KR200468087Y1 - Sewage recycling device comprising pipe screw type nanobubble generator and impeller type nanobubble generator - Google Patents

Abstract

The present invention sequentially adds a membrane filter, a screen filter, a carbon filter, an ultraviolet sterilization lamp, and a treatment tank equipped with a screw-type nanobubble generator and an impeller-type nanobubble generator to a water collecting tank into which treated water flows through the village sewage treatment facility. This expands the range of nanobubbles to the entire treatment tank and improves water quality for suspended solids (SS), dissolved oxygen (DO), biochemical oxygen demand (BOD), chemical oxygen demand (COD), and coliform bacteria. It is intended to improve.
In addition, by using the present invention in small rural areas to prevent water pollution of the small rivers, recycling the treated water through the village sewage treatment facilities to supplement the insufficient water resources, prevent the drying of the stream, as well as the agricultural land fertilizer It is intended to be supplied as a component.

Description

Sewage recycling device comprising pipe screw type nanobubble generator and impeller type nanobubble generator

The present invention relates to a sewage recycling apparatus, and more particularly, suspended carbon (Suspended Solids, SS) by adding a carbon filter, a membrane filter, and a screen filter to an ultraviolet germicidal lamp and a pipe screw type nanobubble generator, one of the existing water treatment devices. ), Dissolved oxygen (DO), biochemical oxygen demand (Biological Oxygen Demand, BOD), chemical oxygen demand (COD), and coliform (Total Coliform) Instead of discharging the village sewage after the treatment process to nearby rivers, supplying it to farmland irrigation water and fertilizer components, and adding an impeller-type nanobubble generator to the sewage recycling system that extended the range of nanobubbles to the entire treatment tank. It is about.

Conventional sewage treatment methods generally use physical methods such as sieving and sedimentation of suspended solids contained in sewage, sedimentation and dissolving of soluble impurities using the power of microorganisms. There is a method of treating sludge, a method of using a flocculant to accelerate the precipitation, and various kinds of equipments are used according to the nature and throughput of sewage.

However, the treated water after the sewage treatment was discharged to the stream of the village without any recycling means. This is a problem of recycling of the treated water.

On the other hand, pipe screw type nanobubble generators have been used to improve the quality of existing freshwater and offshore cage farms and onshore farms. This is achieved by increasing the amount of dissolved oxygen in the nanobubble treated water during the nanobubble contact with the water. It improves the growth of fish without the use of additional antimicrobial or antibiotics, and it can decompose harmful chemicals by powerful chemical reaction of hydroxyl (OH) radicals caused by UV rays.

However, the pipe screw type nanobubble generator alone has a problem in that the application range of the nanobubble does not reach the entire treatment tank as well as the water quality improvement effect is somewhat reduced.

The present invention has been devised to solve the above problems, by installing a sewage recycling apparatus in a small village treatment facility, to provide the treated final discharged water as a recycling means.

In addition, by applying the pipe screw type nanobubble generator and impeller type nanobubble generator to small scale sewage recycling apparatus to provide an extension of the operation range of the nanobubble to the entire treatment tank.

In addition, membrane filters, screen filters, and carbon filters are added to the nanobubble generator and UV disinfection device, so that dissolved oxygen (DO), biochemical oxygen demand (BOD), chemical oxygen demand (COD), and suspended solids (SS) and It is intended to provide an improvement in the effect of water quality on E. coli.

In order to solve the above problems, the present invention, the water collecting tank 100 is introduced into the water to be treated through the sewage treatment facility; A membrane filter 110, a screen filter 120, and a carbon filter 130 in which the water to be treated is introduced and purified from the water collecting tank 100; An ultraviolet germicidal lamp 140 in which the treated water purified from the membrane filter 110, the screen filter 120, and the carbon filter 130 is introduced and sterilized; The treatment sterilized by the ultraviolet sterilization lamp 140 is introduced into the treated water tank 200 is purified by the nanobubble, the treatment tank 200, pipe screw type nano bubble generator 201 and impeller type nano It provides a sewage recycling apparatus, characterized in that the bubble generator 210 is located.

The screen filter 120 may be an automatic screen filter.

It may be preferable that the inflow pump 101 is positioned in the collection tank 100 so that the water to be treated introduced from the collection tank 100 is supplied to the membrane filter 110.

The treated water purified by the nanobubbles in the treatment tank 200 may be preferably supplied with fertilizer components of farmland as well as supplementation of irrigation water lacking farmland.

The membrane filter 110 may have a diameter of 10 to 20 μm, the screen filter 120 has a diameter of 30 μm, and the intensity of the ultraviolet germicidal lamp 140 may be 28W.

As described above, by applying the pipe screw type nano bubble generator and the impeller type nano bubble generator can extend the working range of the nano bubble to the entire treatment tank, it can bring a high treatment effect.

Also. As shown in Figure 2 by adding a membrane filter, screen filter, carbon filter to the nanobubble generator and UV disinfection apparatus, dissolved oxygen (DO), biochemical oxygen demand (BOD), chemical oxygen demand (COD) as well as suspended solids (SS) ) And the effect of water quality improvement on E. coli bacteria.

In addition, replacing the screen filter with an automatic screen filter can reduce the effort and cost incurred in maintaining and maintaining the screen filter.

In addition, by using the present invention as a small village sewage recycling treatment device in rural areas, the discharged water quality is improved to prevent small river water pollution, and by recycling the treated water that has passed through the village sewage treatment facility, the replenishment of scarce water resources and the prevention of dryness of the river It can be supplied as fertilizer in agricultural land.

1 is a block diagram of a sewage recycling apparatus according to the present invention,
Figure 2 is a graph showing the water quality improvement effect generated by the present invention compared before and after treatment.

The present invention relates to a sewage recycling apparatus for treated water that has passed through a village sewage treatment facility, but it can be used as a sewage treatment device or a fresh water treatment device through an appropriate pretreatment process, and the following description limits the scope of the invention. no.

Sewage recycling treatment apparatus according to the present invention is a collection tank 100, membrane filter 110, screen filter 120, carbon filter 130, UV sterilization lamp 140, treatment tank 200, piping screw type nanobubble A generator 201 and an impeller type nanobubble generator 210 are included.

Description of each component

The treated water that has passed through the village sewage treatment facility introduced from the sump 100 is supplied to the membrane filter 110, the screen filter 120, and the carbon filter 130 using the inflow pump 101 to be purified.

The membrane filter 110 may replace the micro filter, and may remove contaminants such as heavy metals, virus ions, and microorganisms from water or oil.

The screen filter 120 serves as a means for removing miscellaneous contaminants in various wastewaters, thereby preventing water pollution of the discharge water surface, protecting machinery such as pumps, and preliminary treatment of inflow by installing a screen in a passage through which water flows.

In one embodiment, an automatic screen filter may be used. The automatic screen filter is to overcome the disadvantage that maintenance is very difficult when the filter, which is a problem of the screen filter, is continuously accumulated and the filter needs to be cleaned or replaced. It is used to eliminate the difficult cleaning and replacement of the filter and to make the screen filter easy and convenient to use for a long time with its simple installation and relatively low cost.

The carbon filter 130 has a nonwoven fabric, and includes a filter body in which graphite powder pulverized by an ultra fine grinding method is adhered to the nonwoven fabric through an adhesive, thereby removing particulate matter and adsorbing organic contaminants. Plays a role.

The purified water is introduced into the ultraviolet sterilization lamp 140 from the carbon filter 130.

The ultraviolet sterilization lamp 140 transmits ultraviolet rays to the discharged water finally discharged to the river or river through the sewage treatment plant to extinguish various pathogens and bacteria contained in the discharged water. It is a disinfection device that can prevent discharge and pollute the drinking water source.

The water to be purified from the ultraviolet sterilization lamp 140 flows into the treatment tank 200 in which the pipe screw type nano bubble generator 201 and the impeller type nano bubble generator 210 are installed.

The impeller type produces a nanobubble while the impeller-shaped propeller rotates, and the pipe screw method generates a nanobubble using rotational power while supplying a certain amount of air to the influent by pump power.

Explanation of How It Works

Hereinafter, a sewage treatment method according to the present invention will be described with reference to FIG. 1. The treated water that has passed through the village sewage treatment facility is introduced into the water collecting tank 100, and introduced into the membrane filter 110, and contaminants such as heavy metals and virus ionic components microorganisms are removed by the membrane filter 110, and then the screen By removing the miscellaneous contaminants mixed by the filter 120, it is possible to prevent water pollution of the discharge water surface, to protect machinery such as pumps, and to pretreat inflows.

Thereafter, the carbon filter 130 filters small particles of impurities, turbidity, chlorine, volatile organic compounds, and parasites. Thereafter, ultraviolet rays are transmitted through the ultraviolet sterilization lamp 140 to extinguish various pathogens and bacteria contained in the discharged water.

The UV sterilized water is introduced into the treatment tank 200 and the amount of dissolved oxygen in the aeration process is caused by the action of the nanobubbles generated by the pipe screw type nanobubble generator 201 and the impeller type nanobubble generator 210. Increasing the gas delivery rate through the increase significantly improves the decomposition rate of organic matter in the sewage, and the action of the nanobubble compared to the use of the pipe screw type nanobubble generator (201) alone through the addition of the impeller type nanobubble generator (210) By increasing the range, the working range of nanobubbles is extended to the entire treatment tank.

In addition, when the screen filter 120 is replaced by an automatic screen filter, it is possible to reduce the effort and cost for maintenance and repair.

If the diameter of the membrane filter 110 10 ~ 20㎛, screen filter 120 30㎛, UV sterilization lamp 140 of 28W through a number of experiments, the sewage recycling treatment device is suitable for small towns It is confirmed that the results are shown in FIG.

In addition, in the case of the water to be discharged from the treatment tank 200, phosphorus (P) and nitrogen (N) components are included. Phosphorus and nitrogen are used as fertilizers in the soil, so the treated water is supplied to the farmland, and as a result, the treated water that has passed through the village sewage treatment facility can be recycled into the farmland rather than just a stream discharge.

100: sump tank
101: inflow pump
110: membrane filter
120: screen filter
130: carbon filter
140: UV germicidal lamp
200: treatment tank
201: Piping screw type nano bubble generator
210: impeller type nano bubble generator

Claims (5)

A water collecting tank 100 into which the water to be treated which has passed through the sewage treatment facility is introduced;
A membrane filter 110, a screen filter 120, and a carbon filter 130 in which the water to be treated is introduced and purified from the water collecting tank 100;
An ultraviolet germicidal lamp 140 in which the treated water purified from the membrane filter 110, the screen filter 120, and the carbon filter 130 is introduced and sterilized;
Including the treated water tank 200 is sterilized by the ultraviolet light sterilization lamp 140 is purified by the nano-bubble,
One side of the treatment tank 200 is connected to the pipe screw type nano bubble generator 201 for circulating the sterilized water to be treated,
An impeller-type nanobubble generator 210 is inserted in the vertical direction to the sterilized to-be-processed water located inside the treatment tank 200,
The pipe screw type nanobubble generator 201 and the impeller type nanobubble generator 210 are operated at the same time, characterized in that for increasing the operating range of the nanobubble generated in the sterilized treated water,
Sewage recycling system.
The method of claim 1,
The screen filter 120 is characterized in that the automatic screen filter,
Sewage recycling system.
3. The method according to claim 1 or 2,
Characterized in that the inflow pump 101 is located in the water collecting tank 100 is supplied to the membrane filter 110, the treated water introduced from the water collecting tank 100,
Sewage recycling system.
3. The method according to claim 1 or 2,
The treated water purified by the nanobubbles in the treated tank 200 is characterized in that it is supplied to the farmland as a farmland fertilizer component,
Sewage recycling system.
5. The method of claim 4,
Diameter of the membrane filter 110 is 10 ~ 20㎛, the diameter of the screen filter 120 is 30㎛, characterized in that the intensity of the UV germicidal lamp 140 is 28W,
Sewage recycling system.

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