JPH10128306A - Wastewater purifying system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make maintenance easy and at the same time lower running cost by providing an aeration apparatus for aerating wastewater and a microbial agent charging apparatus for charging a microbial agent to wastewater and driving the aeration apparatus and the microbial agent throwing apparatus while using natural energy as a main driving source. SOLUTION: A water flow inlet 2 of a water flow channel 1 is set at higher position than a water discharge outlet 2 and at the same time, the route bottom of the water flow channel 1 is roughened to make water flow uneven and oxygen intake from air is made possible. An aeration means of an aeration apparatus building 6 and a microbial agent throwing apparatus housed in a hut 7 different from the aeration apparatus building 6 are driven by electric power of a wind power generator 5 installed in the aeration apparatus building 6. Such a wastewater purifying system carries out microbial agent supply and aeration in a natural water flow channel 1 or a water flow channel 1 artificially produced to be almost natural and further the system increases the contact surface area of water and air. Consequently, the water flow channel 1 has not only self-cleaning function of water but also wastewater purification- promoting function, and thereby wastewater purification is carried out.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater purification system, and more particularly to a wastewater purification system which is easy to manage using natural energy and a microbial agent, has a low operating cost, and is more efficient.

[0002]

2. Description of the Related Art Due to various human activities, phosphorus,
The eutrophication caused by ponds, lakes and marshes, slow-flowing rivers, drainage channels, etc., caused by large amounts of wastewater containing nutrients such as nitrogen and organic matter flowing into natural water systems, can cause algae and higher plants to become harmful. Growth causes environmental deterioration such as a shortage of dissolved oxygen, and has a great effect on other organisms. Furthermore, some algae, such as the blue-green algae that make up blue-green algae, have a bad influence on the surrounding environment due to their unique odor.

[0003] Attempts to solve the problems caused by such eutrophication have been made conventionally,
Specifically, Japanese Utility Model Publication No. 5-80599 discloses a device for purifying water by performing aeration using natural energy as a main driving force in a closed system such as a lake or the like.
No. 30558, a method for purifying water in which aeration is performed by a water turbine driven by wind power,
No. 5259, water treatment means for sewage and gray water, a water quality improvement device for taking water from a pond or lake and improving the water, and running water for connecting the means or device to a pond or lake A water reforming system combined with a road can be mentioned.

[0004] In addition to these methods, a method of introducing useful microorganisms into lakes and rivers to improve the water quality by decomposing and removing organic substances in wastewater by microorganisms, for example, a method using mutant bacteria (Japanese Patent Application Laid-Open No. 62-49999), a method using an aerobic microorganism (Japanese Patent Application Laid-Open No. 7-60278).
And microbial materials used in these methods (Japanese Unexamined Patent Publication No.
7297, JP-A-7-241585, and JP-B-7-115029).

[0005] However, all of the above have problems in that capital investment, operation and management are costly, and wastewater cannot be purified efficiently.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and has as its object to provide a more efficient wastewater purification system which is easy to manage, has a low operating cost, and has a low operating cost.

[0007]

Means for Solving the Problems In order to solve the above problems, the present inventors have repeatedly studied a wastewater purification system. As a result, the wastewater purification system was made to be an open system having a flowing water channel, and this system was provided with natural energy. By incorporating a device for performing aeration with the main drive source and a device for introducing microbial preparations, it was found that the wastewater purification system can be easily managed, the operating cost is low, and more efficient wastewater purification can be performed. Completed.

[0008] That is, the present invention is an open system wastewater purification system having a flowing water channel, comprising: an aeration device for aerating wastewater; and a microorganism preparation feeding device for feeding a microorganism preparation into wastewater. The aeration device and the microbial agent input device are wastewater purification systems that use natural energy as the main driving source.

The term "drainage" as used herein generally includes nutrients such as phosphorus, nitrogen, and organic matter that flow into or into ponds, lakes, or the sea from rivers, drainage channels, and the like. Water that can cause eutrophication in harbors, inland seas, slow-flowing rivers, drainage channels, etc., or the increase in biomass in water that has already been eutrophic, or the mineralization of organic matter ( This refers to water that needs to be purified, such as water with insufficient dissolved oxygen, which causes an increase in the amount of respiratory oxidation by living organisms, and consumes excess dissolved oxygen compared to the supply of oxygen into the water.

In the wastewater purification system of the present invention, it is preferable to provide a means for increasing the contact area between the wastewater and the air in the flowing water channel from the viewpoint of wastewater purification efficiency. Specific examples of the means include means for meandering the flow channel, providing unevenness at the bottom of the flow channel, and providing a stepped step at the bottom of the flow channel.

Further, in the wastewater purification system of the present invention, it is preferable that the inflow port of the flowing water channel is provided at a position higher than the drainage port so that natural fall can be utilized. Hereinafter, the present invention will be described in detail.

In the waste water purification system of the present invention, the waste water purification system is an open system having a flowing water channel, in which an aeration device and a microbial preparation introduction device are incorporated, and natural energy is used as a main drive source of each of the above devices. It is a drainage purification system characterized by the above. Hereinafter, the aeration apparatus and the microbial preparation input apparatus used in the system of the present invention, and the entire wastewater purification system will be described.

(1) Aeration device The drainage purification system of the present invention includes an aeration device using natural energy as a main driving source. Aeration is a technique generally used for various wastewater treatments.By incorporating this aeration into the wastewater purification system of the present invention, it becomes possible to increase the amount of dissolved oxygen in the wastewater in the dissolved oxygen-deficient state, In addition, it is possible to suppress anaerobic fermentation that occurs from an anoxic state that is likely to occur at the bottom of a deep water channel. Furthermore, in the wastewater purification system of the present invention, the microorganism preparation is introduced into the wastewater. By combining this with aeration, the microorganisms in the introduced microorganism preparation can be more activated in the wastewater.

The aeration device in the wastewater purification system of the present invention has an aeration unit and a driving source mainly using natural energy. The aeration means in the aeration apparatus can be the same as the aeration means used in a normal wastewater purification system. As the means of aeration, specifically, a high-pressure blower, an air compressor or the like and a porous diffuser plate, a porous diffuser tube, etc. are combined to directly form air bubbles in water, or a propeller is rotated. Aeration means by mechanical stirring, such as generating a wave by creating a certain water flow, and the like can be given.

In the aeration apparatus used in the wastewater purification system of the present invention, natural energy is used as a main driving source for any of the above-described various means. Examples of the natural energy used include normally used natural energy, for example, solar energy, wind energy, water falling energy, and the like. In the wastewater purification system of the present invention, these energies are preferably used to drive an aeration device as electric power by a commonly used device such as a solar power panel, a wind power generator, or a hydraulic power generator.

As described above, when natural energy is used as electric power to drive the aeration device of the wastewater purification system of the present invention, the aeration device is a device for converting natural energy into electric power, for example, as described above. It has a generator and a battery if necessary. Since the supply amount of the natural energy is easily influenced by the place where the generator or the like is installed, season, weather, and the like, by providing a battery in the aeration device, if there is surplus electric power from the natural energy, Can be used when the power supplied from natural energy is insufficient for driving the aeration device, and long-term stable operation can be expected.

Further, in the aeration apparatus of the waste water purification system of the present invention, in order to secure a certain or more drive source,
If necessary, a mechanism capable of linking with a commercial power supply may be used. The aeration device of the wastewater purification system of the present invention may also include an aeration unit and a unit for controlling a driving source as necessary.

(2) Microbial preparation loading device The wastewater purification system of the present invention includes a microbial preparation loading device using natural energy as a main driving source. In an open drainage purification system having a waterway such as the wastewater purification system of the present invention, microorganisms that utilize nutrients in the wastewater in the waterway naturally increase, and the wastewater is purified to some extent by these microorganisms. Since sufficient water purification ability cannot be obtained by the microorganisms alone, microorganisms effective for wastewater purification are artificially cultured as necessary and introduced into the wastewater as a preparation containing the microorganisms. Typically, BOD, C
It is possible to improve the removal rate of OD, TN (total nitrogen), TP (total phosphorus), and the like.

First, the microorganism preparation containing the above-mentioned microorganisms, which is introduced into the wastewater by the microorganism preparation introduction device in the wastewater purification system of the present invention, will be described. The microorganisms contained in the microbial preparations are not particularly limited as long as they are effective microorganisms for wastewater purification.Specifically, microorganisms having high resolution of organic substances and natural increase similar to those used in ordinary wastewater purification systems are used. Microorganisms that can improve the biota of the formed ecosystem can be mentioned.

As typical examples of the microorganisms used in the above-mentioned ordinary wastewater purification system, about 2000 kinds of aerobic microorganisms used under the aerobic condition in the activated sludge method for sewage treatment, and the above-mentioned activated sludge Anaerobic microorganisms such as methane bacteria, sulfate-reducing bacteria, photosynthetic bacteria, lactic acid bacteria, and yeast used in the treatment of sludge produced by the sewage treatment, the treatment of pulp mill wastewater, and the treatment of alcohol distillation wastewater. Among such microorganisms, microorganisms suitable for each environment in the wastewater purification system of the present invention can be appropriately selected and used.

Among such microorganisms, the microorganism used in the wastewater purification system of the present invention is more specifically,
Microorganisms belonging to actinomycetes, for example, Streptomyces
sp (Streptomyces sp.) (ATCC 3004), Streptoverticillium sp.
(ATCC 23654), Nocardia sp.
(ATCC 19247), Micromonospora, sp (Micromonos
pora sp.) (ATCC 12452), Rhodococcus sp (Rhod
ococcus sp.),

Microorganisms belonging to photosynthetic bacteria, for example, Rhodopseudomonas sp. (R. sp.
haeroides), Rhodospirillum sp (Rhodospirillum)
sp.) (R.fulum), Chromatium sp (Chromatium)
sp.) (C. okenii), Chlorobium sp.
sp.) (C. limicola),

Microorganisms belonging to lactic acid bacteria (lactic acid-producing bacteria), for example, Lactobacillus sp.
FO 3070), Propionibacterium sp (Propionib
acterium sp.) (P.freudenreichii), Pediococcus sp. (P. halophilus), Streptococcus sp. (S.lacti)
s, S.faecalis),

Microorganisms belonging to filamentous fungi, for example, Aspergillus sp. (RIFY 5770, RIFY 50
24), Mucor sp (Mucor sp.) (IFO 8587), a microorganism belonging to yeast, for example, Saccharomyces sp.
(Saccharomyces sp.) (NRRL1346, Y977), Candida sp. (C. utilis) and the like.

The microorganisms used in the wastewater purification system of the present invention can be obtained from soil or the like by a usual method. Furthermore, in the wastewater purification system of the present invention,
Usually, the microorganism thus obtained is artificially cultured by a general method and used. In culturing, a medium and culture conditions suitable for each microorganism are appropriately selected.

In the wastewater purification system of the present invention, a culture obtained by artificially culturing microorganisms as described above can be used as a microbial preparation as it is. It is also possible to make up the formulation. Alternatively, a processed product such as a dried product may be used as a microorganism preparation. Furthermore, in consideration of the operability at the time of introduction into water and the sedimentation and diffusion properties of microorganisms after introduction, it is also possible to use a composition containing the microorganisms and the like together with various carriers and other optional components as a microorganism preparation. is there. That is, in the present specification, the term “microbial preparation” is used as a concept including all of the above-mentioned culture, microorganisms separated from the culture, processed products thereof, and compositions containing them. The dosage form of the microbial preparation is not particularly limited.

In the wastewater purification system of the present invention, the above-mentioned microorganism preparation is introduced into wastewater by a microorganism preparation introduction device. The microbial preparation input device provided in the wastewater purification system of the present invention is characterized by using natural energy as a main driving source, similarly to the aeration device. Usable natural energy is the same as that of the aeration apparatus described above, and a device that converts natural energy into electric power or the like, for example, a generator or the like can be shared with the aeration apparatus.

In a wastewater purification system in which a microbial preparation is charged, the microbial preparation is usually charged into water at regular intervals.
It has a mechanism that can periodically supply the same amount of cultured microbial preparation. A specific example of the microbial preparation input device having such a mechanism is a microbial preparation input device that uses natural energy as a main driving source and has a microbial preparation storage tank, a timer, a measuring instrument, and an inlet. The arrangement and operation of each member can be the same as those of automatic injection devices for various preparations and the like generally used in various fields.

In addition, when the microorganism preparation to be introduced is a dry powder, if it is introduced into the wastewater as it is, it floats on the water surface,
The wastewater may flow out of the system without purification as it is, or it may take a long time to activate even if it is fixed in the system. Is preferably mixed. Therefore, if necessary, the microbial preparation input device can include a stirrer and a stirrer for mixing and stirring water and the microbial preparation. If the microorganisms used are aerobic microorganisms, it is possible to mix the water with the water before injection so that the mixture or liquid mixture can contain sufficient air, thereby supplementing the oxygen required when the microorganisms are active after injection. Can be.

The water used for mixing with the microbial preparation may be water obtained by feeding wastewater flowing through a flowing water channel into a microbial preparation input device (stirring tank) or water obtained by other means. Is also good. Preferably, wastewater flowing through a flowing water channel is used. In this case, a means for feeding the wastewater from the flowing water channel to the stirring tank of the microorganism preparation introducing device, for example, a pump or a water pipe is required.

Further, since the above-mentioned device for feeding a microbial preparation uses natural energy as a main driving source of the device for feeding a microbial preparation, it can be installed on a float and floated on the water surface. For example, in a place where the width of the water channel is wide, by using the microbial agent input device installed on the float as described above, it is possible to perform the input of the microbial agent at the center of the water channel, which is advantageous for drainage purification. Become. In addition, if the installation position of the microorganism preparation containing an aerobic microorganism and the installation position of the aeration device are the same, it is possible to further enhance the activity of the aerobic microorganisms introduced into the wastewater. In this case, the aeration means in the aerator is preferably mechanically stirred.

(3) Waste Water Purification System of the Present Invention The waste water purification system of the present invention is an open waste water purification system having a flowing water channel, and is characterized by being provided with the aeration device and the microorganism preparation input device.

In the wastewater purification system of the present invention, the flowing water channel may be artificial or natural, and there is no limitation on the number. There are no restrictions on the number of aeration devices and the microbial agent input devices and the installation locations incorporated in the wastewater purification system of the present invention. The number of installations and the installation locations of the respective devices depend on the drainage purification capacity of the respective devices, but are appropriately selected in consideration of the state of the treated wastewater, the form of the flowing water channel, and the like. At the same time, purification is performed at least to the extent that these problems do not occur in water areas where the flow of drainage water is slow and dissolved oxygen tends to be insufficient in running water courses, and in water areas where the water near the road bottom tends to be anoxic in large depth running water courses. It is preferable in terms of management of the wastewater purification system of the present invention to install the above-mentioned device having the ability, particularly an aeration device.

Since the wastewater purification system of the present invention is an open system having a flowing water channel, the wastewater has an opportunity to come into contact with air to dissolve oxygen as compared with a closed system water body, whereby the wastewater is purified. In addition, the wastewater purification capacity of the system has been greatly improved by further incorporating the aeration device and the microorganism preparation input device.However, in order to further increase the amount of dissolved oxygen in the wastewater, In order to further promote the purification of wastewater, it is preferable that the water channel has means for increasing the contact area between the drainage and the air.

As means for increasing the contact area between the drainage and the air in the flow channel, concretely, the flow path has a meandering path, the bottom of the flow channel has irregularities, and a step-like step is provided at the bottom of the flow channel. And the like. In addition, as a specific method of providing unevenness on the bottom of the running water channel, a method such as exposing the soil of the running water channel without performing three-faced concrete, or additionally installing gravel, charcoal, etc. on the bottom of the running water channel. Is mentioned. In the case of three-faced concrete, the concrete at the bottom of the running water channel may be provided with appropriate irregularities. Here, in the drainage purification system of the present invention, when concrete is not applied to the flowing water channel, it is preferable to take measures for increasing the strength of the flowing water channel such as adjusting vegetation along the flowing water channel.

In the same manner as described above, a step-like step is provided at the bottom of the water channel, a method of providing a step at the bottom of the water channel using gravel, charcoal, etc. A method of forming a step and making a step is exemplified. When the bottom of the water channel is stepped, it is also possible to design such that hydroelectric power generation using the energy of falling water can be performed, for example, by increasing the step (height difference) of the steps. The electric power obtained here is used as a driving source for a microorganism preparation input device and an aeration device.

The wastewater purification system of the present invention may be deployed horizontally without any difference in elevation. In such a case, the wastewater purification system of the present invention is an open system having a flowing water channel, so that the wastewater flows. Therefore, a driving source such as a pump is required.
However, in the drainage purification system of the present invention, it is preferable that there is a height difference in the entire flowing water channel in order to provide a stepped step at the bottom of the flowing water channel as described above. Although it is also possible to pump water to a high position with a pump or the like in order to make a difference in height, if the inlet of the flowing water channel is provided at a position higher than the drain, the drainage in the entire drainage purification system of the present invention will be described. The driving source of the flow can be covered mainly by the energy of natural fall, which is preferable. Also in this case, pumping or running water can be performed using a pump or the like as necessary.

The water area to which the waste water purification system of the present invention is applied is not particularly limited as long as it is a water area where waste water requiring purification is present.
Lakes, marshes, harbors, inland seas, slow flowing rivers,
A water area in which eutrophication occurs, such as a drainage channel, or a water area in which eutrophication may occur, may be mentioned. The drainage purification system of the present invention uses a natural waterway such that the self-cleaning action of water works or artificially creates a waterway that is close to nature, and inputs and aerates the microbial agent in this waterway, and furthermore, By designing the flow channel so that the contact area between water and air increases, the flow channel has been given the ability to promote the purification of wastewater in addition to the self-cleaning action of water. It is possible to do.

Also, in the wastewater purification system of the present invention, the input and aeration of the microbial preparations are mainly driven by natural energy, and the design of the flowing water channel utilizes the height difference of nature. It ’s easy to manage,
It is efficient.

[0040]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a diagram illustrating an external appearance of an example of an embodiment of an open system wastewater purification system having a flowing water channel according to the present invention. The drainage purification system shown in FIG. 1 has a flowing water channel 1, and an inlet 2 of the flowing water channel 1
At a higher position. As shown in FIG.
Is meandering without concrete upholstery. Although not shown in the figure, gravel is laid on the bottom of the running water channel so that the bottom of the channel becomes uneven, and a mechanism is adopted to take in oxygen in the air by adding strength to the flow. In this drainage purification system, the aeration apparatus building 6 has a solar power generation panel 4, a wind power generator 5, and an aeration unit, and the aeration unit is operated using electric power generated by the generator as a driving source. The microbial preparation introduction device is housed in a dedicated hut 7 separate from the aeration device building 6, and is operated by electric power transmitted from the aeration device building 6.

FIG. 2 is a diagram schematically showing an aeration apparatus in an example of the embodiment of the waste water purification system of the present invention. The driving source in the aerator shown in FIG.
A wind power generator 5 and a photovoltaic power generation panel 4 that are power from natural energy and convert natural energy into electric power, and further include a boost converter 8 of the power obtained by the wind power generator 5, a photovoltaic power generation panel 4 includes a connection unit 9 for connecting the transmission line from the wind power generator 5 to the transmission line from the wind power generator 5, and a battery 10 for storing surplus power.

The above-described aeration device is provided with an intake port 1 as aeration means.
1 and a high pressure blower 12 for forcibly taking in air from the intake port 11 and an aeration pipe 13 serving as an exhaust port for air sent from the high pressure blower 12. The aeration pipe 13 is installed in drainage requiring aeration as shown in FIG.

The drive source for the high-pressure blower 12 is supplied from the wind power generator 5 via the boost converter 8 and / or from the photovoltaic panel 4 via the connection unit 9 and, if necessary, from the battery 10. Power transmitted through the machine 16 and the wiring breaker 17, the power being the speed control package 14, the variable frequency inverter 15
Is controlled by

The results of a 90-day aeration test using a 3 kW solar panel as the solar panel of the aeration apparatus shown in FIG. 2 and a 2.7 kW wind generator as the wind generator are shown. , The average air input is 25
0 m ³ / day, and a maximum of 1000 m ³ / day.

[0045]

According to the waste water purifying system of the present invention, it is possible to purify the waste water more easily, with low operating costs and more efficiently.

[Brief description of the drawings]

FIG. 1 is a diagram showing an appearance of an example of an embodiment of a wastewater purification system of the present invention.

FIG. 2 is a diagram schematically showing an aeration apparatus using natural energy as a main driving source in an example of the embodiment of the wastewater purification system of the present invention shown in FIG.

[Description of Signs] 1 ··· Flowing water channel 2 ··· Inflow port 3 ··· Drainage port 4 ··· Solar power panel 5 ··· Wind power generator 6 ·· · Aeration equipment building 7 ·· · Microorganism input device hut 8 ··· Boost converter 9 Connection unit 10 Battery 11 Inlet 12 High pressure blower 13 Aeration pipe 14 Speed control package 15 Variable frequency inverter 16 Magnetic contactor 17 Wiring cutoff vessel

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Yusiko Kuroda 1-19-9 Tsutsumori, Sumida-ku, Tokyo Inside NEC Seiki Co., Ltd. (72) Inventor Tatsuro Mizutani 1-119, Tsutsumori, Sumida-ku, Tokyo No. 9 NEC Seiki Co., Ltd.

Claims (4)

[Claims] 1. An open system wastewater purification system having a water channel, comprising: an aeration device for aerating wastewater; and a microorganism preparation input device for introducing a microbial preparation into the wastewater. The microbial preparation input device is a wastewater purification system that uses natural energy as the main driving source. 2. The system according to claim 1, wherein a means for increasing a contact area between the drainage and the air is provided in the flowing water channel.
Wastewater purification system as described. 3. The drainage purification system according to claim 2, wherein said means is selected from meandering of a flowing water channel, unevenness of a flowing water channel bottom, and installation of a step-like step on the flowing water channel bottom. 4. The drainage purification system according to claim 1, wherein an inflow port of the flow channel is provided at a position higher than the drain port.