KR100893377B1 - Apparatus for aerobic treatment of organic waste - Google Patents

Abstract

An apparatus for aerobic treatment of organic waste is provided to minimize generation of scum in a digestion tank and to improve extraction efficiency of biogas. An apparatus for aerobic treatment of organic waste comprises a multistage anaerobic digester and a biogas collecting unit. The multistage anaerobic digester includes a first anaerobic digester(110), a second anaerobic digester(120), a partition(130) and biogas feeding line(104). An auxiliary partitions(131) is equipped within the first anaerobic digester and the second anaerobic digester.

Description

Anaerobic digestion apparatus of organic waste {Apparatus for aerobic treatment of organic waste}

The present invention relates to an anaerobic digestion apparatus for organic waste, and more particularly, to stably induce hydrolysis, acid generation, and methane generation processes of organic waste to improve the extraction efficiency of biogas and scum in the digester. The present invention relates to an anaerobic digestion apparatus for organic waste that can minimize generation.

Recently, technologies for producing biogas such as methane by anaerobic digestion of organic wastes such as food waste, livestock manure and sewage sludge have been developed. As such, the method of producing and using biogas from organic waste has been in the spotlight in that it can reduce environmental pollution load in addition to using biogas as an energy source.

Anaerobic digestion reactors that produce biogas from organic wastes are mainly used as fully mixed reactors and upflow anaerobic sludge blanket reactors.

The method of using a fully mixed reactor has the advantage of accumulating abundant operational experience as the most commonly used method and applying to high concentrations of organic waste, but has a disadvantage in that energy costs for agitator operation are high. On the other hand, the method using an upflow anaerobic sludge blanket reactor is very effective for treating organic waste at low concentration, but is not suitable for high concentration organic waste and has a problem in that it is difficult to maintain sludge granules in the reactor.

The universal anaerobic digestion process consists of either a single phase or two phase mixture of such a fully mixed reactor or an upflow anaerobic blanket reactor. In the case of a single phase, the process is simple and there are many practical applications, but there is a disadvantage in that it is impossible to control each step independently because acid generation-methane generation occurs simultaneously in one reactor. In addition, in the two-phase configuration, it is possible to maintain suitable environmental conditions for each step of acid fermentation-methane fermentation, but corrosion and odor problems occur when a high concentration of acid is generated in an acid generating tank. Complementary action of methane-producing microorganisms to remove the generated hydrogen is difficult.

The present invention has been made to solve the above problems, and stably induces hydrolysis, acid generation and methane generation process of organic waste to improve the extraction efficiency of biogas and to generate scum in the digester. The aim is to provide an anaerobic digestion apparatus for organic waste that can be minimized.

Anaerobic digestion apparatus for organic waste according to the present invention for achieving the above object is made of a combination of a multi-stage anaerobic digestion tank and a biogas collection means provided on the top of the multi-stage anaerobic digestion tank, the multi-stage anaerobic digestion tank, Biogas for supplying biogas into the first anaerobic digestion tank and the first anaerobic digestion tank and the first anaerobic digestion tank, and the first anaerobic digestion tank and the second anaerobic digestion tank. It is configured to include a supply pipe, characterized in that the acid fermentation and methane fermentation of organic waste proceeds sequentially through the first anaerobic digestion tank and the second anaerobic digestion tank.

The volume of the first anaerobic digester is smaller than that of the second anaerobic digester, and the first anaerobic digester and the second anaerobic digester may have a volume ratio of 1: 1 or 1: 2-3. In addition, an auxiliary bulkhead may be provided in the first anaerobic digestion tank and the second anaerobic digestion tank, in which case the partition is supported on the upper part of the multistage anaerobic digester and the auxiliary bulkhead is supported on the lower part of the multistage anaerobic digester. Can be.

A desulfurization filter may be further provided at a lower portion of the biogas collecting means, and for example, at one side of the first anaerobic digestion tank and the second anaerobic digestion tank, a stirrer may be provided at a position corresponding to the top height of the partition wall. In addition, an organic waste supply pump for supplying organic waste to the first anaerobic digestion tank may be further provided, and a portion of the sludge discharged from the second anaerobic digestion tank may be returned to the first anaerobic digestion tank. At this time, the amount of sludge conveyed may be 30% of the total sludge. More than 30 times the expansion input of conveying sludge is most suitable compared to the input of organic matter.

Anaerobic digestion apparatus of organic waste according to the present invention has the following effects.

By arranging the first anaerobic digester that expands the organic substance to be digested and the second anaerobic digester that facilitates anaerobic digestion and decomposition, the methane reaction of organic waste can be activated, and the size of the first anaerobic digester is larger than that of the second anaerobic digester. By making it small, it is possible to smoothly stir the organic waste and control the pH range to the optimum range.

Hereinafter, an anaerobic digestion apparatus for organic waste according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of an anaerobic digestion apparatus for organic waste according to an embodiment of the present invention, Figure 2 is a plan view of a multi-stage anaerobic digestion tank according to an embodiment of the present invention.

First, as shown in Figures 1 and 2 anaerobic digestion apparatus for organic waste according to an embodiment of the present invention is provided with a multi-stage anaerobic digestion tank. The multi-stage anaerobic digestion tank is formed in the form of the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120, the first and second anaerobic digestion tank 110, 120 is a semi-cylindrical It can be configured in the shape of.

Anaerobic digestion process of organic waste is largely divided into acid fermentation step and methane fermentation step, acid fermentation and methane fermentation proceeds sequentially through the first anaerobic digestion tank 110 and the second anaerobic digestion tank. A partition wall 130 is provided between the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 to distinguish a space of each anaerobic digestion tank. The partition wall 130 is designed to be smaller than the heights of the first and second anaerobic digestion tanks 110 and 120 so that the organic waste of the first anaerobic digestion tank 110 passes through the partition wall 130. It forms a structure flowing into the anaerobic digestion tank (120).

In order to activate the agitation of the organic waste, the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 may be provided with an auxiliary partition 131 as shown in FIGS. 3 and 4. In this case, each of the auxiliary bulkheads 131 provided in the first and second anaerobic digestion tanks 110 and 120 is provided to be supported under the first and second anaerobic digestion tanks 110 and 120. The partition wall 130 between the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 is provided to be supported at an upper portion thereof, and the organic waste can be controlled to flow in a zigzag form.

In addition, the first anaerobic digestion tank 110 is preferably designed to be smaller than the second anaerobic digestion tank 120. The reason for this is first, by increasing the expansion coefficient of the organic waste in the first anaerobic digestion tank 110 so that the fluidity is smoothly progressed, and second, the pH within the first anaerobic digestion tank 110 through the smooth flow of the organic waste digestion and pH of the first anaerobic digestion tank 110 in an optimal range to induce the activation of methane-forming bacteria.

The first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 are preferably designed in a volume ratio of 1: 2 to 3. When the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 is designed in a volume ratio of 1: 2 according to an embodiment of the present invention, the anaerobic digestion process is completed and discharged in the sludge discharged from 9300 to 9805 mg /. It was found that the alkaline component of L was included, which indicates that the methane reaction of the organic waste proceeded smoothly, and that the methane forming bacteria were activated. Here, the volumes of the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 may be configured in the same manner as shown in FIGS. 5 and 6.

In addition, in order to minimize the formation of scum (scum) may be equipped with a screw-type stirrer on the top of the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120. The stirrer is preferably provided at a position corresponding to the top of the partition wall (130).

In addition, the upper portion of the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120 is provided with a biogas collecting means for collecting the biogas generated in the first and second anaerobic digestion tank 110, 120, The desulfurization filter (not shown) may be further provided below the biogas collecting means to remove hydrogen sulfide and the like contained in the biogas.

One side of the biogas collecting means is provided with a biogas discharge pipe 103 to enable the biogas to be discharged to the external biogas storage, the biogas discharge pipe 103 is branched at a certain point bio It is connected to the gas supply pipe 104. The biogas supply pipe 104 is for supplying biogas into the first anaerobic digestion tank 110 and the second anaerobic digestion tank 120, and the first and second anaerobic digestion tank 110 through the biogas supply. Anaerobic digestion in the 120 may be activated. In FIG. 1, reference numeral 105 denotes a biogas supply nozzle connected to the biogas supply pipe 104.

On the other hand, the front end of the multi-stage anaerobic digestion tank is provided with an organic waste supply pump 101, the organic waste is supplied into the first anaerobic digestion tank 110 through the organic waste supply pump 101. In addition, the rear end of the multi-stage anaerobic digestion tank is provided with a dehydration means 102 serves to dewater the sludge discharged from the second anaerobic digestion tank 120. Here, the organic waste supplied in the first anaerobic digestion tank 110 may be an organic waste having a high water content or a dehydrated solid.

A certain amount of sludge discharged from the second anaerobic digestion tank 120 is conveyed and re-introduced into the first anaerobic digestion tank 110 through the organic waste supply pump 101. The reason why the sludge discharged after the anaerobic digestion is completed and returned to the first anaerobic digestion tank 110 is to maintain the pH in the first anaerobic digestion tank 110 and maintain the pH at an appropriate level. This is to promote activation.

1 is a block diagram of an anaerobic digestion apparatus of an organic waste according to an embodiment of the present invention.

Figure 2 is a plan view of the anaerobic digestion apparatus of the organic waste according to an embodiment of the present invention.

3 is a block diagram of an anaerobic digestion apparatus for organic waste according to another embodiment of the present invention.

4 is a plan view of an anaerobic digestion apparatus for organic waste according to another embodiment of the present invention.

5 is a block diagram of an anaerobic digestion apparatus for organic waste according to another embodiment of the present invention.

Figure 6 is a plan view of the anaerobic digestion apparatus of the organic waste according to another embodiment of the present invention.

Description of the main parts of the drawing

101: organic waste supply pump 102: dewatering means

103: biogas discharge piping 104: biogas supply piping

105: biogas supply nozzle 110: the first anaerobic digestion tank

120: second anaerobic digestion tank 130: bulkhead

131: auxiliary bulkhead 140: biogas collection means

150: stirrer

Claims (11)

It consists of a combination of multi-stage anaerobic digestion tank and the biogas collection means provided on the top of the multi-stage anaerobic digestion tank, The multi-stage anaerobic digester, A first anaerobic digester and a second anaerobic digester, A partition wall provided between the first anaerobic digestion tank and the second anaerobic digestion tank; It comprises a biogas supply pipe for supplying biogas in the first anaerobic digestion tank and the second anaerobic digestion tank, Acid fermentation and methane fermentation of organic waste proceed sequentially through the first anaerobic digestion tank and the second anaerobic digestion tank, The first anaerobic digestion tank and the second anaerobic digestion tank has a volume ratio of 1: 2 to 3, and an auxiliary partition wall is provided in the first anaerobic digestion tank and the second anaerobic digestion tank. The bulkhead is supported on the upper part of the multi-stage anaerobic digestion tank, and the auxiliary bulkhead is supported on the lower part of the multi-stage anaerobic digestion tank. delete delete delete delete The anaerobic digestion apparatus for organic waste according to claim 1, further comprising a desulfurization filter under the biogas collecting means. The anaerobic digestion apparatus for organic waste according to claim 1, further comprising a stirrer on one side of the first anaerobic digestion tank and the second anaerobic digestion tank. The anaerobic digestion apparatus for organic waste according to claim 7, wherein the stirrer is provided at a position corresponding to the top height of the partition wall. The anaerobic digestion apparatus for organic waste according to claim 1, further comprising an organic waste supply pump for supplying organic waste to the first anaerobic digestion tank. The anaerobic digestion apparatus for organic waste according to claim 1, wherein a part of the sludge discharged from the second anaerobic digestion tank is returned to the first anaerobic digestion tank. The anaerobic digestion apparatus for organic waste according to claim 1, wherein the volume of the first anaerobic digester is equal to the volume of the second anaerobic digester.

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