KR200233825Y1 - Gas separeting device of high concentration organic wast water - Google Patents

Abstract

The present invention relates to a degassing apparatus of a high concentration organic wastewater solid-liquid separator. Conventionally, the treatment liquid separated by the solid-liquid separator contains ammonia-nitrogen gas, which causes severe odor during wastewater treatment, and also causes the activity of microorganisms to be degraded due to toxicity. There was a problem that causes a decrease in efficiency.

Therefore, the present invention is provided with a bowl 120 rotatably formed around the rotating shaft 121 at both sides in the casing 110 having a separation liquid outlet 111 at the lower side, and the bowl 120 inside the bowl 120. In the solid-liquid separator of the highly concentrated organic wastewater having a conveying screw 130 for discharging the sludge injected into one side of the 120 through the solid discharge port 123 of the other side, the outer side wall portion of the outer side of the bowl 120, 121 A plurality of separation liquid discharge holes (1) are formed concentrically on the orifice plate (3) having teeth (3A) in the separation liquid discharge hole (1), the outer casing portion 110 of the air The inlet 5 and the gas outlet 4 are formed to prevent odor removal as well as to reduce the activity of microorganisms due to toxicity, thereby increasing the efficiency of wastewater treatment.

Description

Gas separeting device of high concentration organic wast water

The present invention relates to a high concentration organic wastewater solid-liquid separator, and more particularly, to a high concentration organic wastewater solid-liquid to allow ammonia nitrogen gas contained in the treatment liquid separated in the high concentration organic wastewater solid-liquid separator to be separated from the treatment liquid. It relates to a deaerator of a separator.

In general, one of the most difficult problems in the treatment of manure, livestock wastewater and high concentration organic wastewater is the solid-liquid separation, the conventional solid-liquid separation is screen separation, such as drum screen, sheave screen, special sponge suction suction and centrifugation using a net The filter method, the vibrating solid-liquid separator, the method of dehydrating the whole liquid after chemical injection, or the method of dehydrating the floating or sedimentation after chemical injection have been mainly used.

However, the conventional solid-liquid separation method has a problem that not only the efficiency of solid-liquid separation is low, but also the screen or the network is clogged frequently due to abnormal workpieces such as hair, causing inconvenience and loss of its function. In addition, the method of dehydration after the injection of the drug has to dehydrate the entire amount of wastewater, so there is a problem that practical application is impossible due to the excessive complexity of the dehydrator capacity and the consumption of the drug as well as the complexity of the process.

Accordingly, in order to solve the conventional problems as described above, a solid-liquid separator using centrifugation has been proposed, and FIG. 1 is a longitudinal section in which the present invention is applied to a high-concentration organic wastewater solid-liquid separator that the applicant has previously filed. It is also.

As shown therein, the solid-liquid separator 100 of the high concentration organic wastewater has a separation liquid outlet 111 and a cake discharge port 112 formed at both sides of the lower side thereof, and the inclined slopes 113 and 113A are symmetrically formed therebetween. The casing part 110 is provided. In addition, inside the casing part 110, the hollow rotating shaft 121 on both sides is rotatably supported by the bearing housing 122, and the sludge introduced to one side is rotated by the conveying screw 130, and the solid discharge port 123 on the other side. Consists of a bowl 120 to discharge through), the bowl 120 and the transfer screw 130 is configured to rotate with a slight vehicle speed by the external drive means.

And the end side of the conveying screw 130, the end side of the sludge supply pipe 131A through the rotating shaft 121 of the bowl 120 is located and the sludge receiving chamber 132 of the sludge inlet 132 is formed in the lateral direction ( 131 is formed, the separation liquid outlet 133 is formed on the outer transfer screw 130 to guide the supernatant of the sludge injected into the bowl 120 to the outside of the bowl 120.

The solid-liquid separator 100 of the high concentration organic wastewater configured as described above is first supplied with external sludge to the sludge receiving chamber 131 of the transfer screw 130 through the sludge supply pipe 131A, and the supplied sludge is transferred again. The screw 130 is introduced into the bowl 120 through the sludge inlet 132 by the centrifugal force due to the high speed rotation of the screw 130. In addition, the injected sludge forms a laminated structure in which the sludge has a high specific gravity on the inner surface of the bowl 120 by centrifugal force due to the high speed rotation of the bowl 120, and solid-liquid separation is performed, and the top of the laminated structure is clear. The clean supernatant is discharged to the outside of the bowl 120 through a plurality of separation liquid outlets 133 formed on the outer surface of the transfer screw 130 and separately collected and separated through the separation liquid outlet 111 of the casing part 110. Are separated. And the remaining sludge is discharged through the solid discharge port 123 of the bowl 120 by the transfer screw 130 to be recovered and separated as it falls to the cake discharge port 112 side of the casing unit 110 as it is.

However, the treatment liquid separated by the solid-liquid separator as described above contains ammonia-nitrogen-containing gas, which causes severe odors in wastewater treatment, and also causes the activity of microorganisms to be lowered due to toxicity, thereby also causing high concentration of organic matter. There is a problem that causes the efficiency of waste water treatment.

Therefore, the present invention has been devised to solve the conventional problems as described above, and its purpose is to remove the ammonia nitrogen component gas contained in the treatment liquid separated with the solid-liquid separation of high concentration organic wastewater from the treatment liquid. By making it possible to remove the odor as well as to reduce the activity of microorganisms due to toxicity and the efficiency of waste water treatment to prevent in advance.

In order to achieve the object of the present invention, there is provided a bowl formed to be rotatable about a rotation axis of both sides in the casing portion having a separate liquid discharge port to the lower side, the inside of the bowl sludge injected into one side of the bowl the other side of the solid discharge port In the solid-liquid separator of the high concentration organic wastewater discharged through the discharge screw, forming a plurality of separation liquid discharge holes concentrically on the outer side wall portion of one side of the rotating shaft of the bowl, the orifice plate having a tooth in the separation liquid discharge hole Is formed, the outer casing portion thereof is provided with a degassing apparatus of a high concentration organic wastewater solid-liquid separator, characterized in that the air inlet and the gas outlet is formed.

1 is a longitudinal sectional view of a high concentration organic wastewater solid-liquid separator to which the present invention is applied.

2 is a cross-sectional view taken along the line A-A of Figure 1 showing the configuration of the present invention.

* Explanation of symbols for the main parts of the drawings

1: Separation liquid discharge hole 2: Separation wall

3: Orifice Plate 3A: Tooth

4: Gas outlet 5: Air inlet

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

1 is a longitudinal cross-sectional view of a high concentration organic wastewater solid-liquid separator to which the present invention is applied, and the high concentration organic wastewater solid-liquid separator 100 is provided with a separation liquid outlet 111 and a cake outlet 112 at both sides of the lower side as usual. In between the casing portion 110, the inclined slopes 113 and 113A are symmetrically formed. In addition, inside the casing part 110, the hollow rotating shaft 121 on both sides is rotatably supported by the bearing housing 122, and the sludge introduced to one side is rotated by the conveying screw 130, and the solid discharge port 123 on the other side. Consists of a bowl 120 to discharge through), the bowl 120 and the transfer screw 130 is configured to rotate with a slight vehicle speed by the external drive means.

And the end side of the conveying screw 130, the end side of the sludge supply pipe 131A penetrating the rotating shaft 121 of the bowl 120 is located and the sludge receiving chamber 132 of the sludge inlet 132 is formed in the lateral direction ( 131 is formed, the separation liquid outlet 133 is formed on the outer transfer screw 130 to guide the supernatant of the sludge introduced into the bowl 120 to the outside of the bowl 120.

In this high concentration organic wastewater solid-liquid separator, the present invention is a screw transporting the side of the bowl 120 in the direction of the rotating shaft 121 through which the sludge supply pipe (131A), ie, the side of the outer bowl 120 of the rotating shaft 121 A plurality of separation liquid discharge holes 1 for discharging the supernatant introduced through the separation liquid outlet port 133 of the 130 are formed, and the separation liquid discharge holes 1 are formed on the outer side of the transfer screw 130. It is formed corresponding to the separation liquid outlet 133.

In addition, the outer casing 110 of the bowl 120 in which the separation liquid discharge hole 1 is formed is provided with an air inlet 5 through which external air is introduced, and a gas discharge port 4 is formed at the other upper side thereof.

2 is a cross-sectional view taken along the line A-A of Figure 1 showing the configuration of the present invention.

As shown in the present invention, the bowl 120 is rotatably formed around the rotating shaft 121 through which the sludge supply pipe 131A is penetrated inside the casing 110, and the outer bowl of the rotating shaft 121 ( The side of the 120 is a plurality of separation liquid discharge hole (1) is formed concentrically configured so that the treatment liquid discharged through the separation liquid discharge hole (1) can be scattered by the high-speed rotation of the bowl (120) .

In addition, orifice plates 3 having teeth 3A are formed in the separation liquid discharge hole 1, respectively, so that the treatment liquid discharged through the separation liquid discharge hole 1 is more finely divided to form a mist atomization. It is configured to be in a state, the outer casing portion 110 thereof is formed with an air inlet (5) and the gas outlet (4) through which the outside air flows. In addition, the inner wall of the middle upper and lower casing 110 of the bowl 120, the separation wall so as to fall toward the separation liquid outlet 111 of the casing 110 by the impact of the micro-treatment liquid combined with the external air. (2) is formed.

Next, the operation of the present invention configured as described above will be described in detail with reference to FIGS. 1 and 2.

First, when sludge is introduced into the sludge accommodation chamber 131 of the transfer screw 130 through the sludge supply pipe 131A as shown in Figure 1, the sludge accommodation chamber by the centrifugal force by the high-speed rotation of the transfer screw 130. The sludge in 131 is introduced into the bowl 120 through the sludge inlet 132. In addition, the injected sludge forms a laminated structure in which the sludge has a high specific gravity on the inner surface of the bowl 120 by centrifugal force due to the high speed rotation of the bowl 120, and solid-liquid separation is performed, and the top of the laminated structure is clear. The clean supernatant is discharged to the outside of the bowl 120 through a plurality of separation liquid outlet 133 formed on the outer surface of the transfer screw 130, the remaining sludge is the solid of the bowl 120 by the transfer screw 130 It is discharged through the discharge port 123 and separated and recovered while falling to the cake discharge port 112 side of the casing unit 110 as it is.

Meanwhile, the supernatant introduced into the separation liquid outlet 133 is discharged to the outside of the bowl 120 through the separation liquid discharge hole 1 of the bowl 120, and as the bowl 120 is rotated at a high speed. The supernatant discharged through the separation liquid discharge hole 1, that is, the treatment liquid is scattered as shown in FIG. 2 and at the same time by the teeth 3A of the orifice plate 3 formed in the separation liquid discharge hole 1. It splits finely into a misty state.

Accordingly, the degassing phenomenon in which the gas of the ammonia nitrogen component contained in the microtreatment liquid is separated from the treatment liquid is made, and the degassed gas is casing part 110 by the external air introduced through the air inlet 5. The gas is discharged to the outside through the outlet (4).

As described above, the present invention changes the treatment liquid separated from the sludge by the centrifugal force of the bowl into an atomized state so that the degassing action of ammonia-nitrogen gas from the treatment liquid can occur, thereby removing odor and of course toxic. It is possible to prevent the degradation of the microorganisms due to this, thereby increasing the efficiency of wastewater treatment.

Claims (1)

A bowl 120 is rotatably formed around the rotating shaft 121 at both sides in a casing part 110 having a separation liquid outlet 111 at a lower side thereof, and the bowl 120 has a bowl 120 formed therein. In the solid-liquid separator of the high concentration organic wastewater in which the conveying screw 130 for discharging the sludge injected into one side through the solid discharge port 123 of the other side, Orifice plate (3) having a tooth (3A) in the separation liquid discharge hole (1) to form a plurality of separation liquid discharge holes (1) concentrically on the outer side wall portion of the one side rotation shaft 121 of the bowl (120) Degassing apparatus of a high concentration organic wastewater solid-liquid separator, characterized in that is formed, the outer casing portion 110 is formed with an air inlet (5) and a gas outlet (4).