KR20000037315A - Anaerobic media and manufacturing methode thereof - Google Patents

Abstract

PURPOSE: An aerobic treatment filter medium for septic or sewage tank is provided which is light in weight, easy for microorganisms to habit and excellent in abrasion resistance and enhances treatment efficiency. CONSTITUTION: In an aerobic treatment filter medium for removing organic materials contained in sewage, which is laminated on a septic tank and used as a habitat of microorganisms, the medium is melt cured in such a state that waste vinyl and waste synthetic resin as various plastics are mixed and have rough structure having high porosity on its inner and outer circular surfaces in which microorganisms are easy to habit. The mixing ratio of waste vinyl and waste synthetic resin is about 30 to 80% by volume and 10 to 60% by volume respectively. Also described is a process for producing the medium.

Description

Anaerobic media and its manufacturing method {Anaerobic media and manufacturing methode}

The present invention relates to an anaerobic filter medium and a method of manufacturing the same, and more particularly, it is possible to recycle the waste generated by manufacturing the filter medium installed in the septic tank as industrial waste, and also smooth filtration in the carrier as the filter medium thus produced The present invention relates to an anaerobic medium and a method of manufacturing the same, which facilitate the incubation of microorganisms together with the function to increase the removal efficiency of the BOD, and thereby suppress the contamination of the natural environment.

As is generally known, a septic tank is a tank for purifying manure and sewage generated in general homes and residential complexes and then discharged through sewage.

The septic tank as described above is already produced in various ways depending on the scale and function.

Examples of representative septic tanks (or purifiers) include sprinkled decay tanks, improv tanks and decaying tanks (concrete or FRP materials), contact aeration, sprinkling phase, and oxidative anaerobic septic tanks.

Figure 1 is a cross-sectional view showing an example of the three-stage concrete-type decay tank mainly used in the multi-family housing, such as one example of the septic tank.

As shown in the figure, the three-stage concrete-type decay tank body 10 is formed with a plurality of holes 12 which are covered by the opening and closing member 11 above.

The inner side of the main body 10 is divided into a plurality of first, second and third cavities 21, 22 and 23 by at least one first and second partitions 13 and 13 ', The first cavity 21 and the third cavity 23 on the other side are provided with an inlet 14 through which manure and sewage flow, and an outlet 15 through which purified water purified from manure and sewage is discharged.

In addition, an opening 16 is formed on the upper side of the first partition wall 13 and the lower side of the second partition wall 13 'to allow the waste water to be overflowed or discharged to be described later, and on the other side of the third cavity 23. The stall 17 is mounted, and the filter medium 18 is laminated on the supporting stall 17.

The media 18 is typically provided with a sheet-type polling 19 of synthetic resin material using finely crushed crushed stone or separately manufactured as shown in FIG.

Therefore, manure and sewage flow into the first cavity 21 through the inlet 14, and sludge of the introduced manure and sewage is deposited in the first cavity 21, and the scum is the first partition wall 13. It overflows inside of the second cavity 22 through the opening 16 formed in the second cavity 22.

As described above, the scum introduced into the second cavity 22 is deposited in the second cavity 22, and the sewage flows into the third cavity 23 through the opening 16 formed in the second partition 13 ′. The sewage, which is gradually stored, is filtered through the screen 17 and the media 18 mounted on the third cavity 23 and discharged to the sewer.

As a result, the three-stage decay tank septic tank composed of the first and second stage decay tanks and the three-stage filter media discharges about 50% of the BOD (biological oxygen demand) contained in the sewage discharged to the sewer.

However, the following problem occurred in the media 18 used for a septic tank as mentioned above.

That is, the filter medium 18 mainly uses gravel or crushed crushed stone. When using gravel, BOD removal efficiency is good by promoting the growth of microorganisms, while depleting resources and considering the natural environment. There was a problem when there was a limit to the supply.

In addition, when the crushed stone is used as a medium, the weight becomes heavy, and there is a problem in that the supporting loss stall 17 supporting the weight of the crushed stone is damaged when used for a long time.

On the other hand, when using the sheet-type polling (19) made of a synthetic resin material as shown in Figure 2 as a filter medium, its own weight is light, it is easy to use not only in the concrete decay tank, but also in the decay tank type septic tank made of FRP material and bulk It has the advantage of being able to produce and supply, but due to its smooth surface, it is difficult to inhabit microorganisms, so the removal efficiency of BOD is significantly reduced compared to the case of using crushed stone as an indirect factor that pollutes the environment, and the price is high. The installation of large amounts of sheet-type polling in septic tanks had to bear the economic burden.

Therefore, the present invention was created in order to solve the problems with the media used in the conventional septic tank as described above, to facilitate the incubation of microorganisms to increase the removal efficiency of BOD and thereby to suppress the pollution of the natural environment accordingly It is to provide a filter medium and a manufacturing method thereof.

Another object of the present invention is to provide an anaerobic medium and a method for producing the same, which are light in weight and do not damage the supporting rostol installed in the septic tank even after long-term use.

Still another object of the present invention is to provide an anaerobic filter and a method of manufacturing the same, by using waste industrial waste as a filter medium for septic tank to recycle waste and supplying it at a low price, thereby suppressing the exhaustion of resources. It is.

1 is a cross-sectional view showing a first example of a general septic tank.

Figure 2 is a perspective view showing an example of a sheet-type polling that was used as a conventional anaerobic media.

Figure 3 is a perspective view showing a first embodiment of the anaerobic medium according to the present invention.

Figure 4 is a step for showing the manufacturing process of the anaerobic medium according to the present invention.

5 is an exemplary view for showing a system for producing an anaerobic medium according to the present invention.

6 a to j is a perspective view showing a variety of shapes of the anaerobic medium according to the present invention.

*** Explanation of symbols for main parts of drawing ***

100; Hopper 200; Tube

210; motor 220; nozzle tube

230; cutting machine 240; container

300; media

In order to achieve the above object, the present invention is laminated in a septic tank and used as a habitat for microorganisms with a filtration function and in the anaerobic media to remove organic substances (BOD) contained in sewage, the media has a difference in physical properties Provides anaerobic media characterized by having a rough structure with high porosity to melt and harden in the state of mixing various plastic waste plastics and waste synthetic resins at an appropriate ratio. .

In another aspect, the present invention, an input step of putting the raw material composed of the preferred waste vinyl and waste synthetic resin and the additive additive material of the porosity improver and the weight control agent in an appropriate ratio in a mixed state; A melting step of applying heat to the hopper in which the raw materials are mixed after melting the melting step; An extrusion molding step of extruding the molten liquid raw material through the tubular body after completion of the melting step and molding into a set shape; A cutting step of cutting the molded product extruded to a predetermined size after completing the extrusion molding step; And a cooling step of cooling the molded product to be cut after completing the cutting step.

In a preferred embodiment of the present invention, the ratio of the set raw material, the waste vinyl provides 30% by volume to 80%, the waste synthetic resin provides a method for producing anaerobic media comprising 10% by volume to 60% by volume. do.

Another preferred embodiment of the present invention provides a method for producing anaerobic media comprising at least one composition of chaff, sawdust, and waste activated carbon in a range of 10% by volume with respect to the ratio of the set raw materials. .

In another preferred embodiment of the present invention, an anaerobic medium comprising an inorganic material such as sand, waste filter sand, waste foundry sand, or the like is selectively added in a range of 10% by volume with respect to the ratio of the set raw material. It provides a manufacturing method.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

Figure 3 is a perspective view showing an example of the anaerobic medium according to the present invention, Figures 4 to 5 is a step and an illustration showing a process for manufacturing the anaerobic medium according to the present invention, Figure 6 From a to k is shown a perspective view showing a deformable example of the anaerobic medium according to the present invention.

For convenience of explanation, the manufacturing process of the anaerobic medium according to the present invention will be described step by step.

Input stage

Waste vinyl and waste synthetic resin, and the raw material composed of sand, rice husk and sawdust is added to the conventional hopper (100) in a state of mixing at a predetermined ratio.

At this time, the ratio of the waste vinyl and the synthetic resin used is about 30% by volume to 80% by volume and 10% by volume to 60% by volume, and additives such as chaff, sawdust, waste activated carbon, sand, waste filter Inorganic materials such as waste foundry sand are optionally added in at least one composition in a range of 10% by volume.

Waste vinyl is a material of polyethylene (high density, medium density, low density) that is usually discarded, and the waste synthetic resin is a PET container mainly used for beverage containers, styrofoam used as a heat insulating material, and polypropylene used for strings, hemps, and the like. Used as the main raw material for anaerobic media according to

In addition, to facilitate the incubation of microorganisms in the anaerobic medium according to the present invention, a rough surface is formed on the inner and outer surfaces thereof. In addition, the additional materials of the chaff, sawdust, waste activated carbon and sand, waste filtration, waste casting sand, etc. are selectively used only to increase the porosity or to increase the weight per unit volume when laminating in the septic tank.

Melting stage

As described above, the industrial waste is injected into the hopper and simultaneously melted by a separate heat source.

At this time, the heat source used may be a heater that omits the representation that is indirectly heated by supplying power.

Alternatively, the fuel may be light fuel oil or kerosene as a heat source and LNG or LPG gas as a fuel. However, at this time, a mechanism such as a burner for burning those fuels is required.

At this time, the temperature conditions to be used will vary depending on the moisture content of the injected raw material, maintaining the range of approximately 150 ℃ to 300 ℃ can maintain the optimum conditions for saving power consumption and fuel.

Extrusion step

As described above, the liquid raw material melted by the heat source is forcibly extruded through the tube body 200.

One side of the tubular body 200 is provided with a motor 210 functioning as a driving means, the inner side of the tubular body 200 will be built with a conventional screw driven by the motor 210.

In addition, the other side of the tubular body 200 is provided with a nozzle tube 220 for discharging the raw materials sent through the tubular body 200.

Preferably, the nozzle tube 220 will be provided with a rough surface so as to roughly form the inner, outer peripheral surface of the anaerobic medium according to the present invention.

Cutting stage

After completing the extrusion step as described above, the raw material of the anaerobic medium discharged through the nozzle tube 220 is cut in a state set to a length set by the cutting machine 230 provided on one side of the nozzle tube 220.

Cooling Step

As described above, the filter medium 300 cut by the cutting machine 230 is provided below the cutting machine, is dropped into the container 240 containing water, and is cooled and maintains a constant shape.

In addition, the anaerobic media material, which is cut while maintaining a constant shape and length as described above, is separately collected and then shipped to the product through a drying process.

Anaerobic media completed by the operation as described above can be used by cutting the circular arc shape as shown in Figure 3, but can be used in a variety of manufacturing conditions, such as a to k of FIG.

That is, the shape of the saddle or the shape of the tubular body, the shape of the tubular body formed with the partition wall, the shape of the tubular body formed with the cross partition wall, or the shape of the spiral ring and the shape of the two or three spiral rings, the rugby ball shape, the rugby ball Perforated shape, golf ball shape can be produced in various ways.

Of course, in order to produce the anaerobic medium having a shape such as a to j in Figs. 3 to 6, a nozzle tube having the same inner diameter as the outer diameter will be required.

The filter medium 300 according to the present invention configured as described above is directly equipped with the anaerobic filter medium of the present invention having the arc shape as shown in FIG. 3 in the filter layer of the three-stage decay type septic tank at Gayang sewage treatment plant in Seoul, Gangok-gu. The condition was applied for about 3 months.

In this case, the BOD removal rate was analyzed by collecting the wash water and the effluent from the septic tank before entering the flush toilet.

BOD removal efficiency was calculated as [(Influent BOD-Effluent BOD) ÷ Influent BOD] × 100, which is the formula in Annex 2 related to Article 9, Paragraph 2 of the Enforcement Regulations on the Treatment of Sewage and Livestock Wastewater. Based on 20,000 PPM.

As a result of the analysis, the filter medium 300 according to the present invention has a good propagation ability of microorganisms as the rough surface structure is made to have a good structure for microorganisms to grow, and thus the BOD removal rate reaches 50% to 70%.

Here, an additional feature of the present invention is that the removal rate of BOD of the anaerobic media according to the present invention is an average of 10 as a result of using the anaerobic media produced by the present invention as compared to the conventional anaerobic media using gravel and crushed stone or sheet-type polling. The percentage has improved, but the industrial waste that is discarded can be used to replace septic tanks.

Therefore, it is possible to recycle industrial waste and to effectively purify sewage discharged through sewers.

As described in detail above, according to the anaerobic medium according to the present invention, it is possible to increase the removal efficiency of BOD by facilitating the incubation of microorganisms while increasing the filtration efficiency, thereby suppressing contamination of the natural environment.

In addition, the present invention is light in weight and good in abrasion resistance, and it is easy to inhabit microorganisms more easily than conventional crushed stone or sheet-type polling, and thus it is possible to expect a homogeneous treatment efficiency.

In addition, the present invention, by using the industrial waste to be discarded as a medium of the septic tank, recycling the waste and at a low price, and also has a feature to suppress the exhaustion of resources.

On the other hand, it has been shown and described with respect to the preferred embodiments according to the present invention up to now, but not limited to this can be variously changed and used by those skilled in the art.

However, it is apparent that such modifications fall within the scope of the present invention.

Claims (5)

In the anaerobic media stacked on the septic tank and used as a habitat for microorganisms and removing organic matter (BOD) contained in sewage, The filter medium is melt-cured in a state in which waste plastics of various plastics having different physical properties and wastes of waste synthetic resin are mixed at an appropriate ratio, and the outer and inner circumferential surfaces have a coarse structure with high porosity to facilitate the incubation of microorganisms. Characterized by anaerobic media. An input step of adding waste vinyl, waste synthetic resin, and raw materials composed of a porosity improver and a weight regulator, which are additive materials, to a hopper in an appropriate ratio; A melting step of applying heat to the hopper in which the raw materials are mixed after melting the melting step; An extrusion molding step of extruding the molten liquid raw material through the tubular body after completion of the melting step and molding into a set shape; A cutting step of cutting the molded product extruded to a predetermined size after completing the extrusion molding step; And Anaerobic filter manufacturing method comprising a cooling step of cooling the molded product is cut after completing the cutting step. The method of claim 2, The ratio of the set raw material is an anaerobic media production method comprising the waste vinyl is in the range of 30% to 80%, the waste synthetic resin 10% to 60% by volume. The method of claim 3, wherein At least one composition of chaff, sawdust, and waste activated carbon with respect to the ratio of the set raw material is selectively added in the range of 10% by volume. The method of claim 3, wherein At least one composition of the inorganic material such as sand, waste filtration, waste foundry sand, etc. with respect to the ratio of the set raw material is selectively added in the range of 10% by volume.