KR20160024080A - Dry-Wet intergrating type anaerobic digestion system using biodegradable organic wastes - Google Patents

Abstract

The dry wet integrated anaerobic digestion system using the biodegradable organic waste according to the present invention comprises: a dry anaerobic digestion tank for fermenting biodegradable organic waste; A hydrolysis liquid storage tank connected to the dry anaerobic digestion tank and storing the hydrolyzate liquid leached from the dry anaerobic digestion tank; A hydrolysis liquid injector connected between the hydrolysis liquid storage tank and the dry anaerobic digestion tank to cause the hydrolysis liquid stored in the hydrolysis liquid storage tank to be sprayed from the upper portion inside the dry anaerobic digestion tank; A wet anaerobic digestion tank connected to the hydrolysis liquid storage tank for anaerobic digestion of the hydrolysis liquid supplied from the hydrolysis liquid storage tank to produce biogas; And a nitrification liquid reservoir connected to the wet anaerobic digestion tank and reacting the liquid organic waste discharged from the wet anaerobic digestion tank with an aerobic reaction to produce a liquid fertilizer.
Accordingly, it is possible to provide a dry and wet anaerobic digestion system using biodegradable organic waste which can easily overcome disadvantages of dry anaerobic digester and wet anaerobic digestor, and efficiently utilize biodegradable organic waste.

Description

[0001] Dry-wetting integrated anaerobic digestion system using biodegradable organic wastes [0002]

The present invention relates to a dry and wet integrated anaerobic digestion system using biodegradable organic waste, and more particularly to a biodegradable organic waste which can be effectively used by treating biodegradable organic waste such as sewage sludge, food waste, The present invention relates to a wet integrated anaerobic digestion system.

Recently, as the generation of organic wastes increases, methods for treating such wastes are emerging. However, as marine discharges such as food waste, livestock manure, etc. are banned, it has become necessary to construct various treatment methods.

An anaerobic digester that produces biogas from organic wastes such as sewage sludge, food waste, and livestock manure can be divided into a wet anaerobic digester and a dry anaerobic digestor depending on the solid content of the incoming raw material.

An example of an anaerobic digestion system including such an anaerobic digestion tank is disclosed in Korean Patent Registration No. 10-0215086 (registered May 21, 1999, hereinafter referred to as Patent Document 1).

However, since the anaerobic digestion system according to the prior art is applied to only one of dry and wet anaerobic digesters, it is difficult to overcome the shortcomings of the dry anaerobic digester and the wet anaerobic digester.

For example, anaerobic digestion systems using dry anaerobic digestion tanks may have a relatively simple structure, but agitation of raw materials may become difficult, and anaerobic digestion systems using wet anaerobic digestion tanks may be susceptible to toxic substances when treated with high concentrations of organic waste The safety of the operation is required and hydrolysis is required, which leads to a problem that the capacity of the digester may be increased.

In addition, the composting method is composted through the anaerobic digestion process, but the composting method has various problems in the resource conversion due to the sawdust cost to be mixed in the treatment and the lack of the sales network.

Korea Patent Registration No. 10-0215086 (registered May 21, 1999)

It is an object of the present invention to provide a dry and wet anaerobic digestion system using biodegradable organic waste which can easily overcome the disadvantages of dry anaerobic digester and wet anaerobic digestor and treat biodegradable organic waste efficiently, will be.

In order to accomplish the above object, a dry wet integrated anaerobic digestion system using biodegradable organic waste according to the present invention comprises: a dry anaerobic digestion tank for fermenting biodegradable organic waste; A hydrolysis liquid storage tank connected to the dry anaerobic digestion tank and storing the hydrolyzate liquid leached from the dry anaerobic digestion tank; A hydrolysis liquid injector connected between the hydrolysis liquid storage tank and the dry anaerobic digestion tank to cause the hydrolysis liquid stored in the hydrolysis liquid storage tank to be sprayed from the upper portion inside the dry anaerobic digestion tank; A wet anaerobic digestion tank connected to the hydrolysis liquid storage tank for anaerobic digestion of the hydrolysis liquid supplied from the hydrolysis liquid storage tank to produce biogas; And a nitrification liquid reservoir connected to the wet anaerobic digestion tank and reacting the liquid organic waste discharged from the wet anaerobic digestion tank with an aerobic reaction to produce a liquid fertilizer.

Herein, the dry wet integrated anaerobic digestion system using the biodegradable organic waste according to the present invention comprises a biogas storage device connected to the wet anaerobic digestion tank for storing the biogas produced in the wet anaerobic digestion tank, And a dehumidification desulfurization device connected to the biogas storage device for removing water, hydrogen sulfide, and ammonia from the biogas stored in the biogas storage device.

Preferably, the wet anaerobic digestion tank is connected to a storage heat-resistant water tank for maintaining a constant temperature.

A plurality of partition walls for activating the exhalation reaction of the organic waste are arranged in the zigzag pattern in the nitrified liquid reservoir, and a plurality of air nozzles connected to the air blower are installed in the lower portion.

According to the present invention, it is possible to provide a dry and wet anaerobic digestion system using biodegradable organic waste which can easily overcome disadvantages of dry anaerobic digester and wet anaerobic digestor, and efficiently utilize biodegradable organic waste have.

In addition, it is possible to maximize the production of biogas by decomposing and stabilizing high concentration organic wastes, to utilize biodegradable organic waste that can recover liquid methane (CH ₄ ) as an energy source and to produce liquid fertilizer instead of composting, System can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the construction of a dry wet type anaerobic digestion system using biodegradable organic waste according to the present invention;
Fig. 2 is a configuration diagram showing an example of the configuration of part A in Fig. 1,
FIG. 3 is a view showing an example of an apparatus in which the configurations of FIG. 2 are integrally provided;
FIG. 4 is an enlarged view of the nitrified liquid ratio tank of FIG. 2; FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1, the dry wet integrated anaerobic digestion system 100 using the biodegradable organic waste according to the present invention includes a dry anaerobic digestion tank 110, a hydrolysis solution storage tank 120, A device 130, a wet anaerobic digester 140, and a nitrifying liquid reservoir 150.

The dry anaerobic digestion tank 110 is vertically provided for anaerobic digestion of a solid material having a solid content of 20% or more, and biodegradable organic wastes introduced into the anaerobic digestion are fermented and hydrolyzed.

1 and 2, the hydrolysis solution storage tank 120 is connected to the dry anaerobic digestion tank 110 and stores a hydrolyzate solution leached from the dry anaerobic digestion tank 110.

2, the piping connected to the hydrolysis liquid sprayer 130 in the hydrolysis liquid reservoir 120 is provided with a circulation pump 121, It is preferable that the piping connected to the wet anaerobic digestion tank 140 is provided with a metering pump 123.

1, the hydrolysis liquid injector 130 is connected between the hydrolysis liquid storage tank 120 and the dry anaerobic digestion tank 110 to mix the hydrolysis liquid stored in the hydrolysis liquid storage tank 120 So as to be circulated in the upper part of the dry anaerobic digestion tank (110).

Accordingly, the hydrolysis liquid is sprayed through the hydrolysis liquid injector 130 from the upper part of the interior of the vertical dry anaerobic digestion tank 110, thereby promoting the hydrolysis of the soluble substance in the organic waste At the same time, the hydrolysis liquid is circulated and sprayed, so that organic substances capable of producing biogas can be continuously supplied to the wet anaerobic digestion tank (140).

As shown in FIG. 2, the hydrolysis liquid injector 130 is preferably provided integrally with the dry anaerobic digestion tank 110 on the upper part of the dry anaerobic digestion tank 110.

As shown in FIGS. 1 to 3, the wet anaerobic digestion tank 140 is connected to the hydrolysis liquid storage tank 120 for anaerobic digestion of raw materials in a liquid state or a slurry state up to a solid content of about 15% The hydrolysis solution supplied from the hydrolysis solution reservoir 120 is anaerobically digested to produce biogas.

Accordingly, since the wet anaerobic digestion tank 140 is provided together with the dry anaerobic digestion tank 110, safety of operation due to sensitivity to toxic substances, which is a disadvantage of wet anaerobic digestion, and the problem of large capacity due to hydrolysis can be solved, It is possible to solve the problem of raw material stirring which is a drawback of dry anaerobic digestion.

As shown in FIG. 2, the wet anaerobic digestion tank 140 may be connected to a storage-and-regulating water tank 141 for maintaining a constant temperature.

1 to 3, the nitrification liquid reservoir 150 is connected to the wet anaerobic digestion tank 140 and exothermically reacts the liquid organic waste decomposed and discharged in the wet anaerobic digestion tank 140 to produce a liquid fertilizer Production.

Accordingly, by operating the dry anaerobic digestion tank 110, the wet anaerobic digestion tank 140, and the nitrifying liquid ratio tank 150 together, it is possible to easily overcome disadvantages of both dry anaerobic digestion and wet anaerobic digestion and to treat biodegradable organic waste So that the wet anaerobic digestion tank 140 produces biogas and the nitrification liquid tank 150 produces a liquid fertilizer to be supplied to farmhouses and the like.

In addition, it is possible to maximize the production of biogas by decomposing and stabilizing high-concentration organic wastes such as sewage sludge, food waste, livestock manure, etc. through the dry wet integrated anaerobic digestion system 100 according to the present invention and recovering methane (CH ₄ ) It can be used as an energy source to produce liquid fertilizer instead of composting.

4, a plurality of partitions 151 for activating the exhalation reaction of the organic waste are disposed in the upper and lower zigzags in the nitrified liquid reservoir 150, It is preferable that a plurality of air nozzles 155 connected to the air blower 153 are installed in the lower part of the partition walls 151 in the interior of the air conditioner 150.

Accordingly, the air entering from the air blower 153 to the nitrified liquid reservoir 150 through the air nozzle 155 is dispersed and diffused so as to be struck against a plurality of partition walls 151 arranged in a zigzag manner, The reaction time in which the waste is mixed with the air can be increased to further promote the exhalation reaction.

1, the dry wet integrated anaerobic digestion system 100 using the biodegradable organic waste according to the present invention is connected to the wet anaerobic digestion tank 140, (H ₂ O) and hydrogen sulfide (H ₂ S) contained in the biogas stored in the biogas storage device 160, the biogas storage device 160 being connected to the biogas storage device 160, , And a dehumidification desulfurizer 170 for removing the ammonia (NH ₃ ) component.

Thus, the biogas produced in the wet anaerobic digestion tank 140 is sent to a power generation facility such as a cogeneration system via the biogas storage device 160 and the desulfurization desulfurization device 170, Can be produced.

2 and 3, the dry and wet anaerobic digestion system 100 according to the present invention includes a dry anaerobic digestion tank 110, a hydrolysis liquid storage tank 120, a wet anaerobic digestion tank 140, And a control panel 180 for controlling the operation of the circulation pump 121 and the metering pump 123 are preferably provided in the nitrified liquid reservoir 150 and the like.

Thus, according to the present invention, there is provided a dry and wet integrated anaerobic digestion system 100 using biodegradable organic waste which can easily overcome disadvantages of dry anaerobic digestion and wet anaerobic digestion, and efficiently utilize biodegradable organic waste ). ≪ / RTI >

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

110: dry anaerobic digestion tank 120: hydrolysis liquid storage tank
130: hydrolysis liquid injector 140: wet anaerobic digester
141: Storage heat storage water tank 150: Nitrification liquid ratio tank
151: partition wall 153: air blower
155: Air nozzle 160: Biogas storage device
170: Dehumidification desulfurization device

Claims (4)

A dry anaerobic digester for fermenting biodegradable organic waste;
A hydrolysis liquid storage tank connected to the dry anaerobic digestion tank and storing the hydrolyzate liquid leached from the dry anaerobic digestion tank;
A hydrolysis liquid injector connected between the hydrolysis liquid storage tank and the dry anaerobic digestion tank to cause the hydrolysis liquid stored in the hydrolysis liquid storage tank to be sprayed from the upper portion inside the dry anaerobic digestion tank;
A wet anaerobic digestion tank connected to the hydrolysis liquid storage tank for anaerobic digestion of the hydrolysis liquid supplied from the hydrolysis liquid storage tank to produce biogas; And
A nitrification liquid reservoir connected to the wet anaerobic digestion tank to produce a liquid fertilizer by aerobic reaction of liquid organic waste discharged from the wet anaerobic digestion tank;
Wherein the biodegradable organic waste is used in a dry, wet integrated anaerobic digestion system. The method according to claim 1,
A biogas storage device connected to the wet anaerobic digestion tank for storing the biogas produced in the wet anaerobic digestion tank;
Further comprising a dehumidifying and desulfurizing device connected to the biogas storage device for removing water, hydrogen sulfide, and ammonia from the biogas stored in the biogas storage device. Digestive system. 3. The method of claim 2,
Wherein the wet anaerobic digestion tank is connected to a regenerative thermostatic water tank for maintaining a constant temperature. 4. The method according to any one of claims 1 to 3,
Wherein a plurality of partition walls for activating the exhalation reaction of the organic waste are disposed in the upper and lower zigzags and a plurality of air nozzles connected to the air blowers are installed in the nitrified liquid reservoir. Anaerobic digestion system.

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