JP2020142241A - Sewage treatment system - Google Patents

Abstract

To provide a sewage treatment system equipped with a microbial material production apparatus that treats activated sludge to produce microbial materials that can work more effectively in a biological reaction tank.SOLUTION: A sewage treatment system provided with (a) a microbial material production apparatus 62 that dehydrates a first precipitation sludge 52 and/or a final precipitation sludge 56 to give a dehydrated sludge 60, and aerobically ferments the dehydrated sludge 60 by supplying oxygen and keeping the temperature at 60-110°C to kill anaerobic microorganisms and produce a microbial material containing spores of generated aerobic microorganisms, and (b) a first water feeding means 72 for feeding water to a first microbial activator 70, in which the first microbial activation apparatus 70 receives microbial materials from the microbial material manufacturing apparatus 62, supplies water from the first water feeding means 72 to the microbial material, maintains the temperature of the water in the range of 10-40°C and oxygen concentration at 1-10 mg/L to germinate and activate the spores of the microbial material, and supplies the activated microbial material to a biological treatment tank 54.SELECTED DRAWING: Figure 1

Description

The present invention relates to a sewage treatment system, and more specifically, includes a relay pumping station for sewage discharged from homes, factories, companies, etc., a first settling basin, a biological treatment tank, and a final settling basin, and a sewer pipe. The present invention relates to a sewage treatment system including a sewage treatment facility that receives sewage from the relay pumping station and treats the sewage via the above.

As a method for treating a liquid to be treated such as wastewater and sewage, activated sludge treatment in which the liquid to be treated is treated with activated sludge is widely performed.
For example, as widely disclosed in Japanese Patent Application Laid-Open No. 2013-233482, a wastewater treatment system to which the activated sludge method is applied is basically a first settling basin (note that it may be omitted in a small-scale sewage treatment system). ), A reaction tank, and a final settling basin. Then, according to the activated sludge method, after the raw sludge is first separated from the supplied wastewater in the settling basin, oxygen is dissolved in the wastewater supplied through the flow path by aeration and aeration in the reaction tank. At the same time, the mixture is stirred and mixed, and activated sludge mainly composed of aerobic microorganisms is suspended and retained in it, and then the activated sludge is precipitated in the final settling basin supplied through the flow path, and the supernatant water is used as discharged water. Let it flow out. The reaction tank is sometimes called an aeration tank, a reaction tank, an aeration tank, a biological treatment tank, or the like, and the aeration time is 6 to 14 hours. A part of the activated sludge settled in the final settling basin is returned to the reaction tank as return sludge, and the rest is concentrated as surplus sludge in a mechanical concentration facility.

As described above, a part of the activated sludge settled in the final settling basin is effectively used, but it is limited to this.

Japanese Unexamined Patent Publication No. 2013-233482

Therefore, it is an object of the present invention to go one step further and provide a sewage treatment system equipped with a microbial material manufacturing apparatus for treating activated sludge and producing a microbial material that works more effectively in a biological reaction vessel.

The above object is achieved by the sewage treatment system of the present invention having the following configuration.
That is, the sewage treatment system of the present invention includes a relay pumping station for sewage discharged from homes, factories, companies, etc., a first settling basin (omitted in some cases), a biological treatment tank, and a final settling basin. In a sewage treatment system equipped with a sewage treatment facility that receives sewage from the relay pumping station via a culvert and treats it.
A dehydration means for receiving and dehydrating excess sludge from the first settling basin and / or return sludge from the final settling basin, which is connected to the first settling basin and / or the final settling basin.
The dehydrated sludge from this dehydration means is aerobic-fermented by gram-positive aerobic microorganisms in the dehydrated sludge by supplying oxygen while keeping the temperature at 60 ° C. to 110 ° C., thereby gram-negative. A microbial material manufacturing apparatus that decomposes and kills anaerobic and anaerobic anaerobic microorganisms and produces microbial materials containing spores of aerobic microorganisms produced after this aerobic fermentation.
A first water feeding means for feeding water from any of the systems of the sewage treatment system to a microbial activator, which will be described later.
A first oxygen supply means for supplying oxygen to a first microorganism activation device described later,
The microbial material is received from the first microbial material manufacturing apparatus, oxygen is supplied from the first oxygen supply means, and water is supplied from the first water feeding means, and the temperature of this water is set to 10 to 40 degrees. The oxygen concentration was maintained at 1 to 10 mg / L at a temperature of 15 to 40 degrees, and the spores of the microbial material were germinated and activated, and the activated microbial material was used in the biological treatment tank. First microbial activator, supplied to
A second water feeding means for feeding water from any of the systems of the sewage treatment system to a second microbial activator, which will be described later.
A second oxygen supply means for supplying oxygen to the second microorganism activation device described later,
Receives the microbial material from the microbial material manufacturing apparatus, oxygen from the first oxygen supply means, and water from the first water feeding means, and raises the temperature of this water to 15 to 40 degrees. A first microbial activator that germinates and activates the spores of the microbial material while maintaining an oxygen concentration of 1 to 10 mg / L and supplies the activated microbial material to the biological treatment tank. With
The water supplied to the microorganism activator is characterized by being treated by the sewage treatment facility.
The oxygen from the oxygen supply means is preferably supplied in the form of air.
When the sewage treatment facility is provided with a disinfection tank for disinfecting the water from the final settling basin, the water supplied to the microorganism activator may be water before disinfection in the disinfection tank. preferable.
The water from the water feeding means contains nutrients necessary for germination of the spores.
The aerobic microorganisms include, for example, those belonging to the Gram-positive Bacilli of Firmicutes and / or those belonging to the Gram-positive Actinobacteria of Actinomycetes, and / or Gram-positive bacteria of the phylum Chloroflexi. Is desirable.
Examples of the anaerobic and facultative anaerobic microorganisms include those containing Gram-negative Sulfate-Reducing Bacteria of the phylum Proteobacteria present in the intestine and / or those gram-negative of the phylum Bacteroidetes.
The sewage treatment system of the present invention also includes a relay pumping station for sewage discharged from homes, factories, companies, etc., a first settling basin, a biological treatment tank, and a final settling basin, via a sewer pipe. In a sewage treatment system equipped with a sewage treatment facility that receives sewage from the relay pumping station and treats it.
A dehydration means for receiving and dehydrating excess sludge from the first settling basin and / or return sludge from the final settling basin, which is connected to the first settling basin and / or the final settling basin.
The dehydrated sludge from this dehydration means is aerobic-fermented by gram-positive aerobic microorganisms in the dehydrated sludge by supplying oxygen while keeping the temperature at 60 ° C. to 110 ° C., thereby gram-negative. A microbial material manufacturing apparatus that decomposes and kills anaerobic and anaerobic anaerobic microorganisms and produces microbial materials containing spores of aerobic microorganisms produced after this aerobic fermentation.
A first water feeding means for feeding water from any of the systems of the sewage treatment system to a first microbial activator, which will be described later.
A first oxygen supply means for supplying oxygen to a first microorganism activation device described later,
While receiving the microbial material from the microbial material manufacturing apparatus and the oxygen from the first oxygen supply means and the water from the first water feeding means, the temperature of this water is set to 10 to 40 degrees. First, in particular, at 15 to 40 degrees, the oxygen concentration is maintained at 1 to 10 mg / L to germinate and activate the spores of the microbial material, and the activated microbial material is supplied to the first. Microorganism activator A second water feeding means for feeding water from any of the systems of the sewage treatment system to a second microbial activator described later.
A second oxygen supply means for supplying oxygen to a second microbial activation device to be described later, and oxygen from the first oxygen supply means and the second water that receive the microbial material from the microbial material manufacturing device. While receiving water from the feeding means, the temperature of this water is maintained in the range of 10 to 40 degrees, particularly in the range of 15 to 40 degrees, and the oxygen concentration is maintained in the range of 1 to 10 mg / L. It is equipped with a second microbial activation device that germinates and activates follicles and supplies the activated microbial material to the relay pump station.
The water supplied to the microbial activator is water treated by the sewage treatment facility, and in particular, the sewage treatment facility includes a disinfection tank for disinfecting water from the final settling basin. The case is characterized by being water before disinfection in the disinfection tank.
Since the conditions of oxygen, water, etc. in this sewage treatment system are almost the same as those described above, further description thereof will be omitted.

In the sewage treatment system of the present invention, a microbial material manufacturing apparatus is provided to allow microorganisms useful for sewage treatment to exist mainly in the form of spores, and the microbial material produced by the microbial material manufacturing apparatus is used as the microbial activation apparatus. And / or those belonging to the Gram-positive Actinobacteria of the phylum Firmicutes, and / or those belonging to the gram-positive Actinobacteria of the phylum Actinomycetes, which are microorganisms that germinate the spores and are useful for degrading organic substances in sewage. / Or make it rich in Gram-positive bacteria of the phylum Chloroflexus. As described above, the treatment in the biological treatment tank is carried out by the activated sludge and the microorganisms from the microbial activator, and the organic matter of the sewage sludge can be decomposed and treated extremely efficiently.
Generally, the bacterial fauna of activated sludge is most often the phylum Proteobacterium, the phylum Bacteroides, etc., but the microbial materials in the sewage treatment system of the present invention include those belonging to the gram-positive Bacillus of Firmicutes and the gram-positive of the phylum Firmicutes. A state in which the presence of gram-positive bacteria of the phylum Chloroflexus, which belongs to the family Actinobacteria, is rich (for example, among the microorganisms in the microbial material, actinobacteria are over 50%, Firmicutes is over 20%, and phylum Chloroflexus is over 10%. The presence of (included) reduces the presence of the Proteobacteria, Bacteroides, etc. in the activated sludge biological treatment tank, and even if the activated sludge concentration MLSS rises to 2000-4000 mg / L and operates, the activated sludge Since the sedimentation property is good and the BOD reduction is stably purified, the conventional problems are (1) improvement of the bulking problem, (2) improvement of nitrification denitrification, (3) improvement of dephosphorization treatment and ( 4) It was effective for all improvement of firing and scum problems in the final sedimentation pond.

FIG. 1 is a conceptual diagram showing a configuration of a sewage treatment system according to an embodiment of the present invention.

Hereinafter, the sewage treatment system 10 according to the embodiment of the present invention will be described with reference to the accompanying drawings.

The sewage treatment system 10 receives sewage from the relay pumping station 20 via a relay pumping station 20 for sewage discharged from homes, factories, companies, etc., and a sewer pipe 100, and treats the sewage. It is equipped with a processing facility 50. The sewage treatment facility 50 is provided with a first settling basin 52, a biological treatment tank (air exposure tank) 54, a final settling basin 56, and a disinfection tank 58, as in the case of the ordinary activated sludge method. , Purified, disinfected and discharged through sewers. Since the above-described configuration of the sewage treatment facility 50 is a normal one in this type of sewage treatment system 10, further details will be omitted. Further, the relay pumping station 20 includes a pump P connected to a sewage pipe extending from each home, factory, or the like.

The sewage treatment system 10 is further connected to the first settling basin 52 and the final settling basin 56, and includes a dehydrator for receiving excess sludge from the first settling basin and returned sludge from the final settling basin and dehydrating them. ing. The dehydrator 60 may receive only one of the excess sludge and the returned sludge and dehydrate it. The dewatering device 60 may perform any type of dewatering method such as a centrifugal separation type, a filter press type, or a mechanical concentration type, and the dewatering device 60 removes the excess sludge and / or the returned sludge. Dehydrated sludge with a water content of 65 to 85%.

A microbial material manufacturing apparatus 62 is connected to this dehydrating apparatus. The microbial material manufacturing apparatus 62 supplies oxygen to the dewatered sludge from the dewatering apparatus 60 while keeping the temperature at 60 ° C. to 110 ° C., and is favored by gram-positive aerobic microorganisms in the dewatered sludge. Temper ferment. By depleting water and nutrients in the dehydrated sludge spent in this aerobic fermentation, gram-negative anaerobic microorganisms are decomposed and killed, or at least partially killed, and the aerobic microorganisms become spores. Contains as little harmful gram-negative anaerobic and facultative anaerobic microorganisms as possible, and has a high rate of beneficial aerobic spores (among the microorganisms in the microbial material, actinobacteria are over 50% and filmites is over 20%) Manufacture the microbial material contained in. The microbial material manufacturing apparatus 62 is provided with a heater for the above temperature control, and is provided with an oxygen (air) supply apparatus if necessary. The microbial material manufacturing apparatus 62 produces a relatively dry and smooth microbial material on particles.

The sewage treatment system 10 includes a first microorganism activation device 70 installed or connected to the sewage treatment facility 50. A first water feeding means 72 for feeding water from any of the systems of the sewage treatment system to the microorganism activating device 70 is connected to the microbial activating device 70. A first oxygen supply means 74 for supplying oxygen to the microorganism activation device 70 is connected to the microorganism activation device 70 as needed. The water supplied by the water feeding means 72 is sewage before being treated (for example, sewage upstream from pump P of the relay pumping station 20) or water flowing out of the final settling basin 56 in front of the disinfection tank 58. It is preferable to have. These waters contain nutrients necessary for germination of the spores, and can simultaneously provide water and nutrients necessary for germination of the spores.
When the amount of dissolved oxygen in the water from the first water feeding means 72 is insufficient, oxygen is supplied from the first oxygen supplying means 74. This supplied oxygen may be supplied in the form of air. In this case, it is not necessary to specially provide an oxygen generator or an oxygen tank. In the prior art (see Japanese Patent Application Laid-Open No. 2001-271510), a fermented product (for fertilizer) substantially equivalent to the microbial material of the present invention is used. Some are added directly to sewage sludge, but the purpose is to promote the precipitation of activated sludge, the purpose of which is different from the object of the present invention. Further, from the above-mentioned prior art, it is conceivable to add the fermented product directly to the biological reaction tank, but other microorganisms (gram-negative bacteria, etc.) that preferentially consume nutrients are contained in the biological reaction tank. Since there are many spores and nutrients for germination of spores are depleted or reduced, spores directly added to the biological reaction tank do not germinate or require a long time for germination. Therefore, it seems that the function of sewage treatment of useful microorganisms is limited.

The first microbial activation device 70 receives the microbial material from the microbial material manufacturing device 62, supplies the water from the water feeding means 72 to the microbial material, and raises the temperature of the water to 10 ° C. to The spores of the microbial material are germinated and activated by maintaining an oxygen concentration of 1-10 mg / L in the range of 40 degrees, particularly in the range of 15-40 degrees. In order to maintain the water temperature within the above range, a cooling / heating facility may be provided. Further, in order to maintain the oxygen concentration in the above range, oxygen (air) is supplied from the oxygen supply means 74. In the microbial activation device 70, it takes 5 minutes or more for spores to germinate after the germination environment is prepared. Therefore, the microbial activation device 70 contains as little gram-negative bacteria as possible in which microbial materials compete. After staying for 5 minutes or more, it is put into the biological treatment tank 54.

With the above configuration, in this sewage treatment system 10, microorganisms (aerobic) in which spores in the microbial material from the microbial material manufacturing apparatus 62 have sprouted are added to and supplied to ordinary activated sludge in the biological treatment tank 54. Therefore, it efficiently decomposes organic substances in sewage together with useful microorganisms in activated sludge.

In the present invention, the aerobic microorganisms include, for example, those belonging to the Gram-positive Bacilli of Firmicutes and / or those belonging to the Gram-positive Actinobacteria of Actinomycetes, and in some cases yeast. Bacteria can also be mentioned.
On the other hand, examples of the anaerobic and facultative anaerobic microorganisms include those containing a gram-negative sulfate-reducing bacterium of the phylum Proteobacteria present in the intestine and / or a gram-negative microorganism of the phylum Bacteroidetes.

The sewage treatment system 10 further includes a second microbial activation device 80 installed or connected to the relay pumping station 20. The microbial activator 80 includes a second water feeding means 82 for feeding water from any of the systems of the sewage treatment system to the second microbial activator 80, and oxygen to the second microbial activator 80. A second oxygen supply means 84 for feeding to the microorganism activation device 80 is connected. The water supplied by the second water feeding means 72 flows out from the sewage before receiving the treatment (for example, the sewage upstream from the pump P of the relay pumping station 20) and the final settling basin 56 in front of the disinfection tank 58. It is preferably water. These waters contain nutrients necessary for germination of the spores, and can simultaneously provide water and nutrients necessary for germination of the spores.

Further, the oxygen supplied from the second oxygen supply means 74 may be supplied in the form of air as in the case of the first oxygen supply means 74 described above. In this case, it is not necessary to provide an oxygen generator or an oxygen tank specially. If the oxygen concentration in the sewage is found to be sufficient for germination, air may be introduced into the sewage in the pump P or the sewage immediately after being discharged from the pump P.

Like the first microbial activation device 70, the second microbial activation device 80 receives the microbial material from the microbial material manufacturing device 62, and the microbial material is supplied with water from the second water feeding means 82. The temperature of the water was maintained in the range of 10 to 40 degrees, particularly in the range of 15 to 40 degrees, and the oxygen concentration was maintained in the range of 1 to 10 mg / L to germinate the spores of the microbial material. , Activate. In order to maintain the water temperature within the above range, a cooling / heating facility may be provided. Further, in order to maintain the oxygen concentration in the above range, oxygen (air) is supplied from the oxygen supply means 74. Oxygen (air) from the oxygen supply means 74 is also supplied to the sewage at any point of the relay pumping station 20 to increase the amount of dissolved oxygen in the sewage. In the microbial activation device 80, it usually takes 5 minutes or more after the germination environment is prepared for spores to germinate, so that gram-negative bacteria competing with microbial materials are not contained as much as possible. After staying in the microorganism activator 80 for 5 minutes or more, it is preferably put into sewage (for example, sewage in the pump).

With the above configuration, in this sewage treatment system 10, regardless of the oxygen consumption of the aerobic microorganisms that have sprouted and the aerobic microorganisms that originally existed in the sewage, in the sewer pipe downstream from the relay pumping station 20 Sufficient oxygen is dissolved in the sewage (a state in which the oxygen concentration is increased).
As a result of the increased oxygen concentration in the sewage, the anaerobic bacteria sulfate-reducing bacteria are inactivated and the production of hydrogen sulfide is suppressed. As a result, the production of sulfuric acid is prevented by suppressing the sulfate-producing bacteria and aerobic. Microorganisms can improve the bacterial conditions in the biofilm on the wall of the sewer from directly below the relay pump station to a good condition, thereby suppressing the generation of sulfuric acid and preventing corrosion of the sewer. In addition to extending the life, the activity of the aerobic microorganisms can purify the sewage itself and reduce the burden on the equipment later.

10 Sewage treatment system 20 Relay pump station 50 Sewage treatment equipment 52 First settling basin 54 Biological treatment tank 56 Final settling basin 58 Disinfection tank 60 Dehydration equipment 62 Microbial material production equipment 70 First microbial activation device 72 First water supply means 74 First oxygen supply means 80 Second microorganism activation device 82 Second water supply means 84 Second oxygen supply means 100 Sewage pipe P pump

Claims (18)

It is equipped with a relay pumping station for sewage discharged from homes, factories, companies, etc., and at least a biological treatment tank and a final settling basin among the first settling basin, biological treatment tank and final settling basin, via a sewer pipe. In a sewage treatment system equipped with a sewage treatment facility that receives sewage from the relay pumping station and treats it.
It is connected to at least the final settling basin of the first and final settling basins, receives at least the excess sludge from the first settling basin and the return sludge from the final settling basin, and dehydrates it. Dewatering means for,
The dehydrated sludge from this dehydration means is aerobic-fermented by gram-positive aerobic microorganisms in the dehydrated sludge by supplying oxygen while keeping the temperature at 60 ° C. to 110 ° C., thereby gram-negative. A microbial material manufacturing apparatus that decomposes and kills anaerobic and anaerobic anaerobic microorganisms and produces microbial materials containing spores of aerobic microorganisms produced after this aerobic fermentation.
A water feeding means for feeding water from any of the systems of the sewage treatment system to a microbial activator described later.
An oxygen supply means for supplying oxygen to a microbial activation device described later, an oxygen from the microbial material manufacturing device, oxygen from the oxygen supply means, and water from the water feeding means. Upon receiving the supply, the temperature of the water was maintained at 10 ° C to 40 ° C and the oxygen concentration was maintained at 1 to 10 mg / L to germinate and activate the spores of the microbial material, and this activation was performed. Equipped with a microbial activation device that supplies microbial materials to the biological treatment tank,
A sewage treatment system characterized in that the water supplied to the microorganism activating device is water treated by the sewage treatment facility. When the sewage treatment facility includes a disinfection tank for disinfecting water from the final settling basin, the sewage treatment system according to claim 1, which is water before disinfection in the disinfection tank. The sewage treatment system according to claim 1 or 2, which maintains the temperature of water from the water feeding means in the range of 15 ° C. to 40 ° C. The sewage treatment system according to any one of claims 1 to 3, wherein oxygen from the oxygen supply means is supplied in the form of air. The sewage treatment system according to any one of claims 1 to 4, wherein the water from the water feeding means has nutrients necessary for germination of the spores. Any of claims 1 to 5, wherein the aerobic microorganism belongs to the Gram-positive Bacilli of Firmicutes, belongs to the Gram-positive Actinobacteria of Actinomycetes, or contains Gram-positive bacteria of the phylum Chloroflexi. Sewage treatment system. Any of claims 1 to 6, wherein the anaerobic and facultative anaerobic microorganisms include Gram-negative Sulfate-Reducing Bacteria of the phylum Proteobacteria present in the intestine and / or gram-negative of the phylum Bacteroidetes. Sewage treatment system. It is equipped with a relay pumping station for sewage discharged from homes, factories, companies, etc., and at least a biological treatment tank and a final settling basin among the first settling basin, biological treatment tank and final settling basin, via a sewer pipe. In a sewage treatment system equipped with a sewage treatment facility that receives sewage from the relay pumping station and treats it.
It is connected to at least the final settling basin of the first and final settling basins, receives at least the excess sludge from the first settling basin and the return sludge from the final settling basin, and dehydrates it. Dewatering means for,
The dehydrated sludge from this dehydration means is aerobic-fermented by gram-positive aerobic microorganisms in the dehydrated sludge by supplying oxygen while keeping the temperature at 60 ° C. to 110 ° C., thereby gram-negative. A microbial material manufacturing apparatus that decomposes and kills anaerobic and anaerobic anaerobic microorganisms and produces microbial materials containing spores of aerobic microorganisms produced after this aerobic fermentation.
A first water feeding means for feeding water from any of the systems of the sewage treatment system to a first microbial activator, which will be described later.
A first oxygen supply means for supplying oxygen to a first microorganism activation device described later,
Receives the microbial material from the microbial material manufacturing apparatus, oxygen from the first oxygen supply means, and water from the first water feeding means, and raises the temperature of this water to 10 ° C to 40 ° C. A first microbial activator that germinates and activates the spores of the microbial material while maintaining an oxygen concentration of 1 to 10 mg / L and supplies the activated microbial material to the biological treatment tank. ,
A second water feeding means for feeding water from any of the systems of the sewage treatment system to a second microbial activator, which will be described later.
A second oxygen supply means for supplying oxygen to a second microbial activation device to be described later, and oxygen from the second oxygen supply means and a second water that receive the microbial material from the microbial material manufacturing device. While receiving the supply of water from the feeding means, the temperature of this water is maintained at 10 ° C to 40 ° C and the oxygen concentration is maintained at 1 to 10 mg / L to germinate and activate the spores of the microbial material. A second microbial activation device for supplying the activated microbial material to the relay pump station is provided.
A sewage treatment system, wherein the water supplied to the first microorganism activation device is water that has been treated by the sewage treatment facility. 8. The sewage treatment facility includes a disinfection tank for disinfecting water from the final settling basin, and the water supplied to the first microorganism activator is water before disinfection in the disinfection tank. Sewage treatment system. The sewage treatment system according to claim 8 or 9, which maintains the temperature of water from the first and second water feeding means in the range of 15 ° C. to 40 ° C. The sewage treatment system according to any one of claims 8 to 10, wherein oxygen from the first and second oxygen supply means is supplied in the form of air. The sewage treatment system according to any one of claims 8 to 11, wherein the water supplied to the second microbial activator is overflow from the first sedimentation basin. The sewage treatment system according to any one of claims 8 to 11, wherein the water supplied to the second microbial activator is sewage before entering the first sedimentation basin. The sewage treatment system according to any one of claims 8 to 11, wherein the water supplied to the second microorganism activator is water treated by the sewage treatment facility. Claim 14 that the sewage treatment facility includes a disinfection tank for disinfecting water from the final settling basin, and the water supplied to the second microorganism activator is water before disinfection in the disinfection tank. Sewage treatment system. The sewage treatment system according to any one of claims 8 to 15, wherein the water from the first and second water feeding means has nutrients necessary for germination of the spores. The aerobic microorganism comprises at least one of the Firmicutes Gram-positive Bacilli, Actinomycetes Gram-positive Actinobacteria, and Chloroflexi Gram-positive bacteria, and yeast. The sewage treatment system according to any one of claims 8 to 16, which may also contain bacteria. Any of claims 8 to 17, wherein the anaerobic and facultative anaerobic microorganisms include Gram-negative Sulfate-Reducing Bacteria of the phylum Proteobacteria present in the intestine and / or gram-negative of the phylum Bacteroidetes. Sewage treatment system.

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