WO2015115753A1 - Hydraulic screw stirring-type anaerobic digestion apparatus for organic waste - Google Patents

Abstract

The present invention relates to a hydraulic screw stirring-type anaerobic digestion apparatus for organic waste for the treatment, reduction, and energization of various organic waste such as various types of sludge generated from sewage and waste water disposal facilities, livestock manure, and food liquid waste. The present invention comprises: an anaerobic digestion tank (10) formed in a double cylindrical shape of an inner tank (11) and an outer tank (12) for treating organic waste; a screw stirrer (20) which is provided in the inner tank (11) and vertically stirs sludge; an upper horizontal stirrer (30) which is connected to the upper part of the screw stirrer (20) so as to remove scum and bubbles; a lower horizontal stirrer (40) which is connected to the lower part of the screw stirrer (20) so as to horizontally stir the settled sludge; a circulation pump (50) which is connected to the lower horizontal stirrer (40) so as to circulate the settled sludge to the upper part of the anaerobic digestion tank (10); a heating tube (60) which is provided so as to surround the inner tank (11), and which maintains and adjusts the temperature of the anaerobic digestion tank (10); and a hydraulic motor (70) for driving the screw stirrer (20).

Description

Anaerobic Digestion System for Hydraulic Screw Stirred Organic Waste

The present invention relates to an anaerobic digestion apparatus for hydraulic screw stirring type organic waste, and more specifically, to various types of organic waste such as sludge, livestock manure and food waste generated from sewage and wastewater treatment plants, and to reduce and improve energy efficiency. The present invention relates to an anaerobic digestion apparatus for hydraulic screw stirring type organic waste.

In general, wastewater such as sewage, sewage, and manure generated at home, livestock farms, and industrial sites may contain a large amount of organic matter. Therefore, when the wastewater containing organic matter is discharged in a state where biological and chemical oxygen demand and suspended solids content do not reach the environmental standard value, soil or water is contaminated. As a result, the organic matter in the wastewater is discharged to rivers and the like in a purified state through biological, physical and chemical treatments, thereby reducing environmental pollution.

However, when the organic matter in the waste water is treated by a physical method, its treatment effect is insignificant, and chemical treatment requires a lot of treatment costs along with water pollution, and recently, a biological method using microorganisms is mainly used.

One of these biological methods, anaerobic digestion, is a reaction in which anaerobic microorganisms ingest organic matter and release inorganic compounds and digestive gases (biogas). Anaerobic digestion is a traditional technique that has been established for some time, also known as methane fermentation. The main purpose of the anaerobic digestion process is to recover the energy of methane at the same time as treating organic waste.

In general, anaerobic digestion is divided into pretreatment process, anaerobic digestion process, gas collection and purification process, and solid resource recycling process. Most of the anaerobic digestion process is applied to the content of solids within 10%, it is also applicable to the high concentration organic waste of about 25% solids according to the recent technology development. However, when processing a high concentration of solids, there is a tendency that the agitator is not installed at all, or the agitation efficiency is extremely weak, so that the treatment efficiency is lowered due to the generation of dead zones.

Conventional anaerobic digestion tanks have to increase their capacity for the treatment of large amounts of organic waste, there is a limit to increase the capacity of the digester, there is a problem that the cost due to the increase in equipment also increases exponentially.

In order to solve this problem, Korean Patent No. 10-0958205 and Patent No. 10-1039741 disclose a cylindrical digester.

However, since the conventional cylindrical digester is not discharged due to the sludge and sediment deposited on the bottom surface, the effective volume of the digester is reduced and the shock of overload is easily affected, and the stirring efficiency is lowered, thereby reducing the extinguishing efficiency. As the anaerobic digestion efficiency is lowered, there is a problem in that the amount of biogas is reduced and the amount of sludge cannot be reduced.

In addition, conventionally there was a problem that can not be removed when the occurrence of scum and foam of the digestive fluid in the upper end of the digester.

In addition, conventionally, a sludge with microorganisms attached to the lower part of the digester is deposited, and since the settling sludge does not circulate smoothly to the upper part, there are various problems such as maintaining a constant concentration of the sludge in the digester.

[Preceding technical literature]

[Patent Documents]

(Patent Document 1) Patent Document 1: Registered Patent No. 10-0958205 (2010.05.07)

(Patent Document 2) Patent Document 2: Registered Patent No. 10-1039741 (2011.06.01)

An object of the present invention is to invent the conventional drawbacks as described above, to improve the treatment and reduction of various organic waste, such as various sludge, livestock manure, food waste liquid generated in the waste water treatment plant, and improve the energy efficiency To provide an anaerobic digestion apparatus for hydraulic screw stirring type organic waste.

In addition, the present invention can improve the anaerobic digestion apparatus of the hydraulic screw stirring type organic waste to improve the structure of the sludge to improve the efficiency of the sludge, improve the reactivity of the microorganisms and organic matter, and consequently to further increase the anaerobic digestion efficiency. To provide.

In addition, the present invention can minimize the maintenance and management costs by improving the structure, increase the production of biogas by improving the anaerobic digestion efficiency, anaerobic digestion apparatus of hydraulic screw stirring type organic waste to reduce the sludge amount To provide.

In addition, the present invention anaerobic digestion apparatus of the hydraulic screw stirring type organic waste to keep the concentration of the sludge in the anaerobic digestion tank is smoothly circulated to the top without depositing sludge attached to the lower part of the anaerobic digestion tank To provide.

The present invention also provides an anaerobic digestion apparatus for a screw stirring organic waste, which achieves a complete encapsulation of the anaerobic digestion tank through the application of a hydraulic motor and a system to prevent oxygen contact acting as an inhibitory factor during anaerobic digestion. To provide.

In order to achieve the above object, the present invention forms an anaerobic digestion tank for treating organic waste into a double cylinder consisting of an inner cylinder and an outer cylinder, and installs a screw stirrer for smoothly stirring sludge up and down in the inner cylinder of the anaerobic digestion tank, Connect the upper horizontal stirrer to remove the scum and foam of the extinguishing fluid to the upper portion of the hydraulic screw stirrer, and connects the lower horizontal stirrer for horizontally stirring the sludge deposited in the lower portion of the screw stirrer, and connected to the lower horizontal stirrer Connect the circulation pump to circulate the settling sludge to the top of the anaerobic digestion tank, wrap the inner cylinder with a heating tube to enable the temperature maintenance and control of the anaerobic digestion tank, to drive the screw stirrer by a hydraulic motor.

In addition, the screw stirrer is to control the stirring speed by the hydraulic motor and the hydraulic system.

In addition, the screw stirrer is to transfer the settling sludge of the lower anaerobic digestion tank to the top of the inner cylinder and to be stirred while the sludge is circulated back to the lower portion at the end of the upper inner cylinder.

In addition, the screw stirrer and the lower horizontal stirrer are connected to the gearbox so as to be rotated and stirred at a speed of 1/5 to 1/20 of the screw stirrer rotational speed.

In addition, the lower horizontal stirrer is equipped with a plurality of sludge scrapers at regular intervals between the rod-type shaft and the rod-type shaft in which a plurality of perforations are drilled to improve the horizontal stirring efficiency of the precipitated sludge, and by the external sludge circulation pump It is to prevent the dead zone by suctioning the precipitated sludge is transferred to the top of the digester to make vertical agitation.

In addition, when the volume or height of the anaerobic digester is increased, the hydraulic motor is installed on each or part of the upper horizontal stirrer, the screw stirrer, and the lower horizontal stirrer.

In addition, a plurality of perforations are installed on each of the rod-type shafts of the lower horizontal stirrer and the rod-type shafts of the upper horizontal stirrer, and the lower settling sludge is discharged through the rod-type shaft bores of the upper horizontal stirrer with an external circulation pump and stirred, After the time, the digestive fluid was discharged into the rod-type shaft perforation of the upper horizontal stirrer to the rod-type shaft perforation of the lower horizontal stirrer to circulate and stir.

In addition, the anaerobic digestion tank can be operated at medium temperature (35 ~ 40 ℃, generally 37 ℃) or high temperature (52 ~ 60 ℃, 55 ℃ ℃) through a heating tube wrapped around the inner cylinder, organic waste high temperature through heat solubilization When it is introduced into the state, it is to be introduced through the external heat source heating tube.

In addition, when the solubilizing solution of the heat-solubilized organic waste flows into the lower end of the heating tube which wraps around the inner cylinder of the anaerobic digestion tank, the temperature is kept constant in the anaerobic digestion tank by operating for a predetermined time and alternately flowing to the upper end. will be.

According to the anaerobic digestion apparatus of the hydraulic screw stirring type organic waste of the present invention, since the sludge is smoothly agitated by a screw stirrer, an upper horizontal stirrer, a lower horizontal stirrer, and a circulation pump, the agitation efficiency of the sludge can be increased, and through this, anaerobic digestion There is an effect that can further increase the efficiency.

In addition, by improving the anaerobic digestion efficiency, the production of biogas can be increased, thereby reducing the amount of sludge.

In addition, the sludge with microorganisms attached to the lower part of the anaerobic digestion tank is circulated smoothly to prevent the sludge in the anaerobic digestion tank from being kept constant in the upper and lower parts, and the scum and foam generated in the upper part of the anaerobic digestion tank can be maintained. There is an effect that can be easily removed.

1 is a schematic view showing an anaerobic digestion apparatus of the present invention.

Figure 2 is an enlarged view showing the main part of the present invention.

3 is a plan view of the lower horizontal stirrer according to the present invention.

4 is a plan view of the upper horizontal stirrer according to the present invention.

Figure 5a, 5b is an exemplary view showing another embodiment of the present invention.

Figure 6 is an exemplary view showing another embodiment of the present invention.

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

Anaerobic digestion apparatus of the hydraulic screw stirring type organic waste of the present invention, as shown in Figures 1 to 6, the anaerobic digestion tank 10 consisting of a double cylindrical structure of the inner cylinder 11 and the outer cylinder 12 for treating the organic waste. ; A screw stirrer 20 installed in the inner cylinder 11 of the anaerobic digestion tank 10 to stir the sludge up and down; An upper horizontal stirrer 30 connected to an upper portion of the screw stirrer 20 to remove scum and bubbles; A lower horizontal stirrer 40 connected to a lower portion of the screw stirrer 20 to horizontally stir the precipitated sludge; A circulation pump 50 connected to the lower horizontal stirrer 40 to circulate the settling sludge to the upper portion of the anaerobic digestion tank 10; A heating tube 60 installed to surround the inner cylinder 11 to maintain and control the temperature of the anaerobic digestion tank 10; It comprises a hydraulic motor 70 for driving the screw stirrer 20 is a basic feature of the technical configuration.

Here, the anaerobic digestion apparatus of the hydraulic screw stirring type organic waste according to the present invention is for the treatment, reduction and energy saving of various organic wastes such as various sludges, livestock manure and food wastes generated in sewage and wastewater treatment plants. Anaerobic digestion apparatus of the anaerobic digestion tank 10, the screw stirrer 20, the upper horizontal stirrer 30, the lower horizontal stirrer 40, the circulation pump 50, the heating tube 60 and the hydraulic motor (as described above) 70).

The anaerobic digestion tank 10 constitutes a main body of an anaerobic digestion apparatus for treating organic waste, and the anaerobic digestion tank 10 has a double cylinder having an inner cylinder 11 and an outer cylinder 12. At this time, the sludge discharge pump 100 is installed in the lower portion of the anaerobic digestion tank 10 as shown in FIG.

The screw stirrer 20 is to be installed in the inner cylinder 11 of the anaerobic digestion tank 10, the screw stirrer 20 serves to stir the sludge up and down smoothly. At this time, the screw stirrer 20 is the stirring speed is adjusted by the hydraulic motor 70 and the hydraulic system (71).

According to the present invention, the screw stirrer 20 is configured to transfer the lower sludge to the upper portion of the inner cylinder 11 as shown by the arrow of FIG.

The upper horizontal stirrer 30 is to be connected to the upper portion of the screw stirrer 20, the upper horizontal stirrer 30 serves to remove scum and foam of the digestive fluid. At this time, the upper horizontal stirrer 30 is composed of a rod-type shaft 31 and a plurality of scrapers 32 as shown in FIG.

The lower horizontal stirrer 40 is to be connected to the lower portion of the screw stirrer 20, the lower horizontal stirrer 40 serves to stir the sludge precipitated in the lower portion of the anaerobic digestion tank (10). At this time, the lower horizontal stirrer 40 is agitated sludge sludge precipitated by the difference in weight in the lower portion of the anaerobic digestion tank 10 horizontally and at the same time intake sediment sludge inside through the circulation pump 50 anaerobic digestion tank It is configured to circulate to the top of (10).

According to the present invention, as shown in Figure 2 and 3, the lower horizontal stirrer 40 is a rod-type shaft 41 formed with a plurality of perforations 41a and a plurality of which are mounted at regular intervals on the shaft 41 It consists of a scraper 42 and the sludge collection tank 43 is installed in the lower center of the shaft 41 is connected to the circulation pump 50. At this time, the lower horizontal stirrer 40 is mounted sludge scraper 42 at regular intervals between the rod-type shaft 41 and the rod-type shaft 41 in which the perforations 41a are drilled horizontally of the sludge settled. In order to improve the stirring efficiency, the sludge precipitated by the external sludge circulation pump 50 is sucked into the perforations 41a, and then transferred to the upper portion of the anaerobic digestion tank 10 through the sludge collection tank 43 so that vertical stirring is performed. This prevents dead zones.

According to the present invention, as shown in Figure 1, the screw stirrer 20 and the lower horizontal stirrer 40 is connected to the gear box 80 to reduce the speed of 1/5 ~ 1/20 of the rotation speed of the screw stirrer 20 It is configured to rotate stirring.

The circulation pump 50 is connected to the upper portion of the lower horizontal stirrer 40 and the outer cylinder 12, the circulation pump 50 serves to circulate the lower sedimentation sludge to the upper portion of the anaerobic digestion tank (10). .

The heating tube 60 is installed to surround the inner cylinder 11 to maintain and control the temperature of the anaerobic digestion tank 10, such a heating tube 60 to supply an external heat source to the inside of the anaerobic digestion tank 10. It is connected to heating equipment. At this time, the anaerobic digestion tank 10 through the heating tube 60 may be operated at a medium temperature (35 ~ 40 ℃, generally 37 ℃) or a high temperature (52 ~ 60 ℃, generally 55 ℃).

The hydraulic motor 70 drives the screw stirrer 20, and the hydraulic system 70 is connected to the hydraulic motor 70 so as to appropriately adjust the stirring speed of the screw stirrer 20.

Meanwhile, according to another exemplary embodiment of the present invention, as shown in FIGS. 5A and 5B, the upper horizontal stirrer 30 corresponds to the lower horizontal stirrer 40 and has a rod-type shaft 31 in which a plurality of perforations 31a are formed. And, it is installed in the central upper portion of the shaft 31 is composed of a sludge collection tank 33 is connected to the circulation pump (50). At this time, as shown in Figure 5a to discharge the lower sedimentation sludge to the circulation pump 50 through the perforations 31a of the upper horizontal stirrer 30, and after a certain time, the upper horizontal stirrer 30 as shown in Figure 5b The digestive fluid is discharged into the perforations 31a of the bottom through the circulation pump 50 to the perforations 41a of the lower horizontal stirrer 40 and circulated and stirred. Therefore, according to this embodiment of the present invention, as shown in Figures 5a and 5b can circulate the settling sludge and digested sludge in both the upper and lower portions of the anaerobic digestion tank 10, it is possible to remove scum and foam at the same time.

According to another embodiment of the present invention, as shown in Figure 5a, 5b, the lower horizontal stirrer 40 is characterized in that it is driven through a separate hydraulic motor (72). At this time, the hydraulic motor 72 is connected to the hydraulic system 71 to properly adjust the stirring speed of the lower horizontal stirrer 40.

In addition, according to the present invention, when the volume or height of the anaerobic digestion tank 10 is increased, the upper horizontal stirrer 30, the screw stirrer 20 and the lower horizontal stirrer 40 are respectively or part hydraulic motors 70, 72 ) Can be configured to operate.

According to another embodiment of the present invention, as shown in Figure 6, the heating tube 60 is characterized in that it is connected to a thermal solubilization reactor 90 for supplying a solubilizing solution of organic waste heat-solubilized at a high temperature. According to another embodiment of the present invention, when the solubilization solution of the heat-solubilized organic waste flows into the lower end of the heating tube 60 wrapped around the inner inner cylinder 11 of the anaerobic digestion tank 10 for a predetermined time Afterwards, the temperature in the anaerobic digestion tank 10 can be kept constant by repeatedly operating for a predetermined time and alternately flowing to the upper end.

Therefore, the present invention configured as described above uses the screw stirrer 20, the upper horizontal stirrer 30, and the lower horizontal stirrer 40 and the circulation pump 50 to circulate the settling sludge and the digestive fluid in both the upper and lower portions of the anaerobic digestion tank 10. Since it can be stirred smoothly while making the structure, smooth agitation of the settling sludge and digested sludge is made to increase the stirring efficiency of the sludge, and as a result, there is an advantage that can further increase the anaerobic digestion efficiency.

In addition, since the present invention can greatly improve the anaerobic digestion efficiency as described above, the production of biogas can be further increased, and the sludge amount can be greatly reduced.

In addition, the present invention is the sludge attached to the microorganisms in the lower portion of the anaerobic digestion tank 10 is smoothly circulated to the top without being deposited by the lower horizontal stirrer 40, the concentration of the sludge in the anaerobic digestion tank 10 up and down Sudden can be kept constant, there is an advantage that can easily remove scum and bubbles generated in the upper portion of the anaerobic digestion tank 10 with the upper horizontal stirrer (30).

[Description of the code]

10: anaerobic digestion tank 11: inner barrel

12: outer cylinder 20: screw stirrer

30: upper horizontal stirrer 31: upper horizontal stirrer shaft

31a: Perforated upper horizontal stirrer 32: Upper horizontal stirrer scraper

33: upper horizontal stirrer sludge collection tank 40: lower horizontal stirrer

41: lower horizontal stirrer shaft 41a: lower horizontal stirrer perforation

42: lower horizontal stirrer scraper 43: lower horizontal stirrer sludge collection tank

50: circulation pump 60: heating tube

70: hydraulic motor 71: hydraulic system

72: hydraulic motor 80: gearbox

90: heat solubilization reactor 100: discharge pump

[National R & D project supporting this invention]

(Task unique number) GT-11-B-02-008-1

(Ministry of Environment) Ministry of Environment

(Research and Management Specialized Institutions)

(Name of Research Project) Global Top Environmental Technology Development Project

(Name of research project) Development of integrated demonstration technology for Korea biogas production, recovery and utilization for energy independence of sewage treatment plant

(Contribution rate) 1/1

(Organizer) SK Chemicals

(Research Institute) 2011.08.01 ~ 2016.04.30

(Aim) Submit it to the Commissioner of the Korean Intellectual Property Office (Patent Judge, Referee) as above.

Claims (11)

1. Anaerobic digestion tank 10 consisting of a double cylinder of the inner cylinder 11 and the outer cylinder 12 for processing organic waste; A screw stirrer 20 installed in the inner cylinder 11 to stir the sludge up and down; An upper horizontal stirrer 30 connected to an upper portion of the screw stirrer 20 to remove scum and bubbles; A lower horizontal stirrer 40 connected to a lower portion of the screw stirrer 20 to horizontally stir the precipitated sludge; A circulation pump 50 connected to the lower horizontal stirrer 40 to circulate the settling sludge to the upper portion of the anaerobic digestion tank 10; A heating tube 60 installed to surround the inner cylinder 11 to maintain and control the temperature of the anaerobic digestion tank 10; Anaerobic digestion apparatus of a hydraulic screw stirring type organic waste, characterized in that it comprises a hydraulic motor (70) for driving the screw stirrer (20).
2. The anaerobic digestion apparatus of a hydraulic screw stirring type organic waste according to claim 1, wherein the screw stirrer (20) is controlled by a hydraulic motor (70) and a hydraulic system (71).
3. The anaerobic hydraulic screw stirring type organic waste of claim 1, wherein the screw stirrer 20 is configured to transfer the sludge of the lower portion to the upper portion and to stir while repeating the circulation from the end of the inner cylinder 11 to the lower portion. Fire Extinguishing System.
4. The method of claim 1, wherein the screw stirrer 20 and the lower horizontal stirrer 40 is connected to the gear box 80 is to be rotated and stirred at a rate of 1/5 ~ 1/20 of the rotation speed of the screw stirrer 20 An anaerobic digestion apparatus for hydraulic screw stirring type organic waste.
5. The lower horizontal stirrer (40) is a rod-type shaft (41) having a plurality of perforations (41a), a plurality of scrapers (42) mounted at regular intervals on the shaft (41), The anaerobic digestion apparatus of a hydraulic screw stirring type organic waste, characterized in that the sludge collecting tank 43 is installed at the center lower portion of the shaft 41 and connected to the circulation pump 50.
6. The upper horizontal stirrer 30 is installed in the rod-type shaft 31 having a plurality of perforations 31a and a central upper portion of the shaft 31 so as to correspond to the lower horizontal stirrer 40. The anaerobic digestion apparatus of the hydraulic screw stirring type organic waste, characterized in that consisting of a sludge collection tank (33) connected to the circulation pump (50).
7. The method of claim 6, wherein the circulating pump (50) to discharge the lower sedimentation sludge through the perforations (31a) of the upper horizontal stirrer (30), and after a certain time to the perforations (31a) of the upper horizontal stirrer (30) An anaerobic digestion apparatus of a hydraulic screw stirring type organic waste, characterized in that for extinguishing fluid to be circulated and agitated by discharging the digestion liquid into the perforations (41a) of the lower horizontal stirrer (40).
8. The anaerobic digestion apparatus of a hydraulic screw stirring type organic waste according to claim 1, wherein the lower horizontal stirrer (40) is driven through a separate hydraulic motor (72).
9. The hydraulic screw of claim 1, wherein the upper horizontal stirrer 30, the screw stirrer 20, and the lower horizontal stirrer 40 are operated by installing hydraulic motors 70 and 72 on each or a part of the upper and lower stirrers. Anaerobic digestion apparatus for agitated organic waste.
10. The anaerobic digestion apparatus of claim 1, wherein the anaerobic digestion tank is operated at a medium temperature (35 to 40 ° C.) or a high temperature (52 to 60 ° C.).
11. The anaerobic digestion apparatus of a hydraulic screw stirring type organic waste according to claim 1, wherein the heating tube (60) is connected to a thermal solubilization reactor (90) for supplying a solubilization solution of organic waste heat-solubilized at a high temperature.
    
    

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