance cost of the facility is low, the process is simple and the operation is easy, and the existing standard activated sludge facility is made concrete. The present invention relates to an advanced sewage treatment apparatus that can be applied with little supplementation without changing the structure.

  In general, sewage purification technology begins in Manchester City's sewage treatment plant devised by Arden and Rocket in Manchester City, England in 1913. Since then, most of the sewage treatment plants constructed around the world are the standard activated sludge method and its application technology.

  In these methods, only organic substances and suspended solids contained in the sewage are removed and then released, so that nutrient salts that cause eutrophication and the red tide phenomenon have not been removed.

  For this reason, each country has established suitable facilities that can remove nitrogen and phosphorus, which are nutrient salts, in accordance with the legal water quality release standards since 1996. However, the technology in South Korea cannot be solved and is an overseas technology. A / 0, A2 / 0, VIP, Bardenpho, UCT, SBR (the above is the construction method) and other technologies were introduced and constructed, and this was gradually changed and recognized as a new technology in Korea. ing.

  The principle of these technologies is that after all the nitrogen is oxidized, nitrogen is removed by creating an anaerobic anoxic state and deaerating, and after the phosphorus creates an anaerobic state and induces the release of phosphorus The microorganisms were allowed to ingest excessive phosphorus while changing to an aerobic state, and then the sludge was dehydrated together with phosphorus and discarded.

  However, these techniques have a nitrogen and phosphorus removal efficiency of about 60 to 70% and are sensitive to changes in water temperature, water quality, and water volume, and thus cannot stably obtain stable water quality. In addition, not only a large amount of power is required to oxidize nitrogen, but the process is complicated and a high level of technology is required to operate the facility. In addition, it is necessary to install a separate facility for removing bad odors generated in each process, and there are various problems such as a strong corrosion of the facility, a short life span, and a high maintenance cost for the facility. Is inherent.

Conventionally, in order to solve the above-mentioned problems, Patent Document 1 discloses a method of combining pretreatment with a reticulated rotary Bacillus contact tank and post-treatment with a biological reaction tank.
JP 11-42496 A

  However, the technique of Patent Document 1 still has problems to be solved. For example, even if the biological reaction tanks are multi-staged and the sludge in the final tank is returned to the reticulated rotary bacillus contact tank or the first tank of the biological reaction tank, it cannot be said that it is sufficient for advanced sewage treatment. Met.

  Accordingly, an object of the present invention is to provide an advanced sewage treatment apparatus capable of highly treating organic matter, nitrogen, and phosphorus in sewage containing organic substances and nutrient salts.

  Other problems of the present invention will become apparent from the following description.

  The above problems are solved by the following inventions.

(Claim 1)
Before biological treatment by introducing sewage containing organic substances and nutrients into a reticulated rotary bacillus contact tank equipped with a reticulated rotary bacillus contactor attached with a microbial film predominating with Bacillus spp. The microorganisms dropped from the contact tank and the pretreated sewage are introduced into the biological reaction tank for biological treatment, and sludge containing the microorganisms introduced from the biological reaction tank is introduced into the sedimentation tank for solidification. When liquid separation and advanced treatment of sewage,
Microbial activator containing any one or more of magnesium sulfate, manganese and silicic acid at any one or two or more places from before introducing the sewage into the reticulated rotary Bacillus contact tank to the biological reaction tank In the advanced sewage treatment equipment,
The biological reaction tank is divided into a plurality of parts, and an air supply pipe is provided in the preceding biological reaction tank excluding the last biological reaction tank by a blower, and aeration is performed without providing an air supply pipe in the last biological reaction tank. An advanced sewage treatment apparatus comprising an underwater stirrer that stirs underwater without water , reducing the amount of dissolved oxygen while preventing sludge settling, and promoting sporulation of Bacillus species mixed bacteria .

(Claim 2 )
A plurality of reticulated rotary bacillus contact tanks are provided, and while the reticulated rotary bacillus contact body in the contact tanks is rotated, the sewage into which the Bacillus mixed bacteria and the microbial activator have flowed are allowed to flow in parallel. Te, while supplying oxygen in the air to the sewage by the rotation of the contact body, advanced treatment apparatus sewage sewage claim 1, wherein the processing in a distributed deployment in air.

(Claim 3 )
In a state in which a plurality of net-shaped rotary Bacillus contact tank is covered by a cover, according to claim 1, wherein the sewage, characterized in that the upper space of the mesh-shaped rotary Bacillus rotating body adjacent are connected altitude Processing equipment.

  ADVANTAGE OF THE INVENTION According to this invention, the advanced treatment apparatus of the sewage which can process the organic substance, nitrogen, and phosphorus in the sewage containing an organic substance and nutrient salt highly can be provided.

  Embodiments of the present invention will be described below.

  The present inventor confirmed that it was possible to obtain a good treatment result from predominating Bacillus species mixed bacteria for the purpose of sewage purification treatment, and ensuring such a predominance technology, We succeeded in realizing sewage purification treatment smoothly and easily.

  That is, the Bacillus species mixed bacterium is a gram-positive gonococcal gonococcus and forms endospores and enters a dormancy under environmental conditions separated as unicellular. As aerobic or facultative anaerobic bacteria, this is a sewage purification method that uses this, and the aforementioned Bacillus species mixed bacteria are also included in the group of microorganisms grown by the standard activated sludge method. Due to dominant culture, it has the following unique characteristics.

  (1) As a gram-positive eubacteria, a special form of dormant cells called endospores is generated. The size of the bacterium is 0.5-2.5 × 1.2-10 μm bacilli.

  (2) Endospores are not formed during active division / proliferation, but when organic nutrients are depleted, the vegetative cell group begins to differentiate into spores when approaching the stop phase from the logarithmic growth phase.

  (3) Generally, only one endospore is formed from one vegetative cell.

  (4) Endospores are highly resistant to heat, ultraviolet light, ionizing radiation, and many toxic chemicals.

  (5) All unicellular endospore-forming bacteria grow by the bisection method and are almost gonococci.

  (6) The Bacillus species mixed bacteria are Gram-positive aerobic or facultative anaerobic spore-forming rods, most have pericy flagella, have a long chain phase, and the settlement represents the R type. Most bacterial species are positive for catalase.

  (7) Catabolize organic compounds by aerobic, nitric acid (anaerobic) respiration or fermentation as a koji mold of chemical heterotrophic products.

  (8) Typical habitat is soil, mostly non-pathogenic.

  (9) Carbon sources such as Bacillus species mixed bacteria are sugars, organic acids, alcohols, etc., and the nitrogen source is ammonium, in a slightly aerobic state (DO 0.5-1 in sewage containing them). It grows well at .0mg / l).

  (10) Most Bacillus species mixed bacteria contain catalase, which is a powerful hydrolase that degrades polysaccharides, proteins, nucleic acids, oils and fats, hardly decomposed organic substances, and superoxide mustase. Although produced, such materials decompose to be available with carbon sources and electron donors.

  (11) Some Bacillus species secrete antibiotics such as bactracin, polymyxin, thyroxine, gramicidin, circulin, colistin, etc. Is related to sporulation, and antibiotic secretion occurs when the culture enters the stationary phase, after which sporulation begins. In the settled sludge state, other microorganisms are lysed or killed by these antibiotics, so that only spores of pure Bacillus species mixed bacteria survive and promote dominance during transport and circulation of internal aeration fluid It becomes like this. These antibiotics are produced in large quantities and commercialized.

  (12) In addition, an EPS (Extracellular Polymeric Substance) is formed around the spore wall at the time of spore formation and entangled with each other to adsorb surrounding floating substances and protozoa, thereby increasing the flock. The solid-liquid separation often occurs in the sedimentation basin by increasing the specific gravity, and when dewatering surplus sludge with a dehydrator, it increases the dewatering efficiency and significantly reduces the amount of agglomerated chemicals input.

  (13) The Bacillus species mixed bacteria of Aspergillus grows in filaments while continuing to divide, but administers a substance containing a small amount of silicon as a growth promoter. A substance containing a trace amount of magnesium is administered to promote sporulation and growth. Magnesium stabilizes ribosomes, cell membranes and nucleic acids, and acts as a phosphotransferase enzyme among many enzymes. In general, gram-positive bacteria require about 10 times more than gram-negative bacteria. To do. In addition, when administered together with substances containing trace amounts of manganese, manganese acts as an activator of various enzymes that act on phosphate-containing substances, poisons oxygen derivatives that are toxic to microorganisms, and is hardly degradable. It is involved in the secretion of a disproportionating enzyme (Superoxide Mustase) that has an important role in degrading organic matter.

  (14) Since Bacillus species mixed bacteria are ingested and metabolized directly before oxidation of ammonia, hydrogen sulfide, amines, mercaptans, etc., no malodor is generated during the treatment process, and no separate malodor treatment equipment is required. .

  A food chain occurs during the process of growth of Bacillus sp. Mixed bacteria having the above characteristics in the mainstream, but among the protozoa that feed on the Bacillus sp. A certain Verticella, Epitilisi, Opelclaria, Carcesium, Podopryya, Tokophrya, Acineta, etc. In this stage, water quality is purified and appears, but metazoans such as Rotaria, Lepadella, Philodina, Colurela, Aerosol a), Diplomat Gaster (Dyplogaster) and the like are found.

  Although the Bacillus species mixed bacteria are configured differently depending on the properties of the sewage, it was observed that the following species formed similar groups.

  That is, Bacillus Alvea, Bacillus polymixer, Bacillus amyloatigas, Bacillus crulance, Bacillus labe, Bacillus macerans, Bacillus publi, Bacillus faubrière, etc. belonging to Group I are all facultative anaerobic It grows well even in a deficient state of oxygen, breaks down various sugars to produce acids, and the spores are elliptical, expanding the mother cell.

  Bacillus anthracis, Bacillus lichenifomis, Bacillus megatilion, Bacillus pumiles, Bacillus subtilis, Bacillus thuringiisis, Bacillus simplex, etc. belonging to Group II produce acids from various sugars including glucose, most of them It grows weakly without oxygen, and the spores are elliptical and do not swell the mother cell.

  Bacillus brevis, Bacillus arginolyticus, Bacillus bodius, Bacillus predane litchi, Bacillus gordonne, etc. belonging to group III are absolute aerobic bacteria and do not produce acid from sugar. Produces elliptical spores that inflate the mother cell.

  Bacillus aminoborans, Bacillus psimomis, Bacillus marinas, Bacillus pacicheri, Bacillus supericas, etc. belonging to group IV all produce spherical spores that swell the mother cell and produce lysine (Lysine) and ornithine (Ornitine) on the cell wall. Including. All are absolutely anaerobic, but some produce acid from sugar.

  Bacillus coagulans belonging to group V, Bacillus plabozamus, Bacillus peridas, Bacillus sumichi, Bacillus stearodomopyrus, Bacillus samogroea, Bacillus samocatanuratos, Bacillus samodentripicans, Bacillus somolao bolos, Bacillus somoraovorans Etc. grow well at 50 ° C. or higher as a high-temperature microbial species. Produces oval spores that are physiologically and morphologically heteromorphic but almost swell the mother cell.

  Bacillus acidocardarius, Bacillus acdoteles stress, Bacillus psychotetanicus and the like belonging to Group VI are high temperature, acidophilic, and have a film-formed W-alicidic fatty acid.

  Unidentified groups include Bacillus benzoevolance, Bacillus pastieiosus, Bacillus Nagano and seasonson.

  In order to culture and maintain a high concentration of Bacillus sp. Mixed bacteria, in the present invention, as a polyvinylidene chloride synthetic fiber, a Bacillus sp. Mixed fungus is attached to a rotating microbial contact having a special network structure, and this is rotated. Since it is immersed in the sewage while being used, the operating conditions of exposing to the air and receiving the supply of oxygen are utilized, so that the sewage can be treated at a high level by dominating as a culture of Bacillus species mixed bacteria.

  Therefore, in order to achieve the above-mentioned object, in the present invention, a rotating body of a porous tissue processed with synthetic fibers by putting sewage, Bacillus species mixed bacteria and a microbial activator into a reticulated rotary Bacillus contact tank Is rotated while being partially immersed in sewage.

  Further, in the present invention, the Bacillus species mixed bacteria and the microbial activator are charged while the sewage is allowed to flow in parallel into a plurality of reticulated rotary bacillus contact tanks while rotating the reticulated rotary bacillus rotating body. . It is preferable that sewage is introduced in parallel through the inflow distribution tank, and the sewage is dispersed and developed in the air while the oxygen in the air is supplied to the sewage by rotation of the mesh-type rotary Bacillus rotator.

  In the present invention, a plurality of reticulated rotary bacillus contact tanks are covered with a cover, and the upper space in the adjacent reticulated rotary bacillus rotator is connected. Even when the reticulated rotary Bacillus rotating body is not always uniform as a whole due to excessive adhesion of Bacillus to the plurality of reticulated rotating Bacillus contact bodies due to the rotation of the reticulated rotating Bacillus rotating body, Therefore, it can be treated stably without causing simultaneous detachment of Bacillus bacteria due to lack of oxygen (anaerobic state).

  Further, in the present invention, in the sewage purification treatment performed in the above-described reticulated rotary bacillus contact tank and the biological reaction tank, the attached bacillus species mixed bacteria of the reticulated rotary bacillus contactor in the last tank of the bioreactor tank The aeration liquid in a state where other bacteria are sterilized by the produced antibiotics is circulated to the first chamber of the flow distribution tank and the biological reaction tank, thereby predominating the Bacillus species mixed bacteria. The sludge settled in the sedimentation tank is preferably returned to the first chamber of the reticulated rotary bacillus contact tank and the biological reaction tank, so that the concentration of the Bacillus species mixed bacteria can be adjusted.

  Further, in the present invention, in order to prevent sedimentation and anaerobic deposition of suspended solids in the above-mentioned reticulated rotary bacillus contact tank, and to peel off the biofilm (Biofilm) excessively attached to the reticulated rotary bacillus contact body, For example, 70% of the total supply air amount is supplied to the first chamber, 20% to the second chamber, and 10% to the third chamber. %, And the amount of dissolved oxygen can be reduced while preventing sludge settling with a submerged stirrer in the fourth chamber to promote sporulation of Bacillus species mixed bacteria.

  Moreover, in this invention, it can also operate | move continuously as a micro aerobic in a bioreaction tank after the process by a several mesh | rotation type | mold rotary Bacillus contact tank.

  The apparatus of the present invention supplies necessary oxygen from the atmosphere by rotating a porous tissue rotating body processed with synthetic fibers in a reticulated rotary Bacillus contact tank by immersing it in sewage by about 30% to 40%. In order to promote the growth and spore formation of Bacillus species mixed bacteria attached to the rotating body, the treatment efficiency is effectively increased by administering a certain amount of the microbial activator to the distribution tank every day. be able to.

  Further, in the present invention, in order to remove malodor, the malodor generated in the pretreatment facility is collected and inhaled by a blower for a biological reaction tank, taken in by a Bacillus species mixed bacteria in the biological reaction tank, and decomposed to decompose the malodor. Can also be removed.

  The apparatus of the present invention is composed of a plurality of reticulated rotary bacillus contacts and a biological reaction tank, and the reticulated rotary bacillus contact tank is provided with a porous tissue rotating body processed with synthetic fibers, The drive means for driving the porous tissue rotating body are arranged, a rotation speed converter (Inverter) is installed to control the rotation speed, and a sealed lid is installed in each of the mesh-shaped Bacillus contact tank and the biological reaction tank. Both can be provided with an air supply device so that the amount of air supplied to each tank can be changed.

  In addition, the apparatus of the present invention is a sewage purification treatment treatment performed in the above-described reticulated rotary Bacillus contact tank and biological reaction tank, and the biological reaction tank is linked with the sedimentation tank in the fourth chamber of the biological reaction tank. In order to adjust the concentration of adhering Bacillus species mixed bacteria in the rotary bacillus contact tank, a device that circulates the flow rate of the aeration liquid variably between the distribution tank and the measurement tank, and the sludge flow in the distribution tank and the measurement tank in the precipitation tank It is also possible to provide a device for variably transporting.

  In addition, the apparatus of the present invention can be operated in a flow distribution tank before inflow of the mesh-type rotary Bacillus contact tank and in a measuring tank before inflow into the biological reaction tank.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a process diagram showing the general structural relationship of an advanced sewage treatment apparatus using a mesh-type rotary bacillus contact tank of the present invention, and FIG. 2 is a mesh-type rotary bacillus contact tank of the present invention, a biological reaction. FIG. 3 is a partial side view of the embodiment of the mesh-type rotary bacillus contact tank of the present invention, and FIG. 4 is the mesh-type rotary type of the present invention. It is sectional drawing which represented the internal state of the Bacillus contact tank partially.

  The apparatus of the present invention is a typical facility as a habitat suitable for purifying Bacillus species mixed bacteria and purifying sewage, and the ones shown in FIGS. 3 and 4 are exemplified. Can be mentioned.

  The appropriately pretreated sewage is sent to the flow distribution tank (11) using the raw water transfer pump (7), and flows through the sewage inflow section (35) of the mesh-type rotary Bacillus contact tank (13). In the mesh-like rotary Bacillus contact tank (13), a drive mechanism (37) for connecting the shafts along bearing portions (38) installed on both sides in the axial direction, and a mesh-shaped rotation installed on the rotary shaft (36). A type Bacillus contact body (33) is rotated under the control of the rotational speed converter (40). That is, the reticulated rotary Bacillus contact body (33) is installed on the rotating shaft (36) by connecting about 10 to 30 sheets at a predetermined interval with the spacer (39).

  As shown in FIG. 4, a spacer (39) composed of a blade portion (39a) and a shaft portion (39b) is separately installed around each mesh-type rotary Bacillus contactor (33). Since the shaft part (39b) is empty, the connecting shaft is inserted and the screws are fastened to fix it, and the reticulated rotary Bacillus rotating body (33) is maintained at a predetermined interval of about 10 to 30 sheets. In this state, the reticulated rotary Bacillus contactor (33) is three-dimensionally configured to be rotatable.

  A part of the reticulated rotary Bacillus contactor (33) as described above is immersed in sewage by about 30% to 40%, preferably about 40%, and the rest is exposed to the atmosphere. The rotation shaft rotates at an appropriate speed under the control of the rotation speed converter (40). Accordingly, the biofilm of the Bacillus species mixed bacteria adhered to the reticulated fiber tissue and oxygen necessary for the sewage purification treatment are supplied from the air. The lid (34) of the mesh-type rotary Bacillus contact tank has an inspection window (41) at an appropriate place for observation, so that the internal operating state can be confirmed.

Each reticulated rotary Bacillus contactor (33) is made of a synthetic fiber material having a rigidity such as polyvinylidene chloride, which is appropriately bent so as to be irregularly reticulated to form a polyvinylidene chloride. The adhesive of the system is sprayed and adhered, and is integrated by the adhesive coagulation of the above-mentioned adhesive at the intersection of each fiber. Since the synthetic fiber material has an apparent specific gravity of 0.04 to 0.08 g / cm ³ and a porosity of 97% or more, it can easily enter and exit the network of sewage and air during rotation, and is mainly composed of Bacillus species mixed bacteria. The growth of Bacillus species mixed bacteria is vigorous, and a good treatment effect is obtained.

  The reticulated rotating Bacillus contactor (33) is a polyvinylidene chloride synthetic fiber, and the revolving bacillus contactor made of a special reticulated structure has the following characteristics.

  (1) Since it has a special mesh structure with a very large contact area, it has a wide contact area with sewage and air, and attaches a lot of biofilm, so that a very good treatment efficiency is obtained.

(2) Since the operating weight is light and there is no function factor of the contact body (apparent specific gravity 0.04 to 0.08 g / cm ³ ), the power cost and maintenance cost of the drive motor are low, and the failure does not occur much.

  (3) Since the porosity of the contact body is 97% or more, sewage and air in the contact body can be easily taken in and out, and oxygen is evenly supplied to the adhering Bacilli mixed bacteria. In order to maintain, processing efficiency is very good and no bad odor is generated.

  (4) Since there is almost no water absorption and hygroscopicity, there is no change in weight when in contact with sewage, and there is no problem of mold growth or corrosion.

  (5) Since the weather resistance, chemical resistance and solvent resistance are good and the mechanical strength is large, the life of the apparatus is long.

  (6) Since many Bacillus species mixed bacteria adhere to the contact body having a large porosity as in (3) above, and a high concentration can be maintained, flow rate fluctuations and organic substance load fluctuations can be avoided. Strong and stable high processing efficiency can be maintained, and high processing efficiency can be maintained even at low temperatures.

  (7) Moreover, since many Bacillus mixed bacteria inhabit the contact body of a three-dimensional network structure, in order to increase the absorption rate of oxygen in the air, the contact body is operated at an increased rotational speed.

  (8) As described above, since many Bacillus mixed bacteria are attached to the contact body having a three-dimensional network structure, even a high concentration waste water with a BOD of 10,000 to 30,000 mg / liter is treated without dilution. Is possible.

  (9) By mainly using the Bacillus species mixed bacteria as described above, due to the characteristics of the Bacillus species mixed bacteria, since the dewatering efficiency of the generated residual sludge is good, the volume of the sludge cake to be discarded is small, A great effect can be obtained in denitrification and dephosphorization.

  (10) Also, if the amount of Bacillus species mixed bacteria attached to the network structure increases, the biofilm of the Bacillus species mixed bacteria attached to the rotating body will become anaerobic due to insufficient oxygen transmission in the air. In some cases, suspended matter is deposited on the bottom of the mesh-type rotary bacillus contact tank, anaerobicization may occur, and the processing efficiency may be adversely affected. In order to increase the processing efficiency and prevent bad odors, the biofilm adhered more than necessary will be peeled off, and the suspended substances deposited will be stirred and flowed into the biological reaction tank, the next step. Can do.

The net-like rotary Bacillus contact body as described above is formed of a synthetic fiber material having an apparent specific gravity of about 0.04 to 0.08 g / cm ^{3 and} a high porosity. For example, the diameter is 2 m. There is little power for rotational drive. Moreover, since the contact area with sewage is also very large, the air in the same structure | tissue and sewage can go in and out smoothly. The Bacillus species mixed bacteria can promote good growth as a safe habitat in the tissue, and a biofilm having a very large number of Bacillus species mixed bacteria can be formed.

  In the case of multi-stage treatment with multiple contact tanks, denitrification and dephosphorization as well as removal of organic substances under microaerobic conditions can be achieved by appropriately controlling the air supply rate with the rotation speed converter (40). Demonstrating the effect, it will be able to obtain a large treatment effect that can not be pursued with existing advanced sewage treatment technology.

  As a result of appropriately adjusting the above action, it can be processed without dilution even when the BOD of the influent water is about 20,000 mg / liter, and the malodor is removed by decomposition and metabolism. The Further, the sludge can be consolidated to improve the sedimentation property of the sludge in the settling tank, so that highly efficient dewatering can be realized by the sludge dehydrator, and the volume of the dewatered sludge cake of the residual sludge can be significantly reduced.

  Due to the influence of the thick biofilm, it has good adaptability to temperature changes and strong adaptability to changes in influent water quality and changes in influent water quality, but it also activates Bacillus mixed bacteria, and kills Escherichia coli and general bacteria. Many excellent effects were confirmed.

  3 and 4 are applied in combination with sewage containing an organic substance, and the embodiment of the general configuration of the present invention is as shown in FIG. 1 and FIG. is there.

  That is, a screen tank (2), a flow rate adjustment tank (5), a flow distribution tank (11), a reticulated rotary bacillus contact tank (13), a biological reaction tank (18), a precipitation tank (23), a sludge concentration tank ( 28) and a discharge tank (30).

  Sewage containing organic substances and nutrients flows into the screen tank (2) through the inflow pipe (1), and is contained in the sewage by the coarse screen (3) installed in the screen tank (2). Remove large suspended solids.

  Next, after adjusting the flow rate in the flow rate adjusting tank (5), it is introduced through the sewage transfer pipe (8) and the fine suspended substance is removed by the fine screen (9).

  Thereafter, the sewage is introduced into the flow distribution tank (11) through the flow distribution tank inflow pipe (10), and is then uniformly distributed to the reticulated rotary bacillus contact tank inflow pipe (12), so that the reticulated rotary bacillus contact is obtained. It flows into a tank (13).

  The sewage (runoff water) pretreated in the mesh-type rotary bacillus contact tank (13) of the net-type rotary bacillus contact device passes through the lightweight tank inflow pipe (15), the measuring tank (16), and the biological reaction tank inflow pipe. It flows into the biological reaction tank (18) through (17).

  Outflow water composed of sewage and sludge biologically treated in the biological reaction tank (18) flows into the settling tank (23) through the settling tank inflow pipe (22). After separating into solid and liquid in the settling tank (23), the separated treated water flows into the discharge tank (30) through the discharge tank inflow pipe (29) and then is discharged into the natural world through the discharge pipe (31).

  The surplus sludge remaining after conveying the sludge settled in the settling tank (23) is introduced into the sludge concentrating tank (28) through the surplus sludge pipe (27) by the surplus sludge pump (26), and the concentrated sludge is It is sent to a sludge dewatering facility where it is dewatered and discarded as a cake.

  In the present invention, the biological reaction tank (18) is composed of a plurality of tanks, preferably four tanks.

  For the biological reaction tank (18), the air supply amount (19a, 19b, 19c) can be divided and supplied to the first, second and third chambers (18a, 18b, 18c) of the biological reaction tank. The underwater agitator (19d) is installed in the fourth chamber (18d) without providing an air supply pipe.

  The aeration liquid circulation pump (20) and the aeration liquid circulation pipe (21) that are variably circulated according to the concentration of the Bacillus species mixed bacteria are connected to the fourth chamber (18d). The sludge in the fourth chamber is distributed and returned to the flow distribution tank (11) and the measuring tank (16) through the aeration liquid circulation pipe (21).

  Most of the sludge settled in the settling tank (23) is distributed and returned to the flow rate distribution tank (11) and the weighing tank (16) through the transfer sludge pipe (25) by the transfer sludge pump (24). . This is because it is variably returned according to the concentration of the number of Bacillus species mixed bacteria.

  For the reticulated rotary bacillus contact tank (13) and the biological reaction tank (18), the reticulated rotary system connected to the bioreactor tank fan (32a) and the reticulated rotary bacillus contact tank fan (32c). Air is sent by the air supply pipe (14) of the Bacillus contact tank and the air supply pipe (19) for the biological reaction tank (no air is sent to the fourth chamber).

  In the reticulated rotary Bacillus contact tank (13), air is supplied separately to the air supply pipes (14a, 14b).

  According to the results of operation of the apparatus according to the present invention mainly using the Bacillus species mixed bacteria mentioned above, the biological reaction tank (18) and the reticulated rotary bacillus contact tank (13) as described above. In the distribution of the air supply amount, as shown in a better state, the first chamber (18a) of the biological reaction tank supplies 70% of the total air supply amount and the second chamber ( 20% is supplied to 18b) and 10% is supplied to the third chamber (18c). In the fourth chamber (18d), an underwater agitator (19d) is installed so that the aerated liquid is not deposited.

  The oxygen supply from the air in the bioreactor composed of 4 chambers is dissolved at the same time as the microbial activator is administered in order to intensively aerate the first chamber of the bioreactor and promote the filamentization of the Bacillus species mixed bacteria. Oxygen (DO) is adjusted to about 1 mg / liter. In order to maintain a constant number of Bacillus species mixed bacteria, the optimum growth conditions for Bacillus species mixed bacteria are created while variably circulating sludge transport and aeration liquid from the sedimentation tank and the fourth chamber. From the 2nd chamber, the nutrient oxygen of the Bacillus species mixed bacteria survives by making the dissolved oxygen gradually lower than 0.1 mg / l or less, and stirring in water without aeration in the 4th chamber. The worst conditions that can not be created are induced to form endospores, and the secretion of antibiotics is increased compared to air aeration and stirring, and the bactericidal effect of coliforms is further improved.

  The reticulated rotary Bacillus contact tank (13) is supplied with air intermittently to the extent that the suspended matter is not deposited and the biofilm adhered excessively is peeled off.

In addition, a separate flow rate adjustment tank blower (32b) is placed in the flow rate adjustment tank (5), and about 0.015 Nm ³ / min of air per volume of the flow rate adjustment tank (5) is supplied to the flow rate adjustment tank air supply pipe (6 This is to prevent sedimentation of suspended solids, equalize the quality of the incoming sewage, and prevent corruption of the incoming sewage.

  After removing suspended substances up to about 5 to 10 mm with a fine screen (9) by the inflowing sewage transfer pump (7), the flow distribution tank (11), the deodorizing pipe (43), and the biological reaction tank The blower (32a) is inhaled and blown into the biological reaction tank (19) to remove malodorous substances in the aerated liquid.

  Specific examples of the present invention will be described below.

Example 1
An example will be described in which the apparatus shown in FIGS. 3 and 4 is used to purify the sewage of B city, S village, and 480 m ³ / day scale.

  That is, the apparatus shown in FIGS. 3 and 4 is applied by arranging 30 reticulated rotary bacillus contacts (33) as shown in FIG. 3, and such a reticulated rotary bacillus contact (33). ) Is variably rotated at 4 to 12 rpm with about 30% deposited in sewage.

As a result, it was confirmed that BOD, COD, SS, TN, and TP were simultaneously removed in one step, and an advanced treatment effect was obtained. Table 3 shows the results of water sampling and analysis for 10 days after 3 months when this treatment facility was constructed and after normal operation started after trial operation.

The operating condition is that 480 m ³ / day is uniformly flowed into the reticulated rotating microbial contact tank, the biofilm thickness of the microbial contact body is 1 to 2 cm, the rotation speed is maintained at 4 to 5 rpm, and dissolved oxygen (DO) is maintained at 1.0 mg / liter, microbial activator is charged at 3 kg / day, the first chamber of the bioreactor is MLSS 2,500-3,000 mg / liter, and dissolved oxygen is 0. The fourth chamber of the bioreactor was operated while maintaining dissolved oxygen at 0.1 mg / liter or less.

  As is apparent from the results in Table 1, the processing efficiency of BOD is 97.7%, COD is 94.3%, SS is 96.5%, TN is 83.9%, and TP is 90.6. % Gave good results.

Example 2
This is an example applied to urban sewage. As a result of collecting and analyzing water for 10 days after 3 months when a normal treatment operation was started after constructing a treatment facility of 45,000m ³ / day on the K road at the T sewage treatment plant by this construction method. A result like 2 was obtained.

  The T sewage treatment plant is a plant constructed by adopting the present invention so as to be able to carry out advanced treatment. However, it was treated water BOD 6.0 mg / liter, COD 10.5 mg / liter, SS 7.0 mg / liter, TN 8.7 mg / liter, and TP 0.7 mg / liter.

  The treatment efficiency was very good with BOD 95.9%, COD 98.9%, SS 95.6%, TN 78.3%, TP 90.0%.

  The number of inflowing coliforms was 590 / ml with 147,900 inflowing water / ml, and it was not necessary to disinfect them separately.

  For reference, pollutant emission standards in the environmental department of the region are BOD 30 mg / liter, COD 40 mg / liter, SS 30 mg / liter, TN 30 mg / liter, TP 4 mg / liter, E. coli count 3,000 / ml. is there.

  Here, it is considered that the coliform group can be reduced without sterilization by secreting a physiologically synthetic substance when the Bacillus species mixed bacterium is sporulated.

  The operating conditions were a microbial contact (RABC) rotational speed of 3-4 rpm, DO of 1 mg / liter or less, a biofilm thickness of 1-2 cm, and the first chamber of the bioreactor in which DO was 1 mg / liter. Less than a liter, MLSS is 3,000 to 4,000 mg / liter, SV30 is about 90%, the second chamber of the biological reaction tank is about 0.5 mg / liter DO, SV30 is about 80%, In the third and fourth chambers of the reaction tank, DO was 0.2 mg / liter or less and SV30 was about 60%. The microbial activator was administered to the RABC distribution tank at 0.02 kg per kg of BOD load.

Example 3
The J sewage treatment plant on the K road shows the results of water sampling and analysis for 10 days after 3 months when a 25,000 m ³ / day scale treatment facility was constructed by this method and normal operation started after trial operation. 3 shows.

  In the case of J sewage treatment plant as well, it has been successfully constructed by adopting this method so that advanced treatment can be performed. Inflow water BOD 128.6 mg / liter, COD 89.1 mg / liter, SS 142.9 mg / liter, TN32 4 mg / liter, TP 2.9 mg / liter, but treated water BOD 5.2 mg / liter, COD 7.4 mg / liter, SS 3.7 mg / liter, TN 7.4 mg / liter, TP 0.5 mg / liter there were.

  The treatment efficiency was very good with BOD 96%, COD 91.7%, SS 97.4%, TN 77.2%, TP 82.8%.

  The number of inflowing coliforms also decreased to 132,400 / ml in the inflowing water, which was a level that did not require disinfection.

For reference, the emission standards for pollutants in the environmental department of the region are BOD 30 mg / liter, COD _Mn 40 mg / liter, SS 30 mg / liter, TN 30 mg / liter, TP 4 mg / liter, coliform group number 3,000 / ml.

  In this way, even in the case of large sewage treatment facilities, it has become established as an advanced treatment facility.

Example 4
The treatment efficiency of coliforms was compared by the stirring method in the fourth chamber.

The number of coliforms in the inflow water and treated water of the T treatment plant (45000 m ³ / day) and the K treatment plant (25000 m ³ / day) conducted by air aeration are used for the stirring method in the fourth chamber. We investigated and asked for processing efficiency. The survey was conducted 5 times, and the average is shown in Table 4.

  As described above, the present invention administers a microorganism mainly composed of sewage and Bacillus species mixed bacteria and a microbial activator to a reticulated rotary Bacillus contact tank, and a special reticulated structure processed by a synthetic resin fiber material. Since it was rotated in the state where it was partially deposited in the sewage, not only the components such as BOD, COD and SS showed excellent treatment efficiency compared to the conventional activated sludge method, but also TN, TP Until now, the superiority of processing in the same process has been proved, and it has been recognized that the facility operation cost is much lower with compact equipment.

  While rotating a plurality of reticulated rotary Bacillus contacts that allow sewage to flow in one after another, the above-mentioned sewage containing the microorganisms mainly composed of Bacillus sp. If oxygen in the air is supplied to the sewage by variable rotation of the rotating body, which is a tissue, highly efficient purification treatment can be achieved by dispersing and treating the sewage in the air. It can be effectively applied to sewage generation facilities.

  By variably adjusting the rotational speed of a plurality of mesh-type rotary Bacillus contacts, the oxygen supply amount in the air is adjusted to further improve the removal efficiency of BOD, COD, SS, TN, and TP. Can be increased.

  A high reaction efficiency can be stably ensured by placing a biological reaction tank after the treatment with a plurality of mesh-type rotary Bacillus contact tanks and performing aeration treatment.

  A special reticulated porous structure rotating body processed with synthetic fiber is partially deposited in sewage and rotated in a reticulated rotating bacillus contact tank in which microorganisms and microbial activators mainly composed of sewage and Bacillus species are introduced. In this case, microorganisms mainly composed of Bacillus species mixed bacteria are logarithmically brought into contact with the sewage and air, and the contaminating components contained in the sewage are ingested and purified by being metabolized smoothly.

  As described above, the oxygen supply in the air in the bioreactor composed of four chambers causes the Bacillus species mixed fungus to induce filamentous growth by causing concentrated aeration in the first chamber of the bioreactor. At the same time that the microbial activator is administered, the dissolved oxygen (DO) is adjusted to about 1 mg / liter, and in order to maintain a constant number of Bacillus species mixed bacteria, sludge is transported and aerated from the settling tank and the fourth chamber. While variably circulating the liquid, the optimum growth conditions for the Bacillus species mixed bacteria are created, and the dissolved oxygen is gradually reduced to 0.1 mg / liter or less while becoming empty nutrient state from the second chamber of the biological reaction tank. In the fourth chamber, the worst condition in which the vegetative cells of the Bacillus sp. Mixed bacteria cannot live is created by stirring in water, and all are formed to form spores.

  As mentioned above, in the sewage purification treatment performed in the reticulated rotary Bacillus contact tank and the biological reaction tank, the aeration liquid at the initial stage of spore formation in the fourth chamber of the biological reaction tank passes through the distribution tank and the measuring tank. The recirculating Bacillus contact tank and the biological reaction tank are circulated in the first chamber of the rotary rotating Bacillus contact tank and the biological reaction tank, and the sludge of the Bacillus species mixed bacteria settled in the settling tank passes through the flow distribution tank and the measuring tank. The first chamber was circulated and transported.

The process figure showing the general compositional relationship of the sewage altitude treatment device using the reticulated rotary bacillus contact tank of the present invention. Process drawing showing the supply state of air in the reticulated rotary bacillus contact tank, biological reaction tank and flow control tank part of the present invention The partial side view with respect to the Example of the mesh | network type rotary bacillus contact tank of this invention Sectional drawing which represented partially the internal state of the reticulated rotary bacillus contact tank of this invention

Explanation of symbols

1. Inflow pipe 2. Screen tank Coarse screen 4. 4. Flow control tank sewage inflow pipe Flow rate adjustment tank 6. 6. Flow control tank air supply pipe Inflow sewage transfer pump
8). 8. Sewage transfer pipe Fine screen
10. 10. Flow distribution tank inlet pipe Flow distribution tank
12 12. Reticulated rotary Bacillus contact tank inlet pipe Reticulated rotary bacillus contact tank
14 Air supply pipe 15. Measuring tank inlet pipe
16. Measuring tank 17. Biological reaction tank inlet pipe
18. Biological reactor 18a. Room 1
18b. Second chamber 18c. Room 3
18d. Room 4 19. Biological reaction tank air supply pipe
19a. First chamber air supply pipe 19b. Second chamber air supply pipe
19c. Third chamber air supply pipe 19d. 4th chamber underwater agitator
20. Aeration liquid circulation pump 21. Aeration liquid circulation pipe
22. Precipitation tank inflow pipe 23. Sedimentation tank
24. Conveying sludge pump 25. Conveying sludge pipe
26. Surplus sludge pump 27. Surplus sludge pipe
28. Sludge concentration tank 29. Discharge tank inlet pipe
30. Release tank 31. Discharge pipe
32a. Blower for biological reaction tank 32b. Blower for flow control tank
32c. Blower for mesh-type rotary Bacillus contact tank 33. Reticulated rotary bacillus contactor
34. Cover of reticulated rotary bacillus contact tank 35. Sewage inflow section
36. Rotating shaft (Shaft)
37. Drive mechanism
38. Bearing part 39. Spacer
39a. Blade portion 39b. Shaft part
40. Rotational speed converter (Inverter)
41. Inspection window
42. Intake / exhaust port 43. Deodorization piping

Claims (3)

Before biological treatment by introducing sewage containing organic substances and nutrients into a reticulated rotary bacillus contact tank equipped with a reticulated rotary bacillus contactor attached with a microbial film predominating with Bacillus spp. The microorganisms dropped from the contact tank and the pretreated sewage are introduced into the biological reaction tank for biological treatment, and sludge containing the microorganisms introduced from the biological reaction tank is introduced into the sedimentation tank for solidification. When liquid separation and advanced treatment of sewage,
Microbial activator containing any one or more of magnesium sulfate, manganese and silicic acid at any one or two or more places from before introducing the sewage into the reticulated rotary Bacillus contact tank to the biological reaction tank In the advanced sewage treatment equipment,
The biological reaction tank is divided into a plurality of parts, and an air supply pipe is provided in the preceding biological reaction tank excluding the last biological reaction tank by a blower, and aeration is performed without providing an air supply pipe in the last biological reaction tank. An advanced sewage treatment apparatus comprising an underwater stirrer that stirs underwater without water , reducing the amount of dissolved oxygen while preventing sludge settling, and promoting sporulation of Bacillus species mixed bacteria . A plurality of reticulated rotary bacillus contact tanks are provided, and while the reticulated rotary bacillus contact body in the contact tanks is rotated, the sewage into which the Bacillus mixed bacteria and the microbial activator have flowed are allowed to flow in parallel. Te, while supplying oxygen in the air to the sewage by the rotation of the contact body, advanced treatment apparatus sewage sewage claim 1, wherein the processing in a distributed deployment in air. In a state in which a plurality of net-shaped rotary Bacillus contact tank is covered by a cover, according to claim 1, wherein the sewage, characterized in that the upper space of the mesh-shaped rotary Bacillus rotating body adjacent are connected altitude Processing equipment.

Images