KR200366210Y1 - Apparatus for reducig the quantity of organic solid waste using bulking agent - Google Patents

Abstract

The present invention has a high water absorption rate of organic waste, and uses a porous moisture control material that can be separated and separated by a screen, and controlled by an aerobic biological method with a fast reaction rate. The present invention relates to an apparatus for reducing organic waste using ash.

The present invention is a first reservoir into which organic waste is injected; A second reservoir installed at one side of the first reservoir and into which a porous moisture modifier of a bulk type having a high water absorption rate is input; Mixing means having an agitator installed therein to mix the organic waste discharged from the first reservoir and the second reservoir and a moisture control material; At least one air inlet is formed on the outer peripheral surface, the reaction chamber for discharging the final by-product by treating the waste sludge discharged from the mixing means by a biological reaction; It is installed on one side of the reaction chamber, the blowing means for injecting air to the air inlet side so that its interior is aerobic conditions; And separating and separating the final by-product and the moisture control material discharged from the reaction chamber, wherein only the selected moisture control material is re-introduced into the second reservoir.

The present invention configured as described above minimizes the use of the site by increasing the effective loading height of the reaction chamber, and greatly reduces the cost by recovering and reusing the moisture control material by the screening process, and ultimately reduces the volume of the final by-product and finally energy. It will be able to maximize the effective use of the site, site reduction, and weight reduction effect.

Description

Apparatus for reducig the quantity of organic solid waste using bulking agent}

The present invention relates to a device for biologically treating and reducing organic wastes such as sludge and food waste contained in various sewage and wastewater. By reducing the amount sufficiently, the amount of final by-products can be minimized, and the effective loading height of the reaction tank can be increased to minimize the treatment site. The moisture control material is organic waste using a moisture control material that can be separated and recovered. It relates to a weight reduction device of.

In general, as a method for reducing organic waste including sludge, food waste, phosphorus, condensate, and the like contained in various sewage and waste water, a method of stabilizing and reducing organic waste using microorganisms is commonly used.

This conventional technique is a method of discharging relatively stabilized end products free from pathogens and weed seeds using ecologically generated heat of oxidation, but structurally weak moisture control such as rice hulls, sawdust, bark, etc. to secure breathability. Because of the use of a bulking agent (bulking agent) it is difficult to load more than 1.2 ~ 1.5 m in the reaction tank, these moisture control materials have a problem that the consumption is very high consumption. In addition, the maintenance cost is excessively increased due to the continuous increase in the purchase price of the moisture control material, there was a problem such as a large site is required because of the horizontal loading method.

In addition, when the moisture control material is used excessively, the physical deterioration of the soil is caused by the accumulation of hardly degradable substances. For example, conventional moisture control materials such as sawdust are difficult to separate, and hardly decomposable substances such as cellulose components remain in the reaction process, which also cannot be separated because they form a gel state. In this case, the soil deteriorates.

In addition, since it is difficult to separate and separate the moisture control material, it is discharged in a state in which the moisture control material is mixed as it is in the final by-product, and thus it is difficult to expect a great effect in terms of weight reduction. In addition, due to the heavy metals and harmful compounds contained in the organic waste has a problem that can lead to an increase in treatment costs in terms of recycling.

Recently, in order to solve the problem of odor and treatment site, a closed system technology has been developed in which a fermentation tank is composed of a multi-stage type. However, since it is necessary to artificially configure a stage, the mechanical construction of the internal device requires a lot of initial construction and maintenance costs. In addition, there is a problem that can not consume the excess space of each stage due to the limitation of the effective height.

In addition, a method of treating organic waste by drying, incineration, pyrolysis, etc. has recently been proposed, but it is difficult to secure calorific value, which is low in efficiency, and requires an expensive reprocessing facility for stabilizing the final incineration ash discharged. have.

Therefore, the present invention has been proposed to solve the above problems, a large water absorption rate of organic waste, using a porous moisture control material that can be recovered by screening and screen separation, using aerobic biological method fast reaction rate The purpose of the present invention is to provide an organic waste reduction apparatus using a moisture control material that can minimize the amount of final byproducts.

In addition, the present invention minimizes the processing site by adding and mixing a porous moisture control material having a bulk shape of a predetermined size at a certain ratio and increasing the effective loading height higher than the existing loading effective system height of 1.5m in the filling hermetic plant. Another object is to provide an apparatus for reducing organic waste using moisture control material.

In addition, the present invention has another object to provide an organic waste reduction apparatus using a moisture control material that can significantly reduce the maintenance cost by recovering and reusing the porous moisture control material by the screen process.

In addition, the present invention operates the bioreactor as a sealed hermetic system, and thus the initial construction cost is low, and the maintenance cost and stability of the operation of the facility can be increased, and the moisture control material that can effectively control the odor generated during biological reaction Another object is to provide an apparatus for reducing organic waste.

1 is a schematic view showing an embodiment of an organic waste reduction apparatus using a moisture control material according to the present invention.

Figure 2 is a block diagram of the bulking agent (bulking agent) of the present invention.

Figure 3 is a schematic diagram showing the configuration of the reaction chamber which is the main part of the present invention.

Figure 4 is a schematic diagram showing the principle of biological reduction of the organic waste reduction apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings

1, 2: first and second reservoirs 2a: moisture control material

3: mixing tank 4: reaction chamber

5: blower 6: outgassing

7: damper 8: screen

9: feed conveyor 10: demister

11: inclined separator

In order to achieve the above object, the present invention, a first reservoir into which organic waste is injected; A second reservoir installed at one side of the first reservoir and into which a porous moisture modifier of a bulk type having a high water absorption rate is input; Mixing means having an agitator installed therein to mix the organic waste discharged from the first reservoir and the second reservoir and a moisture control material; At least one air inlet is formed on the outer peripheral surface, the reaction chamber for discharging the final by-product by treating the waste sludge discharged from the mixing means by a biological reaction; It is installed on one side of the reaction chamber, the blowing means for injecting air to the air inlet side so that its interior is aerobic conditions; And separating and separating the final by-product and the moisture control material discharged from the reaction chamber, and reducing the organic waste using the moisture control material including a water control material sorting means for re-injecting only the selected water control material into the second reservoir. Provide the device.

The present invention is installed in the reaction chamber at a predetermined height interval, characterized in that it further comprises an inclined separator to radially disposed to evenly spread the mixture introduced into the reaction chamber.

In addition, the moisture control material used in the present invention is made of any one of charcoal or porous polymer, characterized in that the bulk form of 5 to 15cm size.

In addition, the present invention is installed to vertically penetrate the reaction chamber, the degassing for discharging the odor generated during the biological reaction to the outside; A damper installed inside the deaerator at a predetermined height interval to adjust an opening and closing angle thereof; And it is characterized in that it further comprises a demister connected to the degassing to discharge the odor discharged through it to the atmosphere.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 1 to 4.

The present invention has a high water absorption rate, and is implemented to minimize the final by-products of organic waste by biological reaction with a water control material that can be separated and separated, in the embodiment of the present invention, as shown in Figure 1, sewage sludge, A first reservoir 1 into which at least one or more of general organic wastes such as food waste, phosphorus and livestock are fed at a predetermined ratio; A second reservoir (2) installed at one side of the first reservoir (1) and into which a bulky porous moisture modifier (2a) having a high water absorption rate is introduced; The organic waste discharged from the first reservoir (1) and the second reservoir (2) and the moisture control material (2a) is mixed, but the moisture control material (2a) in a ratio of 30 to 70% of the total waste and A mixing tank 3 provided with a stirrer 3a therein for mixing so as to have a water content of 55 to 75%; Reaction chamber (4) having a degassing (6) for discharging odor generated during biological reaction to the outside by treating the waste sludge discharged from the mixing tank (3) by biological reaction Wow; A blower (5) installed on one side of the reaction chamber (4) and injecting air so that the inside thereof becomes aerobic condition; An inclined separator 11 installed to have a predetermined height space in the reaction chamber 4 to spread the mixture evenly; A damper (7) installed at a predetermined height interval inside the degassing device (6) to adjust an opening and closing angle thereof; A screen 8 installed under the reaction chamber 4 for separating and separating the final by-product and the moisture control material 2a discharged therefrom; A supply conveyor (9) for transporting the moisture control material (2a) that has been separated and separated through the screen (8) to be re-injected into the second reservoir (2); It is composed of a demister (10) for releasing odor discharged through the degassing (6) in the reaction chamber (4) into the atmosphere.

In this embodiment, the amount of organic waste to be injected into the first reservoir 1 and the amount of moisture control material 2a to be injected into the second reservoir 2 are adjusted to adjust the amount of moisture to the total organic waste 2a. ) Is adjusted to 30 to 70%.

At this time, when the mixing ratio of the moisture control material to the total organic waste is less than 30%, the amount of voids is low, the air permeability is lowered, there is a problem that can not achieve aerobic eventually. In addition, when the mixing ratio of the moisture control material to the total organic waste is 70% or more, as a result of the experience value in the basic experimental step, it is determined that it will be an uneconomical process.

In addition, in the mixing tank 3, the moisture control material that absorbs moisture by making the moisture content of the organic waste having a substantial moisture content of about 80% to 120% has a moisture content of 55 to 75% through the agitator 3a. It is separated, dried and reused.

The moisture control material (2a) is in the form of a bulk that allows the formation of pores and high loading of organic waste in the physical and chemical treatment process, wherein the moisture control material (2a) has a water absorption rate and coarse porosity It should be large, able to maintain gaps between voids, and have strength and wear resistance to withstand the compressive load when loaded to a predetermined height. In order to meet these conditions, in this embodiment, as shown in FIG. 2, porous charcoal or a porous polymer having a plurality of pores formed therein may be used as a moisture control material, and the charcoal is used to increase strength. It is manufactured in the shape of a circle, a cuboid or a donut.

In addition, the moisture control material (2a) in the present embodiment is a bulk form of 5 to 15cm in size and is mixed in a proportion of 30 to 70% of the total waste, the water content is about 55 to 75% filled hermetic reaction chamber It is supplied in (4).

The reaction chamber 4 is formed in a cylindrical shape as shown in FIG. 3, and the separation plate in the center portion of the inclined separator 11 installed in the reaction chamber 4 is arranged in an X-shape (X). The separators installed on the upper and lower portions of the central separator plate have a sealed hermetic plant structure having a cross-shaped (+) shape. In addition, a plurality of injection holes 4b are formed on the side surface of the reaction chamber 4 to pressurize and inject air generated through the blower 5.

The screen 8 is made of a sieve of 5cm or less in order to reduce the maintenance cost and improve the efficiency of reduction, it is possible to recover and reuse the moisture control material in the process using this.

3 is a schematic diagram showing the organic waste reduction process according to the present invention. The mixture is mixed at a ratio and supplied to the reaction chamber in the form of a packed column. At this time, the moisture content is about 55 to 75%, and the moisture is controlled to be 2 to 3 times higher than the loading height of 1.2 to 1.5m, which is applied to a general reduction process in a single closed chamber (Chamber) 4. The organic waste mixture mixed with ash 2a is loaded, and the moisture control material is sufficiently sprayed so that the upper surface is covered at every interval filling.

Then, a certain amount of air is supplied from the blower 5, which is an air supply system installed in the reaction chamber 4, with the air supplied during the initial mixing process, and generates heat and moisture by biological reaction under aerobic conditions by oxygen (O ₂ ). , And carbon dioxide is removed to reduce the weight. At this time, since the reaction chamber 4 is of a compact closed type, odor control is easy.

The final by-product obtained in the above process is discharged a certain amount at intervals of 10 to 20 days at the bottom of the reaction chamber (4), and at the same time it can effectively reduce the organic waste by going through an iteration process of adding the untreated mixture at the top. Here, the moisture control material (2a) is selectively separated through the screen 8, recovered and reused.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, according to the present invention, by adding a bulk moisture control material having a high moisture content in the biological reaction tank, it can be loaded two to three times higher than the effective limit height of the existing bioreactor 1.5m The site can be greatly reduced, and the screening process can recover and reuse the bulking agent, thereby reducing maintenance costs and minimizing the amount of by-products.

In addition, by operating the bioreactor as a sealed hermetic system, not only can greatly reduce the construction cost, but also enable effective control of odors, and other effects that can minimize environmental pollution.

Claims (5)

A first reservoir into which organic waste is introduced; A second reservoir installed at one side of the first reservoir and into which a porous moisture modifier of a bulk type having a high water absorption rate is input; Mixing means having an agitator installed therein to mix the organic waste discharged from the first reservoir and the second reservoir and a moisture control material; At least one air inlet is formed on the outer peripheral surface, the reaction chamber for discharging the final by-product by treating the waste sludge discharged from the mixing means by a biological reaction; It is installed on one side of the reaction chamber, the blowing means for injecting air to the air inlet side so that its interior is aerobic conditions; And Separation and separation of the final by-product and the moisture control material discharged from the reaction chamber, the water control means screening means for re-inserting only the selected moisture control material in the second reservoir Reducing device of organic waste using a moisture control material comprising a. The method of claim 1, Installed in the reaction chamber at a predetermined height interval, the organic waste reduction apparatus using a moisture control material further comprises an inclined separator that is radially disposed to evenly spread the mixture introduced into the reaction chamber. The method of claim 1, The moisture control material is an organic waste reduction apparatus using a moisture control material, characterized in that made of any one selected from the bulk charcoal or porous polymer. The method according to any one of claims 1 to 3, A degassing device for vertically penetrating the reaction chamber and discharging odor generated during a biological reaction to the outside; A damper installed inside the deaerator at a predetermined height interval to adjust an opening and closing angle thereof; And Demister connected to the deaerator to release odor emitted through the atmosphere Organic waste reduction apparatus using a moisture control material further comprising. The method according to any one of claims 1 to 3, The moisture control material selection means A screen installed under the reaction chamber; And A supply conveyor for transferring the selectively separated moisture control material through the screen and re-inserting it into the second reservoir. Reducing device of organic waste using a moisture control material comprising a.