KR101803041B1 - Gas and bubble removal type liquid fertilizer producting device - Google Patents

Abstract

The present invention relates to a gas and bubble removal type liquid fertilizer producing apparatus wherein an additional duct does not need to be installed as gas and bubbles are directly inserted from an aeration tank into a flow volume storage tank, and, consequently, gas, causing the generation of malodor, is not released, and liquid fertilizer is smoothly fermented as an antifoaming unit is arranged and removes bubbles, and, at the same time, contamination of a scrubber and cleaning water can be minimized since the gas can be firstly purified before being inserted into the scrubber. According to an embodiment of the present invention, the gas and bubble removal type liquid fertilizer producing apparatus comprises: the aeration tank which receives waste water of livestock breeding including contaminants therein and performs aeration treatment for the waste water; a flow volume storage tank which is separated from the aeration tank by a separation wall and receives supernatant obtained by the aeration treatment in the aeration tank therein while an inlet is formed on an upper portion of the separation wall to receive the gas and the bubbles generated by the aeration tank; the antifoaming unit which is installed on an upper portion of the flow volume storage tank, communicates with the flow volume storage tank, firstly purifies the gas, inserted through the inlet, and performs antifoaming treatment for the bubbles; and the scrubber which is arranged on one side of the antifoaming unit to be joined to the antifoaming unit, generates suction force to suction the gas in the flow volume storage tank into the side of the antifoaming unit, allows the gas, which has been firstly purified by the antifoaming unit, to be inserted therein, and secondly purifies and discharges the gas.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas and bubble elimination type liquefaction device,

The disclosures relate to a liquid storage tank in which the liquid of communalization generated in the livestock farmhouse is purified and reprocessed.

Unless otherwise indicated herein, the contents set forth in this section are not prior art to the claims of this application and are not to be construed as prior art to be included in this section.

Generally, organic wastewater such as livestock wastewater and manure is continuously generated in livestock farms. The process of treating such organic wastewater is firstly stored in a water collection tank by a transport vehicle, and relatively large dirt or foreign matter is filtered by a screen separation or a high-liquid centrifuge. Then, the sludge containing the fine solid suspended solids is transferred to a storage tank, and then transferred to a sedimentation tank for sedimentation treatment. after that. After the dehydration step, the precipitate is mixed with the sludge containing the solid suspended solids and composted. The supernatant of the sedimentation tank is fermented in the reaction tank through the flow rate regulating tank, and is produced in the liquid level.

During the process of producing these liquids, a gas is generated which causes the generation of odor, which is usually purified by a scrubber. However, when a large amount of gas is generated, there is a problem that the scrubber and the washing water are contaminated within a relatively short period of time, the treatment cost is increased, and the odor is not smoothly removed.

Due to such a problem, a separate duct pipe connected to the aeration tank by a scrubber is installed to collect the gas causing the malodor. However, when the separate duct pipe is installed in this way, the bubbles formed in the process flow into the duct pipe deteriorate the gas collecting effect, and the open structure has a problem that the odor is leaked to the outside.

On the other hand, in the organic wastewater treatment process, the foam layer starts to form in the upper part of the raw water. These bubbles mostly do not dissolve the air passing through the diffuser, but they meet with the oil on the surface to form a foam layer. About 10 cm of the bubbles interfere with gas exchange on the raw water surface.

In addition, biological bubbles cause microbubbles to lead to the rapid growth of the foam layer, leading to a rapid expansion of the foam layer, thereby preventing normal fermentation. As a result, bubbles are generated in the upper part of the liquid fertilizer to be fermented in the reactor during the production of the liquid, so that the liquid fertilizer is not fermented at a uniform rate or the reactor is expanded and broken.

1. Korean Patent Publication No. 10-2016-0073890 (June 26, 2016) 2. Korean Utility Model Registration No. 20-0129720 (Aug. 21, 1998) 3. Korean Patent Registration No. 10-1333246 (Nov. 20, 2013)

To provide a gas and foam free liquefying apparatus in which bubbles and gas generated in the aeration process in the aeration tank are directly introduced into the flow storage tank from the aeration tank, and the gas is subjected to the first purification treatment by the bubble unit, do.

In one embodiment, an aeration tank in which livestock wastewater containing pollutants is introduced into the aeration tank and aeration tank is partitioned by the aeration tank and a partition wall, and an aeration tank treated with aeration in the aeration tank is introduced into the tank, A flow rate storage tank in which an inlet port through which the gas and foam generated in the aeration tank flows is formed at an upper portion of the flow rate storage tank and a flow rate regulating valve provided at an upper portion of the flow rate storage tank to communicate with the flow rate storage tank, And a gas supply unit connected to the gas supply unit and connected to the gas supply unit for supplying gas to the gas supply unit, A gas and a defoaming liquid make-up including a scrubber for secondary purification and exhaust treatment Quot;

In the gas and foam free liquefying apparatus as described above, since ducts and bubbles are directly introduced from the aeration tank into the flow rate storage tank, a separate duct is not installed. In addition, the gas causing the generation of odor is not discharged, The gas bubbles are removed and the liquid bubbles are smoothly fermented. At the same time, the gas can be firstly purified before being introduced into the scrubber, so that the scrubbers and the cleaning water can be minimally contaminated. have.

1 is a conceptual view of a gas and defoaming liquefier according to one embodiment of the disclosure;
2 is a use state view of a gas and defoaming liquefier according to one embodiment of the disclosure;

Brief Description of the Drawings The advantages and features of the disclosed subject matter, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It is to be understood, however, that the disclosure is not limited to the embodiments set forth herein, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, But is provided only to fully disclose the scope of the disclosure to those with ordinary skill in the art, and the disclosure is only defined by the scope of the claims. Like numbers refer to like elements throughout.

The detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present disclosure. It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. Therefore, the definition should be based on the contents throughout this specification.

Figures 1 and 2 illustrate one embodiment in accordance with the teachings of the present invention. Fig. 1 is a conceptual diagram and Fig. 2 is a state diagram of use.

Hereinafter, the constituent members of the gas and defoaming liquefier 1 according to an embodiment of the present invention described with reference to FIG. 1 and their connection relationship will be described in detail.

First, referring to FIG. 1, an aeration tank (aeration tank) 10 is a type in which livestock wastewater containing various pollutants is aerated. The aeration tank 10 is connected to a collection tank, a settling tank, and the like, which are pretreated before the livestock wastewater flows into the aeration tank 10. In addition, the four sides are hermetically sealed except for the inlet 21 to be described later.

In the aeration tank 10, the livestock wastewater is treated by an activated sludge process (activated sludge process). In the aeration tank 10, oxygen is supplied to the mixture of wastewater and activated sludge through air, Organic matter adsorption and oxidative decomposition by aerobic bacteria proceeds.

The method of treating livestock wastewater of the aeration tank 10 is the same as that of the aeration tank according to the prior art, and the detailed description thereof will be omitted for the sake of simplification of the description.

In the above-described aeration tank 10, a flow rate storage tank 20 is installed in an interview. The above-mentioned flow rate storage tank 20 is partitioned by the aeration tank 10 and a partition wall into which aeration water treated in the aeration tank 10 flows. An inlet 21 through which the gas and bubbles generated in the aeration tank 10 pass is formed at the upper portion of the partition wall.

At this time, the inlet 21 is formed at a position higher than the liquid level maximum liquid level in the aeration tank 10 so that the liquid level in the aeration tank 10 is not introduced but only bubbles and gas are introduced. The flow rate storage tank 20 is hermetically closed so that a negative pressure can be generated by the suction force generated in the scrubber 40 to be described later.

The flow storage tank 20 and the flow storage tank 20 are partitioned by the partition wall in the same manner as the aeration tank 10 and the partition wall is provided with an inlet 21 Is formed. When a plurality of flow storage tanks 20 are provided, the bubble unit 30 to be described later is installed only on the upper portion of one flow storage tank 20.

On the other hand, a vesicle unit 30 is operatively installed above the flow rate storage tank 20 described above. The vesicle unit (30) serves to purify the gas introduced from the aeration tank (10) first and to cause the bubble to be vesiculated. To this end, the aforementioned vesicle unit 30 communicates with the flow rate storage 20.

The aforementioned vesicle unit 30 includes a vesicle tank 31 located at the top of the flow rate storage tank 20 and one end located at the bottom of the flow rate storage tank 20 and the other end disposed in the vesicle tank 31, And the water in the flow rate storage tank 20 is supplied through the spray nozzle 33 to the bubble tank 33. The flow tank 32 is provided at one side of the flow tank 32, (31) so that the gas is subjected to the first purification treatment and at the same time the foam (34) is bubbled.

The gas introduced into the flow rate storage tank 20 in the aeration tank 10 through the inlet 21 described above is sucked into the vesicle unit 30 by the scrubber 40 to be described later. The sucked gas is firstly purified while the water in the flow rate storage tank 20 pumped into the vesicle tank 31 by the pump 34 is injected through the injection nozzle 33. At the same time, bubbles are treated by water sprayed through the injection nozzle 33.

A scrubber 40 is connected to the aforementioned vesicle unit 30. The scrubber 40 serves to exert a suction force for sucking gas into the vesicle unit 30 in the flow rate storage tank 20 and serves to purify the first purified gas in the vesicle unit 30 secondarily.

The scrubber 40 includes a main body 41 which is located at one side of the vesicle unit 30 and is connected to the vesicle tank 31 by a connection tube 42 and has an exhaust tube 45 at an upper side thereof, A turbo fan 43 which is installed in the main body 41 and is operatively installed on the main body 41 and on which the suction force is exerted, And a washing water spraying portion 44 for spraying wash water in the main body 41 is included.

The aeration tank 10 and the flow rate storage tank 20 are treated in a closed state except for the inlet 21 so that a negative pressure is generated when the suction force is provided by the turbo fan 43. Accordingly, The gas is introduced in the order of the bubble unit 30 and the scrubber 40. The gas that has been secondarily purified in the scrubber 40 is exhausted to the outside through the exhaust pipe 45. Such a scrubber 40 is the same as the scrubber according to the prior art, and the detailed description will be omitted for simplification of the description.

Hereinafter, the overall operation of the gas and defoaming liquefaction apparatus 1 according to an embodiment of the present invention will be described in detail with reference to FIG.

First, the livestock wastewater pretreated in the storage tank and the settling tank is aerated in the aeration tank 10. Among the aeration treated wastewater, supernatant flows into the flow storage tank 20, and the gas and foam generated in the aeration process flows into the flow storage tank 20 through the inlet 21 in the aeration tank 10.

The gas introduced into the flow rate storage tank 20 is sucked into the fossil fuel tank 31 by the suction force of the turbo fan 43 of the scrubber 40. At the same time, the water in the flow rate storage tank 20 is pumped into the vesicle tank 31 by the pump 34 and is injected through the injection nozzle 33. The gas sucked in by the water to be injected is first purified, and the bubble in the flow rate storage tank 20 is treated with the bubble.

The purified gas is sucked into the main body 41 of the scrubber 40 through the connecting pipe 42 by the suction force of the turbo fan 43. The sucked gas is subjected to secondary purification treatment by the washing water injected from the jetting section (44), and finally exhausted to the outside through the exhaust pipe (45).

According to the gas and foam free liquifying apparatus 1 as described above, since the water and bubbles are directly introduced into the flow storage tank 20 from the aeration tank 10, no separate duct is installed, Gas does not flow out to the outside. In addition, since the bubble unit is provided, the liquid is smoothly fermented, and at the same time, the gas can be firstly purified before flowing into the scrubber 40, so that contamination of the scrubber 40 and the washing water can be minimized have.

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 by the appended claims. But is not limited to the example.

1: Gas and defoaming liquefier
10: aeration tank
20: Flow storage tank
21: Inlet
30: a package unit
31: vesicle tank
32: Flow tube
33: injection nozzle
34: Pump
40: Scrubber
41:
42: Connector
43: Turbo Fans
44:
45: Exhaust pipe

Claims (5)

An aeration tank in which livestock wastewater containing pollutants flows into the aeration tank;
Wherein the aeration tank is divided into the aeration tank and the partition, the aqua treated water in the aeration tank is introduced into the inside of the aeration tank, and the inflow port through which the gas and bubbles generated in the aeration tank pass is formed in the partition.
A bubble unit installed at an upper portion of the flow rate storage tank and communicating with the flow rate storage tank, wherein the gas introduced through the inlet is primarily purified and foamed;
A suction force is provided at one side of the bubble unit to be connected to the bubble unit to cause the gas in the flow rate storage tank to be sucked into the bubble unit side, and the gas subjected to the first purification treatment is introduced into the bubble unit, And a scrubber
The inlet port is formed at a position higher than the liquid level maximum liquid level in the aeration tank so that the liquid level in the aeration tank is not introduced but only bubbles and gas are introduced,
The bubble unit may include:
A vesicle tank positioned above the flow storage tank;
A flow pipe having one end positioned on the bottom surface of the flow rate storage tank and the other end disposed in the pellet tank, the flow pipe having a plurality of injection nozzles arranged on the side arranged in the pellet tank; And
And a pump installed at one side of the flow pipe to cause water in the flow rate storage tank to be injected in the fossil tank through the injection nozzle in accordance with the operation of the flow pipe so that the gas is subjected to the first purification treatment and the bubble is bubbled,
In the scrubber,
A main body disposed at one side of the vesicle unit and connected to the vesicle tank by a connection tube and having an exhaust tube at an upper side thereof;
A turbo fan operatively installed on the connection pipe and having a suction force according to operation; And
And a cleansing water sprayer provided in the main body and sprayed with wash water in the main body so that gas introduced into the main body can be secondarily cleaned.
The method according to claim 1,
Wherein the aeration tank and the flow rate storage tank are sealed so that a negative pressure can be generated by a suction force generated in the scrubber.
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