KR20050017829A - An apparatus for livestock manure preliminary treatment - Google Patents

Abstract

PURPOSE: To provide an apparatus for pre-treating livestock manure, which is able to reduce consumption power by improving an aeration method and an agitation method and naturally removing bubbles and increase odor-removing efficiency and reaction efficiency by complementing microorganism materials. CONSTITUTION: A spiral motor for an aerator (110) is installed at the outside of a treatment reactor (100) and has a structure where a screw (120) is mounted on a motor shaft to agitate livestock manure in the treatment reactor and inhale air using jet stream. An agitator is perpendicularly installed at a center of the treatment reactor. One wing (160) of the agitator is installed under the surface of a treatment reaction solution to prevent channeling effect, and the other wing (170) of the agitator is installed on a bubble layer to primarily crush bubbles. Various solid-liquid separating devices (430) for removing solid components are installed at the front end and the rear end of the treatment reactor. The treatment reactor has a cylindrical shape or a square shape, is manufactured as a tank-form to be installed on the ground or a concrete structure form to be laid underground, and includes protrusion plates (140) for forming turbulence at wall side. On the top part of the treatment reactor, various gas removing devices (410) for treating moisture and gases to be discharged, a screen layer (210) for crushing the bubbles, a moisture and bubble evaporation tank (220) which evaporates and collects the moisture and gases, and a pump that circulates the remaining bubbles to the treatment reactor in an ejector manner are installed. A microorganism injection tank (600) is equipped with the apparatus to inject complex microorganism material including photosynthetic microorganism and mesophilic bacillus species. A controller (420) is equipped for automatic control of the pump and agitator.

Description

Livestock wastewater pretreatment unit {An apparatus for livestock manure preliminary treatment}

The present invention relates to a livestock wastewater treatment apparatus, and when aerobic conditions are applied to the livestock wastewater, which is a kind of organic waste, the organic material is raised to a high temperature of 55 ° C. or higher by a naturally occurring heat of biological reaction, and various organic substances in the livestock wastewater are decomposed or The present invention relates to a livestock wastewater treatment system to which high temperature aerobic oxidation technology is fermented.

The high temperature aerobic oxidation technique was first tried by Kambhu and Andrews in 1969, and it has been theoretically demonstrated by computer simulation that high efficiency diffuser and incoming TSS concentrations can be applied within the range of 4-6%. Since then, the concept of high temperature aerobic oxidation has been empirically validated by full-scale plants using high-purity oxygen aeration methods and self-sustaining aeration methods. In Europe, most of the development is focused on reducing bio-solids and composting, and it is true that Korea is also focusing on farm-type small-scale processing equipment and methods for fermentation broth production using livestock manure.

The first key point of high temperature aerobic oxidation technology is how to give aerobic conditions, depending on the wastewater properties to be treated, it is necessary to supply excess air (i.e. oxygen) rather than aeration method in general biological treatment. It is made of a structure that can form agitation and turbulence is to give a condition that the temperature inside the reactor can rise to a high temperature in a short time.

The second key point is that organic wastewater is fermented at high temperatures, creating a large amount of foam, and it is necessary to remove these foams efficiently by low energy consumption.

The third is to reduce the size of the reaction tank and reduce the production cost of the reaction vessel by reducing the size of the reaction tank to reduce the odor or to promote the reaction to reduce the desired water quality by adding various microbial agents as a supplement.

Fourth, in order to utilize the livestock wastewater treatment process, after reacting the manure without separating it, separate the solid components by other solid-liquid separation method and transfer only the liquid components to the post-process. It is suitable as a device.

Conventional processing apparatuses related to the present technology include apparatuses such as the type shown in Korean Patent Publication No. 2003-0041019 shown in FIG. 1 and Korean Patent No. 374,928 as shown in FIG.

The above-mentioned device uses a self-aspirating aeration method as an aeration device for aerobic conditions and agitation, and is a method in which air is sucked by an ejector while injecting organic wastewater into a pump. Low efficiency makes it easy for small livestock liquid production facilities or treatment equipment.

However, the apparatus has a problem in application due to excessive electric water distribution facility installation and operation cost as a processing device of a large-scale processing facility, and the method of removing bubbles also increases the power consumption by using a mechanical cutter method. And due to the need for frequent maintenance there is a problem that is unsuitable for large capacity facilities. In addition, the prior art is mainly used as a liquid cost through the screen device that can remove only the amount of piglets mixed with the reacted solids, but when you want to use as a water treatment facility, you must remove the solid components more efficiently in the post-process It will be possible to handle without difficulty.

The present invention has been made to solve the problems as described above of the prior art, the defoaming device at the same time to improve the power consumption and easy maintenance by improving the aeration and stirring method suitable for large-capacity processing facilities Also, it is possible to reduce the power consumption problem by using natural removal method, not mechanical, and to improve the removal of odor and reaction efficiency by supplementing microbial material for promoting reaction as well as removing odor and shortening reaction time. It is an object of the present invention to provide a livestock wastewater pretreatment apparatus that removes solid components more efficiently from a liquid to achieve a smooth water treatment in a post-treatment process.

Therefore, an object of the present invention, a livestock treatment and a livestock waste containing the livestock wastewater organic matter decomposition microorganisms and the heating reaction using the waste heat and the aeration of livestock wastewater in the treatment reaction tank 100 Stirrer consisting of a spiral agitator aspirator motor 110, agitator motor 150, and agitator blades (160, 170), and various solid-liquid separator (430) for removing solid components at the front and rear ends of the treatment reaction tank (100) In the livestock wastewater treatment apparatus is installed, having a bubble removing device 200 on the top,

The spiral aeration device motor 110, the screw 120 is mounted to the motor shaft has a structure in which air is absorbed by the jet stream formed by rotating and stirring the livestock wastewater in the treatment reaction tank 100, the treatment reaction tank 100 Installed outside);

The stirrer is installed vertically in the center of the treatment reaction tank 100, one wing is installed under the surface of the treatment reaction liquid to prevent the channeling effect, the other wing is installed in the foam layer to crush the bubbles primarily Become;

The treatment reaction tank 100 has a cylindrical or quadrangular shape and is made of a tank type installed on the ground or a concrete structure buried underground, and protrusions are formed on the wall to form turbulence;

Various gas removal devices 410 are installed on the treatment reaction tank 100 to collect and process the discharged water and gas, and a screen layer 210 having a small particle diameter for easily crushing bubbles and an easy detachment is installed. , An evaporator type pump is installed to circulate the water and bubble evaporation tank 220 and the surplus bubbles into the processing reaction tank 100 to enable evaporation and collection of water and gas;

Control device 420 for automatically controlling the operation of the microbial material input tank 600 and the pump and stirrer to inject a microbial material mixed with photosynthetic microorganisms and mesophilic Bacillus bacteria to remove odors and improve reaction efficiency It is to provide a livestock wastewater treatment apparatus characterized in that the provided.

In addition, instead of the aeration agitation method of attaching the screw 120 to the motor shaft of the aeration device motor 110, the motor is installed outside the treatment reaction tank 100, by connecting piping to install the screw in the reaction tank separately It is characterized by a device for providing jets.

Hereinafter, the configuration of the present invention will be described in detail.

First, as an improvement of the method for aeration and agitation, conventional methods use a general self-priming pump to achieve agitation while linearly spraying wastewater to be treated into the reaction tank, and at the same time, air is sucked by the difference in flow rate It uses a method of supplying air by entering, but improves this by using a spiral aeration device, by attaching a screw blade to the drive shaft of the pump to agitate the wastewater spirally to create a jet flow to increase the efficiency of stirring At the same time, the intake amount of air is increased due to the difference in the flow rate by the jet streams, so that the desired air can be supplied even with a small power, and the stirring efficiency is increased, thereby increasing the overall reaction efficiency. In addition, by installing a projection plate on the stirrer and the wall of the reactor vertically in the center of the reactor to prevent the channeling phenomenon that can be formed inside the large-capacity reactor to form a turbulent flow.

The following table compares the air supply of a general self-priming pump and the air supply of a spiral type self-priming pump.

division Pump power Air supply Stirring effect General self-priming pump 5 HP (3.75 kW) 1.17 m ³ / min usually Spiral Type Aerator 5 HP (3.75 kW) 2.39 m ³ / min Very large

On the other hand, while the conventional methods remove the foam using a method of forcibly crushing the foam while using a lot of energy using a mechanical cutter, in the present invention by installing a screen with a small particle size bubbles having a large particle size passes through the screen layer It naturally induces crushing into bubbles of small particle size, installs a water evaporation tank at the rear end, induces water and gas components to evaporate, and installs a small ejector type circulation pump so that the remaining bubbles are circulated into the reactor. The method of removing bubbles with little use of was applied. On the other hand, the upper wing of the stirrer vertically installed to prevent the channeling effect in the reactor additionally serves to remove the bubbles formed.

Meanwhile, in the conventional method, the photosynthetic microorganisms having excellent odor removal efficiency were introduced to prevent odors in the reaction process or treated water. By adding a mixture of mesophilic Bacillus bacteria known to play a major role in the odor was promoted to remove the odor and to improve the reaction efficiency. At this time, the mixed mesophilic Bacillus was used in the spawn culture and spawn in a high temperature aerobic reactor.

The gas components discharged during the treatment are collected and transferred by a separate gas collecting device and processed by a general biofilter or scrubber. On the other hand, the treatment liquid is used directly as a fertilizer or contains a large amount of solid components, so that the treatment liquid is separated by various solid-liquid separators (eg, pressure flotation apparatus, chemical flocculation apparatus, mechanical solid-liquid separator, etc.) The solid component is composted and the treatment liquid is transferred to a separate post treatment process.

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

3 is a cross-sectional view showing a livestock wastewater treatment apparatus according to the present invention. As shown in the figure, the livestock wastewater treatment apparatus of the present invention, the spiral aeration device (110, 120) is installed on the outside of the closed treatment reactor 100 made of a material very resistant to corrosion having a thermal insulation structure, the spiral aeration The device is equipped with a screw (120) at the end of the motor 110, the end of the shaft 110 while the motor 110 is running while forming a jet flow while stirring the wastewater inside the treatment reaction tank 100 in a spiral, while strongly stirring the wastewater At the same time, a large amount of air is sucked by the jets by the screw 120 to supply the air necessary for the activity of the microorganisms.

In addition, the stirrer 150 is installed in the center of the treatment reaction tank 100, and the rotary blade 160 is attached to the portion where the livestock wastewater is reacted to prevent channeling phenomenon generated when the liquid is stirred inside the treatment reaction tank 100. In order to stir secondly, the wing 170 installed in the foam layer serves to primarily crush the large particles of foam generated. On the other hand, by installing the projections 140 on the wall surface of the treatment reaction tank 100 to promote the formation of turbulence to maximize the stirring effect.

In addition, the bubbles generated during the reaction are first pulverized by the blade 170 of the stirrer 150, and then the smaller bubbles while passing through the screen layer 210 of the small particle diameter in the bubble removing apparatus 200 by pressure. The water and gas is evaporated in the water and gas evaporation tank 220 and the remaining bubbles are re-introduced into the treatment reaction tank 100 by the bubble circulating pump 230 of the reactor method. On the other hand, the screen layer 210 is installed in a structure that is easy to remove, periodically remove the solids filtered from the screen layer to facilitate the circulation of the bubble.

In addition, the gas component evaporated from the water and gas evaporation tank 220 is processed according to the use and purpose by a separate gas treatment device 410. The raw waste water is continuously introduced into the treatment reaction tank 100 by a predetermined amount through the inlet pump 310 in the storage tank or the primary solid-liquid separator 400, and is continuously discharged by a predetermined amount by the treated water discharge pump 320. . The discharged treated water is used as a fertilizer, or after removing solids from the solid-liquid separator 430 according to the type of post-treatment process, and then transferred to the post-treatment process.

After the above process, the microbial agent 600 mixed with the photosynthetic microorganism and Bacillus bacteria is quantitatively added to the storage tank and the solid-liquid separator 400 to promote the effect of removing odor and improving reaction efficiency.

On the other hand, by installing a temperature measuring device 500 that can indirectly determine the reaction efficiency in the treatment reaction tank 100 to monitor the reaction temperature in the control device 420, the inlet pump 310 in the control device 420 ), The treated water discharge pump 320, the helical aeration device motor 110, the stirrer motor 150 and the bubble circulation pump 230, and so installed to control.

As described above, according to the livestock wastewater treatment apparatus of the present invention, power consumption is greatly reduced compared to the existing methods, at the same time, the stirring efficiency is increased, and the mechanical driving elements are reduced, so the maintenance is very easy, and the odor removal and reaction By using the composite microbial agent with increased efficiency as an auxiliary material, the reaction efficiency is increased to provide an effect that can be applied as a large-scale livestock wastewater treatment device.

1 is a block diagram showing an example of a conventional livestock wastewater treatment apparatus (apparatus characterized by the removal of sediment by a self-suction pump and a cutter (cutter type) defoamer and circulation pump installed outside the treatment tank).

Figure 2 is a configuration diagram showing an example of a conventional organic waste treatment device (apparatus characterized by the attachment of a hot water generating means using a self-suction pump and a mechanical (cutter type) bubble removing device and the reaction tank installed outside the treatment tank) to be.

Figure 3 is a livestock wastewater treatment apparatus according to the present invention (helical aeration device installed outside the treatment tank and agitator to prevent channeling phenomenon, screen-type defoaming device and photosynthetic microorganism and Bacillus bacteria composite microbial agent input) It is a block diagram schematically showing the configuration of the device) characterized in that.

※ Explanation of drawing code

100. Treatment reactor 110. Aerator motor

120. Screw 140. Turbulence forming protrusions

150. Agitator motor 160,170. Stirrer wing

180. Water level gauge 200. Bubble remover

210. Screen layer 220. Moisture and foam evaporation tank

230. Foam circulation pump 310. Wastewater inlet pump

320. Treatment water discharge pump 400. Storage tank or solid-liquid separator

410. Degassing device 420. Control device

430. Solid-liquid separator 600. Microbial input tank

Claims (2)

Livestock wastewater and livestock wastewater organic material decomposing microorganisms are accommodated, the treatment reaction tank 100 is equipped with a heating means using waste heat, and the spiral aeration device motor 110 for aeration agitating the livestock wastewater inside the treatment reaction tank 100 ) And agitator composed of agitator motor 150 and agitator blades 160 and 170, and various solid-liquid separators 430 for removing solid components at the front and rear ends of the treatment reaction tank 100, and having a foam on the top. In the livestock wastewater treatment apparatus having a removal device (200), The spiral aeration device motor 110, the screw 120 is mounted to the motor shaft has a structure in which air is absorbed by the jet stream formed by rotating and stirring the livestock wastewater in the treatment reaction tank 100, the treatment reaction tank 100 Installed outside); The stirrer is installed vertically in the center of the treatment reaction tank 100, one wing is installed under the surface of the treatment reaction liquid to prevent the channeling effect, the other wing is installed in the foam layer to crush the bubbles primarily Become; The treatment reaction tank 100 has a cylindrical or quadrangular shape and is made of a tank type installed on the ground or a concrete structure buried underground, and protrusions are formed on the wall to form turbulence; Various gas removal devices 410 are installed on the treatment reaction tank 100 to collect and process the discharged water and gas, and a screen layer 210 having a small particle diameter for easily crushing bubbles and an easy detachment is installed. A pump is installed to circulate the water and bubble evaporation tank 220 and the surplus bubbles into the treatment reaction tank 100 using the ejector method to enable evaporation and collection of water and gas; Control device 420 for automatically controlling the operation of the microbial material input tank 600 and the pump and stirrer to inject a microbial material mixed with photosynthetic microorganisms and mesophilic Bacillus bacteria to remove odors and improve reaction efficiency Livestock wastewater treatment apparatus, characterized in that the provided. According to claim 1, Instead of the aeration agitation method of attaching the screw 120 to the motor shaft of the aeration device motor 110, the motor is installed outside the treatment reaction tank 100, the connection pipe is connected to the screw inside the reaction tank Livestock wastewater treatment equipment characterized in that the device is provided separately to provide a jet flow