KR100377866B1 - Media used for sewage disposal - Google Patents

Abstract

The present invention is a media (Media, also known as 'media') that is put into the aeration tank of the wastewater treatment apparatus, such as a washing tower or a combined purification tank used to purify wastewater or sewage, such as livestock wastewater, industrial wastewater and domestic wastewater. }.

The present invention is a crushing process of grinding sandstone and mudstone (aka mudrock) among sedimentary rocks, a stirring process of mixing the crushed sandstone powder and mudstone powder together with water to make a mixture, the mixture is fixed It provides a media made through a molding process for forming a molding by molding into a shape, a cutting process for cutting the molded product to a constant size, a drying process for drying the molded product cut to a constant size, and a firing process for firing the dried molding.

The media of the present invention made as described above is composed of sandstone and mudstone among natural materials, that is, sedimentary rocks, which can prevent contamination of wastewater caused by median, as well as a large amount of microorganisms that can be adhered to and survive and grow. It plays a role as a mediator.

Description

MEDIA USED FOR SEWAGE DISPOSAL}

The present invention is applied to the aeration tank of the wastewater treatment apparatus, such as a washing tower or a combined purification tank used to purify and purify wastewater or sewage, such as livestock wastewater, industrial wastewater and domestic wastewater. }).

In general, the media is a medium that is put into aeration tanks of wastewater treatment devices such as washing towers or combined purification tanks to purify livestock, industry, and domestic wastewater, and serves to attach and survive microorganisms.

As described above, the microorganisms attached to the media installed in the aeration tank decompose the organic matter contained in the wastewater that passes through the aeration tank, thereby reducing the BOD (Biological Oxygen Demand), that is, reducing the biological oxygen demand.

Conventionally, in order to achieve the above object, a method of making a media such as a waste tire, a sponge, or a synthetic resin into particles of a certain size, and then injecting the media into an aeration tank or putting a media into a mesh made of a certain shape and size, and then into an aeration tank. Has been used.

However, the conventional media used and made as described above have a problem that the wastewater passing through the aeration tank in which the media is installed is contaminated by the media because the material is made of waste tires, sponges or synthetic resins.

That is, because the media is made of a material containing harmful chemicals such as waste tires, sponges or synthetic resins, when the wastewater passes through the aeration tank, the harmful components contained in the media pollute the wastewater once more.

In addition, waste tires and synthetic resins, which have been used as media in the past, have a problem in that their surface is smooth and microorganisms are attached to survive and grow. Therefore, in the case of sponges, micropores are formed in the sponges themselves so that microorganisms are attached. Although the specific surface area can be large, there is a problem that must be replaced frequently because it is easily broken or damaged.

The present invention has been invented to solve the problems of the conventional media as described above.

In order to solve the above problems, the present invention provides a natural material, that is, a media consisting of sandstone and mudstone among sedimentary rocks.

The present invention is a grinding process of crushing sandstone (sandstone) and mudstone (aka mud rock) of sedimentary rocks into sandstone powder and mudstone powder, stirring the crushed sandstone powder and mudstone powder and water to make a mixture Process, forming process by molding the above mixture into a certain shape to make a molding, cutting process to cut the molded product to a certain size, drying process to dry the molded product cut to a certain size, and firing process to fire the dried molding Lose the media.

Figure 1 is a process diagram showing the process of making the media of the present invention

Hereinafter, the process of making the media of the present invention together with the accompanying drawings will be described in detail.

As shown in FIG. 1, the median of the present invention is a crushing process (S1) of crushing sandstone and mudstone in sedimentary rocks to form a sandstone powder and mudstone powder of a predetermined size, and mixing the crushed sandstone powder and mudstone powder and water in a predetermined ratio. Stirring step (S2) to make a, a molding step (S3) for forming a molding by molding the mixture to a predetermined shape, a cutting step (S4) for cutting a molded molding to a certain size, drying the molding cut to a constant size It provides a media made through the drying step (S5), the firing step (S6) for firing the dried molding.

In the present invention, sedimentary rocks are used to make media. Specifically, sandstone and sandstone (aka mudrock) among sedimentary rocks are used.

At this time, only sandstone is powdered through a pulverizer and then molded into a certain size and shape to be used as a media. However, due to the characteristics of sandstone (adhesiveness is poor), it is difficult to shape the sandstone powder. The water is mixed together to form a media.

The process of making the media of the present invention will be described in detail by way of examples.

In the present invention has a crushing process of grinding the sandstone and mudstone to a certain size using a generally used stone grinding machine to form a granular sandstone powder and mudstone powder.

At this time, the particle size of the sandstone powder pulverized by the pulverizer is preferably 2-5 (mm), and the smaller the particle size of the mudstone powder is preferable, but should be made so that the size thereof is not larger than 0.1 (mm).

However, since sandstone has a particle size of 0.0625-2 (mm) as described below, when the sandstone is pulverized and powdered to a size of 2 (mm) or less, a problem occurs in that the crystal structure of the sandstone is destroyed. When the size of the sandstone powder to be crushed is 5 (mm) or more, the size of the particle is so large that when the sandstone powder is mixed with mudstone powder and water and agitated, the size of the sandstone powder is too large to form smoothly. There is a problem that is not achieved.

And when the particle size of the mudstone powder pulverized through the crusher is 0.1 (mm) or more, the crushed mudstone powder is mixed with sandstone powder and water, and then stirred, and then the shape of the mudstone powder is too large to form. This is because a problem occurs.

That is, since the mudstone powder has adhesive properties when it is mixed with sandstone powder together with water, the smaller the size of the particles to be powdered, the better the adhesion property becomes, which plays a role of making a smooth molding.

The sandstone and mudstone are pulverized using a grinder so as to have a constant size as described above, and then sanded into a stirrer at a ratio of 85-95 (%) and mudstone powder 5-15 (%), and an appropriate amount of water is added to the stirrer. After adding together, the sandstone powder and mudstone powder and water are stirred to be sufficiently mixed with each other.

At this time, the amount of water to be added together with the sandstone powder and mudstone powder is added to the stirrer so that the sandstone powder and the mudstone powder are mixed with each other to have an appropriate viscosity.

When the ratio of sandstone powder to the stirrer is 85 (%) or less, the ratio is too small, so that the specific surface area (area for microorganisms to attach and grow) is reduced, and the ratio of sandstone powder is 95 (%). If abnormal, the ratio is too large to cause a problem that the molding is not good.

On the other hand, when the ratio of mudstone powder put into the stirrer is 5 (%) or less, it is difficult to mold. When the ratio is 15 (%) or more, the ratio of sandstone powder decreases, so that the specific surface area for microorganisms to attach and grow. This diminishing problem arises.

As described above, when the mixture of mudstone powder and sandstone powder is stirred together with water to make an appropriate viscosity, the mixture is molded into a predetermined thickness and shape through an extruder.

That is, the mold made according to the required shape is mounted on the extruder, the mixture is introduced into the extruder, and the extruder is operated to extrude the mixture having a constant thickness and shape into a long shape according to the shape of the mold.

When a molded product is formed in a predetermined shape and thickness through an extruder as described above, the former is cut to have a predetermined length.

When cutting the molding to a certain length, use a conventional cutter with a blade at regular intervals, if necessary, equipped with a cutter with a rotating blade in front of the molding outlet of the extruder, continuously through a mold to a constant thickness and shape The extrudate is cut to the required length.

At this time, the thickness of the molding is preferably 0.5-1 (cm), the length is 10-20 (cm) is preferred, but the thickness and the length can be varied as needed, the size of the thickness and length of the present invention It does not limit the scope of rights.

The molding is cut to a certain length and thickness as above and then dried for 48 to 72 hours in a shade at room temperature.

At this time, when the drying time in the shade of room temperature is less than 48 hours, the molding becomes too short time to harden with proper hardening, so when the work such as moving the molding in order to be fired, it is easily broken and dried for more than 48 hours. When the content of the water in the molding is too small, there is a problem that is easily broken by heat when firing.

The media of the present invention is completed by drying the molding to have a suitable moisture as described above and then baking it in a kiln such as an electric furnace and firing at a temperature of 800-1000 (° C).

The media of the present invention made as described above has a specific surface area (which microorganisms may adhere to) because the main component is made of sandstone when it is put into a washing tower, a combined purification tank, or an aeration tank of a wastewater treatment device used to purify livestock wastewater, industrial wastewater and domestic wastewater. Its large area) makes it possible to attach a large amount of microorganisms and act as a medium to provide an environment for survival and growth.

That is, sandstone is composed of quartz, feldspar, and rock fragments whose main composition is 0.0625-2 (mm), so that numerous micropores are formed on the sandstone, and the aforementioned micropores can survive and grow by attaching microorganisms. It plays a role of maximizing the size of specific surface area and provides environment for more microorganisms to attach and survive. Therefore, it decomposes organic matters contained in wastewater and wastewater quickly and largely to reduce biological oxygen demand, that is, BOD value. It will act to reduce.

As described above, the media made in accordance with the present invention have a sandstone whose main component is made of sandstone, so that the size of the specific surface area where microorganisms can be attached and survive and grow is maximized so that a larger amount of microorganisms can be attached and survive. Because it provides fast and much decomposition of organic matter in wastewater and wastewater, it has the effect of reducing biological oxygen demand, that is, BOD level, and the media that make up media are composed of sandstone and mudstone, that is, natural materials. It will have the effect of preventing the pollution of waste water that can occur due to.

Claims (1)

In the media where wastewater is treated in aeration tanks of wastewater treatment devices, such as washing towers or combined purification tanks used to purify livestock wastewater, industrial wastewater and domestic wastewater, Sandstone in sedimentary rocks to have a particle size of 2-5 (mm) and mudstones are pulverized to a particle size of 0.1 (mm) or less to make sandstone powder and mudstone powder, Stirring process of mixing crushed sandstone powder 85 (%)-95 (%) and mudstone powder 5-15 (%) with water to make a mixture, Molding process to make the molded mixture with a regular shape, Cutting process for cutting the molded molding, And drying process to dry the cut molding at room temperature 48-72 (hours), Media used to treat sewage and wastewater, which is produced through a firing process of firing dried moldings.