KR20110072605A - Apparatus for concentrating the anaerobic miro-organism - Google Patents

Abstract

PURPOSE: An apparatus for concentrating anaerobic microbes is provided to maintain high microorganism concentration and to enhance bio gas production efficiency. CONSTITUTION: An apparatus(120) for concentrating anaerobic microbes comprises: an anaerobic digester(110) for performing anaerobic digestion of organic waste; a mixture device for mixing the anaerobic digestion liquid and biogas; a pressurizing device(122) for pressing biogas into the anaerobic digestion liquid; and to floating/separating tank(121). The apparatus further comprises a coagulant supply device(124).

Description

Anaerobic Microbial Concentrator {Apparatus for concentrating the anaerobic miro-organism}

The present invention relates to an anaerobic microorganism concentrator, and more particularly, to an anaerobic microorganism concentrator capable of increasing organic waste load and throughput and increasing biogas production efficiency by maintaining a high concentration of microorganisms in an anaerobic digester.

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 the environmental pollution load in addition to using biogas as an energy source.

However, since the anaerobic digestion process is a biological process involving the reaction mechanism of the acid-producing microorganisms and the methane-producing microorganisms, special care is required to achieve optimal performance due to the difficult operating conditions. In particular, methane-producing microorganisms have a slow growth rate compared to aerobic microorganisms, and therefore, for effective reactions, it should be possible to prevent the loss of microorganisms in the reactor and keep the amount of microorganisms constant.

The anaerobic digester which treats high concentration organic waste is generally in the form of the above-mentioned fully-mixed reactor, which has the same hydraulic retention time (HRT) and sludge residence time (SRT). The long residence time is required, so the capacity of the digester must be increased, or it is difficult to expect a certain level of organic matter load and biogas production efficiency for a predetermined digester capacity.

As a solution to this problem, a technique for extending the sludge residence time (SRT) in the anaerobic digestion reactor by concentrating microorganisms with a membrane separation facility or a precipitation facility at the rear of the digester and returning it to the digester has been applied. However, in the membrane separation process, fouling of the membrane surface due to a large amount of solid components contained in the anaerobic digestion solution occurs severely, and the driving force is large, and thus, it is difficult to maintain and manage it. It is difficult to induce precipitation due to its own characteristics of the anaerobic digestion liquid containing a large amount of material, there is a problem that requires a large amount of polymer-based hardly degradable flocculant and a long residence time in the precipitation tank.

The present invention has been made to solve the above problems, by maintaining a high concentration of microorganisms in the anaerobic digester to increase the organic waste load and throughput, and to provide an anaerobic microorganism concentrating device that can increase the biogas production efficiency There is this.

Anaerobic microbial concentrator according to the present invention for achieving the above object is an anaerobic digester for anaerobic digestion of organic waste and the anaerobic digestion liquid discharged from the anaerobic digester by pressure flotation to separate the treated water and a solid matter microorganism concentrator In the pressurized flotation, the anaerobic digestion liquid is used as a mixed liquid of the pressurized flotation, and the biogas generated in the anaerobic digester is used as the pressurized gas for the pressurized flotation.

The microbial concentrator is a mixing means for mixing the anaerobic digestion liquid and biogas supplied from the anaerobic digestion tank, the digestion liquid mixed with the biogas is supplied from the mixing means, the biogas is added to the anaerobic digestion liquid by applying a pressure higher than atmospheric pressure A pressurizing means for pressurizing and a digestion liquid pressurized by the biogas from the pressurizing means are used to float and separate the solid matter in the anaerobic digestion liquid by using the floating force of the biogas converted into a micro bubble form by exposing it under atmospheric pressure. It may be configured to include a flotation separation tank for conveying the flotation separated solid material to the anaerobic digester.

A coagulant supply unit may be further provided to supply the coagulant to the mixing unit to aggregate the solid matter contained in the anaerobic digestion liquid, and the mixing unit may include a line mixer and an ejector.

Anaerobic microbial concentrator according to the present invention has the following effects.

The biomass of the anaerobic digester is maintained by maintaining solid concentration of anaerobic microorganisms in the digester by separating solid materials containing a large amount of microorganisms from the anaerobic digester from the anaerobic digester through the microbial concentrator using pressurized injury. Gas production efficiency can be improved.

In addition, unlike the conventional pressurized flotation device which uses the treated air separated from the normal air and the floating water as the pressurized gas and the mixed liquid, the digested liquid and the biogas generated in the anaerobic digester are directly used as the mixed liquid and the pressurized gas. It is possible to improve the flotation separation efficiency of the solid components contained in the digestive liquid, and even though the solid components (microbial concentrated components) present in the supernatant separated from the flotation are returned to the anaerobic digester, biogas is used as the pressurized gas instead of general air. It does not adversely affect the anaerobic digestion process.

The digested liquor floatation water from which the microbial concentrated sludge has been removed has lower concentration of solids and organic components than the digested liquor without the microbial enrichment process, so it can be used as a higher quality liquid ratio, even if the sewage system and wastewater treatment process are applied. It can be easily economically cleaned and discharged.

The anaerobic microbial concentrator according to the present invention is composed of a combination of an anaerobic digester and a microbial concentrator, characterized in that the anaerobic digestion liquid discharged from the anaerobic digester is separated into treated water and solid matter using the microbial concentrator.

The microbial concentrator serves to separate the anaerobic digestion liquid into the treated water and the supernatant using the pressure flotation separation principle. In the process of performing the pressure flotation, the anaerobic digestion liquid is used as a mixed liquid of the pressure flotation separation, and the biogas is pressurized. It is used as pressurized gas for floating separation. In addition, the solid material separated by the microbial concentrator, that is, the microbial concentrator is re-supplied to the anaerobic digester to increase the concentration of microorganisms in the anaerobic digester and ultimately improve the biogas production efficiency.

In addition, since biogas such as methane, which does not contain oxygen, is used as a pressurized gas for pressurized flotation, even if the microorganism concentrate is re-supplied to the anaerobic digester, it does not adversely affect the anaerobic digestion process.

Hereinafter, an anaerobic microorganism concentrating device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a conceptual diagram of an anaerobic microorganism concentrator according to the present invention, Figure 2 is a block diagram of an anaerobic microorganism concentrator according to an embodiment of the present invention.

As shown in Figure 1 and 2, the anaerobic microorganism concentrator 120 according to an embodiment of the present invention is largely composed of a combination of anaerobic digester 110 and microbial concentrator 120.

The anaerobic digestion tank 110 is a device for generating anaerobic digestion of organic waste and discharging the anaerobic digestion liquid, and the microbial concentrator 120 uses anaerobic digestion fluid to treat treated water and microorganisms using a pressurized flotation separation principle. It separates into solid matter, which is a concentrate. Specifically, in the present invention, by means of pressurized flotation separation means that the biogas is pressurized in the digestive liquid by applying a pressure higher than atmospheric pressure, and then exposed under atmospheric pressure to float and separate the solid material in the digestive liquid with the biogas.

The microorganism concentrator 120 is configured in detail, including a mixing means 123, a pressurizing means 122 and the floating separation tank 121, a coagulant supply means 124 may be added as necessary. have.

The mixing means 123 of the microorganism concentrator 120 serves to mix the anaerobic digestion liquid and the biogas supplied from the anaerobic digester 110, respectively. At this time, when the flocculant supply means 124 is further provided, the mixing means 123 mixes anaerobic digestion liquid, biogas and flocculant, and the flocculant supplied from the flocculant supply means 124 is contained in the anaerobic digestion liquid It acts to agglomerate solid matter.

In one embodiment, the mixing means 123 may be composed of a line mixer 123a and an ejector 123b as shown in FIG. 2. The ejector 123b serves to mix the anaerobic digestion liquid and the biogas by transferring a certain amount of biogas without a force when the anaerobic digestion liquid is transferred at a high pressure by a pressure pump 122b to be described later. The flocculant supplied from the flocculant supply means 124 serves to mix the anaerobic digestion liquid and the biogas without additional power.

The pressurizing means 122 serves to pressurize the biogas into the anaerobic digestion liquid by applying a pressure higher than atmospheric pressure to the mixture of the anaerobic digestion liquid and the biogas. The pressurizing means 122 is composed of a pressurizing tank 122a and a pressurizing pump 122b. The pressurizing tank 122a provides a space in which the mixture of anaerobic digestion liquid and biogas is pressurized, and the pressurizing pump 122b. Serves to supply the anaerobic digestion fluid to the pressure tank 122a at a pressure higher than atmospheric pressure.

The flotation separation tank 121 exposes the anaerobic digestion fluid under atmospheric pressure in a state in which the biogas pressurized anaerobic digestion fluid is supplied from the pressurizing means 122 to expose the biogas pressurized in the anaerobic digestion fluid to a micro bubble. ) To induce a solid component of the digestive fluids. At this time, the solid matter in the anaerobic digestion fluid is attached to the microbubble and floated together, whereby the anaerobic digestion fluid is separated into the solid material and the treated water. Here, the treated water may be discharged by applying a separate digestive fluid wastewater treatment process, or may be utilized as a liquid fertilizer.

On the other hand, the solid material separated by the flotation separation tank 121, that is, the microbial enrichment material is supplied to the anaerobic digestion tank 110, through which it is possible to increase the concentration of microorganisms in the anaerobic digestion tank 110. In this way, the organic load and throughput can be improved by increasing the concentration of microorganisms in the anaerobic digestion tank 110, thereby improving the production efficiency of biogas.

In addition, unlike the conventional pressurized flotation device which uses air and pressurized flotation separation water as pressurized gas and mixed liquid, respectively, anaerobic digestion liquid and biogas generated in the anaerobic digester are used as mixed liquid and pressurized gas, respectively. Accordingly, even if the solid component separated by the flotation tank is supplied to the anaerobic digester again, the anaerobic digestion process is not inhibited by the solid component. The anaerobic digestion process must be maintained anaerobic. When air is used as a pressurized gas, the oxygen component is attached by the solid components supplied in the anaerobic digester, which can adversely affect anaerobic digestion, and external substances are added to the anaerobic digester. Ingress can result in instantaneous pressure imbalances and instability in closed digesters.

1 is a conceptual diagram of an anaerobic microorganism concentrating device according to the present invention.

2 is a block diagram of an anaerobic microorganism concentrating device according to an embodiment of the present invention.

Description of the main parts of the drawing

110: anaerobic digester 120: microbial concentrator

121: floating separation tank 122: pressurizing means

122a: Pressurized tank 122b: Pressurized pump

123: mixing means 123a: line mixer

123b: ejector 124: flocculant supply means

Claims (4)

Anaerobic digester for anaerobic digestion of organic waste; And It comprises a microbial concentrator for separating the anaerobic digestion liquid discharged from the anaerobic digester by pressurized flotation to separate the treated water and the solid material, In the pressurized flotation separation process, anaerobic digestion liquid is used as a mixed liquid of the pressurized flotation separation, biogas generated in the anaerobic digestion tank is characterized in that the anaerobic microbial concentrator is used as a pressurized gas of the pressure flotation separation. According to claim 1, wherein the microorganism concentrator, Mixing means for mixing the anaerobic digestion liquid and biogas supplied from the anaerobic digester; A pressurizing means for receiving the digestion liquid mixed with the biogas from the mixing means and applying a pressure higher than atmospheric pressure to pressurize the biogas into the anaerobic digestion liquid; The digestion fluid pressurized by the biogas is supplied from the pressurizing means, and the solid material in the anaerobic digestion fluid is floated and separated using the flotation force of the biogas converted into the micro bubble form by exposing it under atmospheric pressure. Anaerobic microbial concentrator characterized in that it comprises a flotation separation tank conveyed to the anaerobic digester. The anaerobic microorganism concentrating device according to claim 2, further comprising a coagulant supplying means for supplying a coagulant to the mixing means to agglomerate the solid matter contained in the anaerobic digestion liquid. The anaerobic microorganism concentrator of claim 2, wherein the mixing means comprises a line mixer and an ejector.

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