KR101305685B1 - Scum removing apparatus for digester - Google Patents

Abstract

The present invention relates to a scum removal apparatus of a digester of a new structure for quickly and efficiently discharging scum generated in a digester to the outside without inhibiting the treatment reaction of anaerobic microorganisms.
According to the present invention, the closed digester (10), the gas circulation pipe (12) connected to the upper portion in the digester (10) and communicated to the central lower portion of the digester (10) via a blower (13), the digester ( 10 and a turning discharge port 18 disposed below the water surface so as to be close to the inner circumferential surface of the circumference and discharging the extinguishing liquid or gas sucked from the digester 10 toward the tangential direction of the digester 10, and the digester 10. Located at the water level of the inlet end is installed lower than the liquid level of the digestive fluid scum collecting part 20 and the scum collected with the digestive fluid is collected and the digestive fluid and scum collected in communication with the scum collecting part 20 There is provided a scum removing apparatus of a digester including a scum separator 24 for returning the digested liquid separated and returned to the digester 10.

Description

Scum removing apparatus for digester

The present invention relates to a scum removing apparatus of a digester, and more particularly, to discharge and remove scum generated in a digester to the outside quickly and efficiently without inhibiting the treatment reaction of anaerobic microorganisms in a digester such as a wastewater treatment system. The scum removal apparatus of the digester of the structure.

The digester is a closed tank used for bioreduction treatment of wastewater, and biologically decomposes sludge by anaerobic microorganisms present in a large amount of sludge contained in wastewater, that is, digestive fluid. However, such digesters are applied to biological treatment systems of sewage treatment plants, landfill leachate, live manure, food waste, livestock manure, purified water sludge, alcohol distillation waste or yeast production waste, slaughtered waste and other organic wastes. Biomass contained in waste water is decomposed into carbon dioxide or methane by anaerobic microorganisms.

However, when sludge in the wastewater being processed in such a digester rises over the surface of water over time and hardens on the surface, a thick scum layer is formed. As such, scum hardened on the surface of the wastewater inhibits the reaction of anaerobic microorganisms, thereby lowering the efficiency of the entire system. In addition, when a separate air or liquid is injected from the outside of the digester to remove or crush such scum, the anaerobic reaction atmosphere in the digester cannot be maintained, thereby reducing the treatment efficiency by anaerobic microorganisms.

Patent Publication No. 10-2005-0058180 discloses an apparatus for forming a spiral flow rate near the bottom of a bioreactor by arranging vertically aligned guide pipes in the inner center of the bioreactor. And discharge efficiency is not satisfactory.

The present invention has been proposed in view of the conventional problems as described above, the present invention is a digestion tank that decomposes the biomass by anaerobic reaction, having a simple structure and no introduction of outside air to maintain a good anaerobic atmosphere on the surface The present invention aims to provide a scum removal device of a digester with a new structure that can effectively remove or crush the scum to rise to promote the biodegradation reaction in the digester, thereby reducing the manufacturing and maintenance costs.

According to one feature of the invention, the closed digester (10), the gas circulation pipe (12) connected to the upper portion in the digester (10) and communicated to the central lower portion of the digester (10) via a blower (13), A turnout outlet 18 disposed below the water surface so as to be close to the inner circumferential surface of the digester 10 and discharging the extinguishing liquid or gas sucked from the digester 10 toward the tangential direction of the digester 10; The scum collecting part 20 which is located at the water level of 10 and whose inflow end is installed lower than the liquid level of the extinguishing liquid so that scum is introduced and collected together with the extinguishing liquid, and the extinguishing liquid collected in communication with the scum collecting part 20 And a scum separator 24 which separates the scum and returns the separated extinguishing liquid to the digester 10, wherein the extinguishing fluid and the sludge are together by the gas rising from the lower center of the digester 10 to the center of the digester 10. Ascending from the bottom to the top center After flowing toward the digester 10, the inner wall thus turning as sukeom collecting unit 20 is collected scum from the scum separated portion 24 of the digester characterized in that the separation is removed from the scum removal apparatus is provided.

According to another feature of the present invention, the digestive fluid return pipe 28 from the scum separation unit 24 is provided with a scum removal apparatus of the digester, characterized in that connected to the pivot outlet (18).

According to another feature of the present invention, a scum jersey plate 34 is disposed at a position proximate to the inlet side of the scum collection unit 20 so as to expose the top of the scum to prevent the scum from moving. A scum crushing nozzle 36 for discharging a digestive liquid toward the gathered scum is provided at the front upper portion adjacent to the plate 34.

As described above, according to the present invention, the gas is withdrawn from the upper part in the closed digester 10 and discharged to the gas circulation tube 12 of the lower center of the digester 10, and the upper portion of the digester 10 By arranging the turning discharge port 18 for turning the digestive liquid of the water, and installing the inlet end of the soak collecting unit 20 lower than the water surface, the scum floating in the upper part of the digestion liquid of the digester 10 is pushed to the circumference of the digester 10. By turning out and turning it back along the inner wall of the digester 10 slowly, the scum collector unit follows the natural flow of the digester 10 without introducing air or water from the outside and without a separate mechanical transport or transfer means. Since it can be collected and discharged to 20, scum can be easily collected and removed without disturbing the anaerobic environment in the digester 10 due to external air or inflow water, It can promote the decomposition reaction. In addition, the digestion liquid leaked out with the scum from the scum collection unit 20 is separated from the scum through the scum separator 24 and then returned to the digester 10 through the turning discharge port 18, thereby simplifying the configuration of the apparatus. Can be fermented efficiently.

In addition, the scum collecting plate 20 is disposed at the front end of the scum collecting unit 20, and the scum that is prevented from moving is shredded by spraying the extinguishing liquid through the scum crushing nozzle 36 to crush the scum. By crushing can be transformed into sludge that can react by contact with the microorganism, by removing only the scum that is not broken through the scum collection unit 20, scum is more effectively removed to achieve a digestive tank excellent in microbial reactivity can do.

1 is a cross-sectional front view of an embodiment of the present invention.
2 is a plan sectional view of the embodiment
3 is a perspective view of main parts of the embodiment;

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. 1 is a front sectional view of an embodiment of the present invention, FIG. 2 is a plan sectional view of the embodiment, and FIG. 3 is a perspective view of main parts of the embodiment. As shown, according to the present invention, a digestive tank 10 in the form of a closed tank is provided, and the digester 10 receives wastewater from the previous process through the inlet pipe 11. And the inlet end of the gas circulation pipe 12 is opened in the upper portion of the digester 10, the gas inlet 12 is a circulating discharge port disposed in the central lower portion of the digester 10 through the blower (13) 14), the gas such as carbon dioxide or methane generated in the digester 10 is led to the lower center of the digester 10 to form an upward flow in the central portion of the digester (10). Accordingly, the sludge rises at the lower part of the center of the digester 10 together with the extinguishing liquid and then flows from the upper side to the outer direction, that is, toward the inner wall.

Then, a plurality of turning outlets 18 are arranged at regular intervals so as to be close to the inner circumferential surface of the digester 10. This turning discharge port 18 is connected to the digestive fluid return pipe 25 from the scum separation unit 24 to be described later, and is opened in the same direction along the tangential direction with respect to the inner wall of the digester 10 to eject the extinguishing fluid. Accordingly, the extinguishing liquid flowing outwardly from the center of the digester 10 flows gradually along one side along the inner wall of the digester 10 along with the sagure or scum. According to the present invention, the gas circulation tube 12 having a simple structure ) And the turning discharge port 18 to achieve an efficient flow path of the digestive fluid in the digester 10 can effectively guide the sludge or scum generated in the digester 10 to flow.

And the scum collection part 20 of the substantially hopper shape is formed in the water level of the digester 10. The scum collection unit 20 is the upper end is formed higher than the water level and the digestive fluid flows through the notch-shaped weir (21), which is formed by cutting from the upper end, and the specific gravity is smaller than the digestive fluid along with the water surface Floating lumps scum are introduced together and collected and discharged. The scum collection unit 20 is connected to the scum separating unit 24 formed outside the digester 10. The scum separator 24 is formed in a water tank shape, and a plurality of diaphragms 25 arranged in the vertical direction are formed, and the extinguishing liquid flowing into the lower portion of the diaphragm 25 is connected to the extinguishing liquid outlet 26 connected to the lower portion of the scum separator 24. Is discharged through the) to return to the digester (10) through the pump 27 and the digestive fluid return pipe (28). At this time, preferably, the digestive fluid return pipe 28 is connected to the pivot outlet 18 in the digester 10 and used to pivot the digestive fluid.

In addition, the scum jersey plate 34 and the scum crushing nozzle 36 are arranged at the front end of the scum collection part 20, that is, the position close to the inlet side. The scum Jersey plate 34 is installed so that its upper end is exposed to the surface of the water to prevent movement of the scum that is gradually turned and moved. Accordingly, a lot of scum lumps are gathered in front of the scum Jersey plate 34, and a plurality of scum crushing nozzles 36 are arranged on the upper portion thereof, and the extinguishing liquid is injected at a high pressure. Accordingly, the scum that is cured to form agglomerates is finely crushed to be in contact with the microorganisms, so that the biomass in the form of sludge or suspension which is easily reacted is promoted. However, the scum which is not broken even by the hydraulic pressure of the scum crushing nozzle 36 flows over or bypasses the scum scrubber plate 34 and then flows into the scum collecting part 20 arranged next to the scum outside the digester 10. The scum, which is discharged to the separating portion 24, wherein the scum separated from the extinguishing liquid is mechanically crushed again through a separate process (not shown), or is subjected to a process such as external removal.

Although not shown, a plurality of aeration nozzles may be formed on the inner bottom surface of the digester 10.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (3)

A closed digester 10, a gas circulation tube 12 connected to an upper portion of the digester 10 and communicating with a blower 13 to a central lower portion of the digester 10, and a circumference of the digester 10. It is disposed below the water surface so as to be close to the inner circumferential surface and the turning discharge port 18 for discharging the digestion liquid or gas sucked from the digester 10 toward the tangential direction of the digester 10, and located at the water level of the digester 10 The inflow end is installed lower than the liquid level of the digestive fluid and the scum collecting part 20 is collected and flows together with the digestive fluid, and the digestive fluid separated by separating the digestive fluid and scum collected by communicating with the scum collecting part 20 It includes a scum separator 24 for returning to the digester 10, the digestion liquid and sludge together with the gas rising from the central lower portion of the digester 10 rises from the lower center of the digester 10 to the outward from the upper center Digester (10) The scum removal apparatus of the digester, characterized in that the scum is collected from the comb collecting portion 20 and separated and removed from the scum separating portion 24 while turning along the inner wall.
The apparatus of claim 1, wherein the digestive fluid return pipe (28) from the scum separator (24) is connected to the pivot outlet (18).
The scum Jersey plate 34 according to claim 1 or 2, wherein an upper end thereof is exposed to the surface of the scum collection unit 20 so as to be exposed to the surface of the scum collecting unit 20, and a scum jersey plate 34 is disposed to prevent movement of the scum. The scum crushing nozzle of the digester, characterized in that the scum crushing nozzle 36 for injecting the digestive fluid toward the gathered scum in the front upper portion adjacent to the scum Jersey plate 34.

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