JP3638653B2 - Sewage treatment equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a simple sewage treatment apparatus that performs sewage treatment using phototrophic bacteria and symbiotic organic vegetative microorganisms, and in particular, a ceramic member is accommodated in a long treatment tube device, and the magnetism and voids of the ceramic member are accommodated. The present invention relates to a sewage treatment apparatus that promotes the growth of phototrophic bacteria and symbiotic organic microorganisms and decomposes filth components contained in sewage.
[0002]
[Prior art]
Wastewater discharged from factory wastewater, domestic wastewater, and other livestock sheds has been conventionally treated using a sewage treatment device, and as the sewage treatment device, in addition to treatment with activated sludge, A treatment such as detoxification by microorganisms is performed while stirring a large amount of air. However, making a large-scale sewage treatment device to treat sewage discharged from livestock houses, etc. will have a significant impact on the cost of livestock production. It is difficult to create. In addition, in agricultural product processing factories and the like located in places where sewage facilities are not in place, even if the amount of discharged sewage is relatively small, it may not be possible to directly discharge it to public sewage treatment equipment.
[0003]
Therefore, an apparatus as shown in FIG. 8 has been proposed as a method for configuring a relatively small-scale sewage treatment apparatus. In the sewage treatment apparatus 50, a large amount of air is blown into the aeration tank 51 into which sewage is introduced to stir the sewage and separate the precipitate, and the liquid component is transferred to the phototrophic bacteria culture tank 52. Yes. And in the said culture tank 52, after irradiating light and an ultraviolet-ray, phototrophic bacteria are propagated in large quantities and it decomposes | disassembles the organic substance in sewage, Then, sewage is moved to the coagulation sedimentation tank 53, and is aggregated. The product is separated and precipitated. Furthermore, the liquid component in the settling tank 53 is transferred to the algae culture tank 54 to grow algae such as chlorella, thereby consuming the organic matter remaining in the treatment liquid and precipitating the solid component through the settling tank 55. Therefore, the supernatant liquid is discharged.
[0004]
In the sewage treatment apparatus 50, the phototrophic bacteria are cultured in a large amount in the phototrophic bacteria culture tank and the organic matter in the sewage is decomposed. It can be used as a fertilizer component by spraying. In addition, culturing algae and treating organic matter in sewage has a lot of uses for fertilizer and other purposes when separating algae from effluent, and incinerates sludge like conventional sewage treatment in cities. There is no need to do. Furthermore, in the sewage treatment apparatus, since sewage is treated using microorganisms and bacteria, it is said that there is an advantage that the sewage treatment facility may be small-scale and the treatment cost is low.
[0005]
[Problems to be solved by the invention]
However, in the sewage treatment apparatus as shown in FIG. 8, it is necessary to arrange a large number of water tanks corresponding to the amount of sewage to be treated, and the construction cost of such water tanks is small. It may not be easy to pay for items that use. In addition, when the temperature is low, such as in winter, the activities of bacteria and algae in each tank decrease, so it takes a lot of time for the treatment of organic matter in the sewage. It is necessary to set a large margin. Furthermore, since the action for treating organic matter depends only on natural forces, there is a problem that the treatment capacity of sewage becomes unstable due to the influence of weather and temperature.
[0006]
The present invention solves the problems of the conventional sewage treatment apparatus as described above. The sewage treatment apparatus is constituted by a treatment tube device containing a ceramic member, and the ceramic member accommodated inside the treatment tube device is provided. Providing a device for decomposing organic matter in sewage by making phototrophic bacteria and symbiotic organic microorganisms grow on a wide surface of a ceramic member, composed of a porous and magnetic substance, and processing The purpose of the present invention is to provide a sewage treatment apparatus having a low treatment cost and a low construction cost, by arranging the pipe device in an arbitrary length so that the treatment time can be arbitrarily set according to the nature of the sewage. .
[0007]
The present invention provides a long pipe-shaped processing tube device between a sewage charging unit and a discharging unit, and the pipe member constituting the processing tube device is configured by using a transparent or translucent material. Provided means for supplying light inside, containing a porous ceramic member having a magnetic field inside the processing tube device, inoculated with phototrophic bacteria and symbiotic organic nutrient microorganisms inside the processing tube device,
The waste water passing through the inside of the treatment tube device is treated with organic matter contained in the waste water by phototrophic bacteria and symbiotic organic nutrient microorganisms grown in the treatment tube device.
[0008]
Further, in the present invention, the ceramic member having a magnetic field to be accommodated in the processing tube device includes an inorganic and porous substance such as zeolite, a porous calcium component such as coral, activated carbon, and a magnetic substance. , By mixing polysaccharides as a binder, forming into a spherical shape or other arbitrary shape lump, applying a magnetic field to the lump of the ceramic member, sintering, and further magnetizing after sintering It can be configured as a lump of a porous and magnetic ceramic member, and can exhibit the action of promoting the activity of phototrophic bacteria and symbiotic organic vegetative microorganisms by utilizing the magnetism of the ceramic member and the voids.
[0009]
Furthermore, the present invention is configured such that the processing pipe device is configured by connecting a large number of pipe members via connecting pipe members, the processing pipe device is piped underground or in water, Is applied while pressure is applied, and the action of moving the sewage is performed inside the processing pipe device by utilizing the pressing action by the air injected into the processing pipe device.
In addition to the above configuration, in the present invention, a pipe member having a filter function is disposed as a separation pipe in a part of the pipe member constituting the processing tube device, and the separation pipe is provided with a rotary drive device. It is also possible to provide a means for rotating using, arrange a separate pipe member so as to cover the separation pipe, and remove the precipitate separated from the separation pipe via the separate pipe member It is.
[0010]
In the sewage treatment apparatus of the present invention configured as described above, for example, the treatment pipe device can be extended to an arbitrary length, and a pipe member cut to a certain length is connected via a connection pipe member. Since the connection is made sequentially, the pipe member can be removed or replaced when a failure occurs in the pipe member constituting the processing tube device. Further, as the processing pipe device, in addition to using a pipe, an arbitrary hose-like member or a bag-like member can be used. In addition, by arranging the connecting pipe members in the sewage introduction part and the discharge part, the processing pipe line can be configured to an arbitrary length. The processing pipe member of the present invention can be constructed by burying an arbitrary length in the ground or laying on the ground, and further laying along the bottom of a lake or pond It can also be provided and can be constructed at an arbitrary place. And when arrange | positioning in the ground or a water bottom, it becomes possible to maintain the temperature for the growth of a living thing constant, and to exhibit the effect | action of a wastewater treatment in a favorable state. In addition to the above action, the ceramic member accommodated in the pipe member of the processing tube apparatus of the present invention is configured as a porous material having magnetism, and the ceramic member has a large surface area, so that the organic substance adsorbing action is good. In addition, the phototrophic bacteria can be collected on the surface of the ceramic member by causing the magnetic field to act on the phototrophic bacteria and symbiotic organic vegetative microorganisms, thereby efficiently treating the organic matter.
[0011]
Furthermore, the sewage can be moved inside the processing pipe device by pressing the sewage against the processing pipe member using a pump or the like, or by utilizing the water level in the input container. In addition, air is ejected from a predetermined position of the treatment tube device using an ejection tube member, thereby improving the fluidity of sewage inside the treatment tube device and supplying oxygen to the activity of phototrophic microorganisms. Can be made active. The organic matter in the sewage can be treated with the phototrophic bacteria that grow inside the treatment tube device, and the water that does not contain organic matter can be discharged from the discharge container. It is removed by washing the member, and the removed precipitate can be used as a fertilizer by spraying it on a field or the like.
[0012]
[Example 1]
In the present invention, a sewage treatment method is used in which wastewater containing sludge is poured into a pipe and purified by the action of phototrophic bacteria and symbiotic organic vegetative microorganisms in the pipe. In the sewage treatment method of the present invention, a treatment tube device is constituted by a pipe having an arbitrary length and diameter, and a magnetic porous ceramic member is accommodated in the treatment tube device. Further, as the ceramic member, it is possible to use a material obtained by mixing zeolite, coral fossil, activated carbon, and a magnetic material and sintering it as a lump of a predetermined size. The ceramic member is used as a ceramic member that is porous and has magnetic properties after being formed into a lump and / or subjected to processing to impart magnetism after sintering. Then, when passing sewage through the pipe into which the ceramic member is inserted, inoculate the phototrophic bacteria and symbiotic organic vegetative microorganisms, and propagate the microorganisms in the sewage to decompose organic matter in the sewage, It is trying to demonstrate the action which purifies.
[0013]
In the sewage treatment of the present invention, for example, when a pipe having a diameter of 5 cm and a length of 3 m is used, a ceramic member is filled therein, and red non-sulfur bacteria (Rodobacter capsulata), red sulfur as phototrophic bacteria 10 viable bacteria each of bacteria (chromatium) ¹¹ 10 g of cells / g, and 10 viable organisms of symbiotic organic trophic microorganisms (for example, Bacillus megaterium, Azotobacter, yeast, lactic acid bacteria, etc.) ¹¹ Cells / g were seeded at 1 g each. And then, when SS100mg / L and BOD40mg of sewage was passed through the pipe at a flow rate of 1m / 30sec and treated with sewage, even after 3 months, SS in the drainage was hardly recognized, BOD Was also within 5 ppm.
[0014]
In addition, as described above, when the sewage is treated, the precipitates and solids remaining in the pipe can be discharged by applying air pressure, collected in another water tank, and sprayed on the farmland. . The precipitates and the like contain a large amount of phototrophic bacteria and symbiotic organic vegetative microorganisms, and can exert a suppressive action against soil pathogenic bacteria that cause plant continuous cropping damage. It can be treated by any means such as spraying waste water and precipitates washed on the pipe as they are on the soil.
[0015]
[Example 2]
Next, a configuration example of the sewage treatment apparatus of the present invention will be described. The example shown in FIG. 1 shows a schematic configuration of the sewage treatment apparatus 1 of the present invention, and a treatment pipe device 3 is connected to an input container 2 into which sewage is introduced through a strainer 4 and a valve 5. Yes. The processing tube device 3 can be configured to have an arbitrary length. For example, the pipe member is formed of a pipe having a diameter of 10 cm, and the total length of the processing tube device is arranged from several hundreds to 1000 m. it can. And the discharge part container 7 is arrange | positioned through the valve | bulb 6 in the terminal part of the said processing pipe apparatus 3, and the water after processing organic substance is discharged from the discharge pipe 8. FIG. In addition, the processing pipe device of the present invention can be embedded in the ground or laid on the ground, and can also be laid along the bottom of a lake or pond. Can be built anywhere. Therefore, when the treatment tube device is disposed in the ground or at the bottom of the water, it is possible to maintain a constant temperature for the growth of microorganisms and to exert a sewage treatment effect in a good state.
[0016]
Further, the charging container 2 can be configured by providing an aeration device, and the organic matter contained in the sewage is decomposed by the action of microorganisms by blowing air into a fine lump. It is also possible to flow inside the processing tube device and to separate and remove the precipitate. In addition to the above-described configuration, in order to allow the sewage to flow inside the processing pipe device 3, a method of using a water level difference H or pumping by using a pump by arranging the input container at a high position. It can also be used. Further, since the apparatus for injecting air is arranged at an arbitrary position in the processing tube apparatus as will be described later, the fluidity of sewage can be improved by using the pressure of the air.
[0017]
Moreover, as microorganisms used in the apparatus of the present invention, viable bacteria of red non-sulfur bacteria (Rodobacter capsulata) and red sulfur bacteria (chromatium) as phototrophic bacteria as shown in Example 1 above. Each living bacterium of a symbiotic organic vegetative microorganism (for example, Bacillus megaterium, Azotobacter, yeast, lactic acid bacterium, etc.) can be used. And it can use by adjusting the inoculation amount of the said microorganisms according to other conditions, such as the size of a processing tube, and the processing amount of sewage.
[0018]
As described above, in order to promote the growth of microorganisms inside the processing tube device and to improve the fluidity of sewage, the air supply device 15 is arranged and the ejection tube member 19 inserted into the pipe member. , 19a... Constitutes means for blowing air. In the air supply device 15, an ejection pipe member 19 is arranged from the compressor 16 through an air supply pipe 17, and valves 18, 18 a, etc. are arranged on the air supply path of the air supply pipe 17. Thus, the amount of air supplied to each of the ejection pipe members 19 can be adjusted. Then, as described above, by blowing air into the processing tube device, the air bubbles improve the fluidity of the sewage and promote the operation of moving the sewage along the processing tube device. Is possible. Further, by blowing air into the treatment tube device, oxygen can be supplied into the sewage to actively promote the growth of microorganisms, and the organic substance in the sewage can be decomposed satisfactorily. .
[0019]
As shown in the plan view of FIG. 2, the sewage treatment apparatus 1 has a plurality of pipe members 10, 10a,... Arranged in parallel inside a storage device 12 filled with water such as a pool. The members are connected using connecting pipe members 11, 11 a... To constitute one processing pipe device. Further, as the pipe member, a plastic pipe member having transparent and translucent properties can be used. When the pipe member is made of a material having a property of transmitting light, a pipe is used. The growth of phototrophic bacteria and symbiotic organic vegetative microorganisms, which are microorganisms that decompose organic substances in the road, can be performed well. As shown in FIG. 2, when a pipe member is laid in the water in the storage device 12 like a pool, the temperature of the processing tube device can be easily controlled. It is possible to cause the growth of microorganisms such as vegetative bacteria under favorable conditions.
[0020]
Furthermore, when the temperature is low, such as in winter, an environment that allows the action of the growth of microorganisms such as phototrophic bacteria and the action of decomposition of organic matter can be formed by heating the water in the pool. . In the sewage treatment apparatus of the present invention, the water temperature of the pool is maintained by the activity of the phototrophic bacteria by performing the action of proliferation of the phototrophic bacteria as described above inside the pipe member. The environment can be maintained, and even when the processing pipe device is arranged along the bottom of a lake or pond, the same effect as in the case of a pool can be obtained. In the sewage treatment apparatus of the present invention, when the amount of organic matter in the sewage is very large and the amount of sediment is expected to be generated when the sewage is decomposed by the activity of microorganisms, A pretreatment device can be placed between the container and the treatment tube device.
[0021]
As the pretreatment device, for example, inside a large plastic bag-like member is inoculated with treatment materials and microorganisms similar to those disposed in the treatment tube device, and temporary treatment for sewage is performed by growth of microorganisms. To do. Then, by setting the pretreatment device to an arbitrary size corresponding to the amount of sewage, the amount of organic matter in the sewage flowing to the treatment pipe device is reduced, and the inside of the tub may be clogged. Do not. In addition, when the pretreatment device is configured in a bag shape, if a large amount of precipitate accumulates inside, it is easy to remove the bag from the treatment device and separate and treat the precipitate inside. Can be done.
[0022]
In the sewage treatment apparatus of the present invention configured as described above, ceramic members 9 as shown in FIGS. 3 and 4 are accommodated in the pipe member constituting the treatment pipe device. As the ceramic member, for example, an inorganic and porous substance such as zeolite and a porous calcium component such as coral, activated carbon, and magnetic substance are mixed in an arbitrary ratio, and a polysaccharide is used as an adhesive material. , Molded into a spherical shape or any other shape. A magnetic field is preliminarily applied to the ceramic mass to align the magnetic material, but due to the magnetization action, the magnetic material moves to the magnetic pole side inside the ceramic mass, so a void is formed inside. Is done. After performing the above-described treatment, a sintering operation is performed, and the polysaccharides in the ceramic lump are burned by the sintering so that the burning marks of the polysaccharides are formed as small voids. After sintering as described above, a magnetic field is again applied to the ceramic member so as to be porous and have strong magnetism. The ceramic member 9 as described above may be any shape having a spherical shape or a polygonal shape and having a diameter of 2 to 3 cm.
[0023]
When sintering the ceramic member, it can be heated to 500 to 700 ° C. to form a hard member that does not easily break, and does not dissolve in water even when left in water for a long time. Is given. Furthermore, since the ceramic member is about the size of a pebble, even if it is sprayed on the field as it is, it does not become an obstacle to the farming work, and the porous nature of the ceramic member is used to make effective use of the field. Allow the ceramic member to have voids for microbial growth. Further, the ceramic member contains a large amount of calcium components such as coral therein, and the trace mineral and calcium contained in the coral are used for the growth of microorganisms such as symbiotic organic nutrient microorganisms. It is effectively used for the activation of.
[0024]
Then, after the ceramic member is used in the sewage treatment apparatus, a very large number of phototrophic bacteria, symbiotic organic vegetative microorganisms, and decomposition products of the phototrophic bacteria are adsorbed on the surface of the ceramic member or inside the voids. By spraying on agricultural land such as fields, the plant consumes the active ingredients of phototrophic bacteria and precipitates, and then uses the voids left in the ceramic member to propagate the active microorganisms in the soil Can be performed. In addition, when the ceramic member is sprayed on a field or the like, a magnetic field is applied to the microorganisms in the field by the magnetic force of the ceramic member. Can be arranged.
[0025]
As described above, a large amount of the ceramic member 9 is accommodated inside the pipe member 10 and the sewage is allowed to pass through the inside of the pipe member, so that a large amount of phototrophic bacteria gather at the magnetic poles of the magnet of the ceramic member. . That is, for example, phototrophic bacteria have the property of being able to swim freely in water, and in an environment in which a magnetic field acts, it is said to have the property of collecting microorganisms toward the magnetic pole. And, by moving the sewage inside the pipe member, the organic matter is collected on the surface of the ceramic member, and the gas is adsorbed in the gap of the ceramic member, so that the organic matter is decomposed by the activity of the phototrophic bacteria. It can be done in the state. In addition, since the ceramic member accommodated in the pipe line in the apparatus of the present invention is very porous and has a property of adsorbing a large amount of gas in the minute gap inside, air bubbles are introduced into the pipe line. By injecting, air is also adsorbed in the voids of the ceramic member. Therefore, since microorganisms are propagated using such air, the action of decomposing organic matter can be promoted by activating the activities of phototrophic bacteria and symbiotic organic vegetative microorganisms.
[0026]
[Example 3]
When a large amount of organic matter decomposed by the action of microorganisms as described above adheres to the surface of the ceramic member, it is possible to remove the ceramic member from the pipe member and spray the ceramic member directly on the farmland. However, in addition, removing the sediment from the surface of the ceramic member, separating the solid component from the water containing the deposit, and spraying the solid component containing a large amount of microorganisms such as phototrophic bacteria on the farmland You can also. In the sewage treatment apparatus of the present invention, when a large amount of precipitates adheres to the surface of the ceramic member, the precipitates can be removed from the ceramic member using an apparatus as shown in FIGS. 5 and 6, the double pipe member comprising the outer pipe member 24 and the separation pipe 21 is disposed between the pipe members 10 and 10a, and the separation pipe 21 is connected to the driving device 27. Means for rotating through the conduction device 28. The separation pipe 21 arranged inside the outer tube member 24 is formed as a pipe having holes smaller than the diameter of many ceramic members around it using a material resistant to corrosion, such as stainless steel, and a ceramic inside thereof. The inside of the outer tube member 24 is rotated while the members 9 are accommodated. Then, the ceramic members rub against each other to remove the deposit adhered to the surface of the ceramic member, and the removed deposit is discharged from the hole of the separation pipe toward the outer tube member 24.
[0027]
Further, the separation pipe 21 constitutes a connecting portion that allows rotation through the support pipe members 22 and 23 disposed between the pipe members 10 and 10a disposed on both sides and has water-stopping properties. Therefore, even between the support tube members 22 and 23 and the outer tube member 24, a structure that provides water-stopping property can be configured. The precipitate separating device 20 having the above-described configuration can be disposed at any position of the processing tube device, and can be disposed at any position according to the situation where the deposit adheres to the ceramic member. It is possible to constitute an apparatus for removing precipitates from the processing tube apparatus.
[0028]
In addition to the above-described configuration, valves 25 and 26 may be disposed at both end portions of the separation pipe, and a strainer 29 may be disposed as necessary. And in the said precipitate separator 20, when removing a precipitate from a ceramic member, a precipitate can be isolate | separated in the state which closed the both ends of the pipe for separation, but from the said precipitate separator When discharging the sediment, it is preferable to carry out the process while the water is flowing inside the processing tube apparatus. Further, a drain discharge pipe 30 is arranged between the downstream end of the sediment separator 20 and the pipe member 10a, and a plurality of valves 31 to 33 are arranged with respect to the drain discharge pipe 30. It is also possible to send out water containing a large amount of sediment toward the pipe member 10a on the downstream side and to discharge the water from the middle part of the drain discharge pipe 30 to the outside. In addition, the wastewater discharged | emitted outside from the said drain discharge pipe can be sprayed on farmland as it is, or after separating a solid component, it can also be utilized as a fertilizer.
[0029]
Moreover, the said sediment separator 20 can also be comprised as an independent apparatus for isolate | separating a sediment from a ceramic member using only a double pipe, without connecting a pipe member to an upstream / downstream part. . For example, when the precipitate separating device is configured as a single device, in the precipitate separating device 40 shown in FIG. 7, the ceramic member accommodated in the pipe member after the pipe member is removed from the processing tube device. Constitutes a sediment removal means. In the sediment separator 40, the pipe member constituting the separation pipe 41 is constituted by providing a large number of small holes in the same manner as the separation pipe 21, and at both ends of the separation pipe 41. The lid members 42 and 43 that can be opened and closed are arranged so that the ceramic member with deposits is accommodated inside the separation pipe, and the separation pipe 41 is rotated from the motor 46 through the conductive member 47. ing. Further, the container 48 that accommodates the separation pipe 41 accommodates an amount of water that is sufficient to bury the separation pipe, and the washing water is discharged from the discharge valve 49. In order to support the separation pipe inside the container 48, bearing members 44 and 45 are arranged so as to allow rotation of the separation pipe. However, the bearing member may be an arbitrary shaft. It can be constituted by a supporting means.
[0030]
In the precipitate separating device 40 configured as described above, the pipe member is removed from the processing tube device, the ceramic member accommodated in the pipe member is moved to the separating pipe 41, and both ends of the separating pipe 41 are covered. After closing with the member, it is supported by a bearing member arranged in the container and connected to the driving device. Then, the interior of the container is filled with water and the separation pipe 41 is rotated, so that the ceramic members rub against each other and cause the deposits attached to the surface to peel off, and from the surface of the ceramic member The removed precipitate is dispersed in the container through the holes of the separation pipe 41. Therefore, the ceramic member cleaned by the precipitate separation device 40 is returned to the pipe member again, and the ceramic member whose processing performance has been recovered by incorporating the pipe member containing the cleaned ceramic member into the processing tube device is obtained. It can be incorporated into a processing tube device.
[0031]
In addition, as described above, the ceramic member is cleaned with respect to the plurality of pipe members, and the drainage is discharged by opening the discharge valve 49 while the water in the container is sufficiently dirty. Can be sprayed on the field as it is. In addition, the waste water is injected again from a predetermined position of the processing tube device, and the waste water containing a large amount of phototrophic bacteria and symbiotic organic vegetative microorganisms is used to repeat the action of treating organic matter inside the processing tube device. It can also be made. Furthermore, the waste water is separated into solid components using a centrifugal separator and the solid content is solidified and then used as a fertilizer. It is possible to process using a processing method.
[0032]
In addition, since the treated wastewater discharged from the sewage treatment apparatus of the present invention is water that has been completely treated by microorganisms, there is no problem even if it is discharged as it is to a pond or a lake, In particular, components decomposed by microorganisms are effectively used for the growth of chlorella and algae that propagate in lakes and the like. In addition, it is possible to discharge only the supernatant liquid after separating the solid content, and the drainage is effective as a fertilizer component by collecting the separated solid content and drying it and reducing it into the soil. It can also be used.
[0033]
【The invention's effect】
Since the sewage treatment apparatus of the present invention has the above-described configuration, the treatment pipe apparatus can be extended to an arbitrary length, and the pipe member cut to a certain length is connected to the connection pipe member. Since the pipe members constituting the processing tube device are faulty, the pipe members can be removed or replaced. Further, the processing pipe member of the present invention can be embedded in the ground, or laid on the ground, and further laid along the bottom of a lake or pond. Can be built anywhere. And when arrange | positioning in the ground or a water bottom, it becomes possible to maintain the temperature for the growth of a living thing constant, and to exhibit the effect | action of a wastewater treatment in a favorable state. In addition to the above-described effects, the ceramic member accommodated in the pipe member of the processing tube apparatus of the present invention is configured as a porous material having magnetism and adsorbs organic matter by utilizing the large surface area of the ceramic member. The action can be performed in a good state, and a magnetic field is applied to the phototrophic bacteria and symbiotic organic vegetative microorganisms to collect the phototrophic bacteria on the surface of the ceramic member so that the organic substance can be efficiently treated. Can do.
[0034]
Further, in the processing invention, the sewage is pressed against the processing pipe member using a pump or the like, or the sewage is moved inside the processing pipe device by utilizing the water level in the input container. Can do. In addition, by ejecting air from the predetermined position of the processing tube device using the ejection tube member, the fluidity of the sewage inside the processing tube device is improved, and by supplying oxygen, phototrophic bacteria, etc. The activity of microorganisms can be activated. And it is possible to process organic matter contained in sewage by microorganisms such as phototrophic bacteria that grow inside the treatment tube device, and to discharge water that does not contain organic matter from the discharge part container. The remaining precipitate can be removed by washing the ceramic member or the like, and the removed precipitate can be used as a fertilizer by spraying it on a field or the like.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a configuration of a sewage treatment apparatus according to the present invention.
FIG. 2 is an explanatory diagram when the processing tube device of FIG. 1 is accommodated in a pool.
FIG. 3 is an explanatory diagram of a state of a ceramic member housed in a pipe member.
4 is a cross-sectional view of the pipe member of FIG. 3;
FIG. 5 is an explanatory diagram of an example in which a sediment separator is incorporated and disposed in a processing tube device.
FIG. 6 is an explanatory view showing a configuration of two pipe members arranged in the sediment separator.
FIG. 7 is an explanatory diagram showing a configuration of an apparatus for cleaning a ceramic member.
FIG. 8 is an explanatory view showing a configuration of a conventional sewage treatment apparatus.
[Explanation of symbols]
1 wastewater treatment equipment, 3 treatment pipe equipment, 7 discharge part container,
9 Ceramic member, 10 Pipe member, 11 Connection pipe member,
12 housing device, 15 air supply device, 19 ejection pipe member,
20/40 sediment separator, 21/41 pipe for separation,
24 outer pipe member, 30 drain discharge pipe, 50 sewage treatment device,
52 phototrophic bacteria treatment tank, 54 algae culture tank.

Claims (4)

A long pipe-shaped processing pipe device is installed between the sewage input part and the discharge part,
The pipe member constituting the processing tube device is configured using a transparent or translucent material,
Means for supplying light into the processing tube device;
Containing a porous ceramic member having a magnetic field inside the processing tube device;
Inoculating phototrophic bacteria and symbiotic organic vegetative microorganisms inside the processing tube device,
The sewage treatment apparatus characterized in that the organic matter contained in the sewage is treated with the phototrophic bacteria and the symbiotic organic vegetative microorganisms grown in the treatment pipe device with respect to the sewage passing through the inside of the treatment tube device. The ceramic member having a magnetic field to be accommodated inside the processing tube device is composed of an inorganic porous material such as zeolite, a porous calcium component such as coral, activated carbon, and a magnetic material, and a polysaccharide as a binder. Using and mixing, forming into a spherical shape or any other shape lump,
Sintered after applying a magnetic field to the lump of ceramic member, and further magnetized after sintering, configured as a lump of porous and magnetic ceramic member,
2. The sewage treatment apparatus according to claim 1, wherein the sewage treatment apparatus according to claim 1 exerts the action of promoting the activity of phototrophic bacteria and symbiotic organic vegetative microorganisms by utilizing the magnetism of the ceramic member and voids. The processing pipe device is configured by connecting a large number of pipe members via a connecting pipe member, and the processing pipe device is piped underground or in water,
Applying pressure to the processing tube device while feeding the wastewater, and using the pressing action of air injected into the processing tube device to move the wastewater inside the processing tube device The sewage treatment apparatus according to claim 1 or 2. A pipe member having a filter function is disposed as a separation pipe in a part of the pipe member constituting the processing tube device, and means for rotating the separation pipe using a rotation drive device is provided.
4. A separate pipe member is disposed so as to cover the separation pipe, and the precipitate separated from the separation pipe is removed through the separate pipe member. The sewage treatment apparatus according to any one of the above.

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