KR102536414B1 - Multi-phase odor cleaning system - Google Patents

Abstract

The present invention relates to a multi-phase deodorization system which comprises: an odor reduction device chemically removing odor components from the air coming from inside a livestock facility and including an internal fan disposed therein to discharge the air from which the odor components have been removed to an outdoor air mixing module; the outdoor air mixing module mixing the air discharged from the odor reduction device with the air flowing in from outside the livestock facility to physically reduce odor; an outlet inducing the air delivered from the outdoor air mixing module to diffuse into the atmosphere to perform aerodynamic odor reduction; a first air volume sensor measuring the volume of air flowing into the odor reduction device inside the livestock facility; a second air volume sensor measuring the volume of air discharged from the odor reduction device to the outdoor air mixing module; and a control unit controlling the internal fan of the odor reduction device so that the volume of air flowing into the odor reduction device from inside the livestock facility and the volume of air discharged from the odor reduction device to the outdoor air mixing module are the same. According to the present invention, the odor components can be comprehensively removed from the air inside livestock facilities through three steps of chemical removal, physical removal, and aerodynamic removal. In addition, the multi-phase deodorization system is a ventilation system considering both the amount of ventilation for controlling the internal environment of livestock facilities and the amount of emissions for reducing odor, thereby solving problems of livestock odor while maintaining uniformity of the internal environment.

Description

Multi-phase odor cleaning system {Multi-phase odor cleaning system}

The present invention relates to an odor purifying system, and more particularly, to a multi-phase linked odor purifying system that removes odor components from the air inside a livestock facility in stages through chemical removal, physical removal, and aerodynamic removal.

To solve the odor problem in livestock facilities, the government supports the installation of odor reduction facilities in farms. As existing odor reduction facilities, a liquid fertilizer circulation system, bio curtain, mist spray, bio filter, and wet scrubber are being installed in farmhouses. The malodor reduction system mainly reduces malodor using chemical and biological methods. However, since only a single method is applied, reduction efficiency may be reduced. In particular, in the winter season when the amount of ventilation is low, not only does the concentration of odor increase and the reduction does not sufficiently occur, but also the wind speed exhausted according to the amount of ventilation becomes very low, so the odorous air does not diffuse into the atmosphere and sinks to the ground. As a result, there are still many complaints about odor.

Since the odor reduction device artificially controls the internal environment of the barn according to the characteristics of the device and system, it may affect internal environmental factors such as temperature and humidity. In the case of a livestock facility, a ventilation system is always in operation to properly maintain environmental factors such as internal temperature, humidity, gas, and dust. Therefore, an efficient connection between the odor reduction facility and the ventilation system is required. However, in the case of existing odor reduction facilities, optimization of operation has not been made, and there is a limit in reducing the uniformity of the internal environment by increasing the load of ventilation fans in some reduction facilities. In order to overcome the limitations of these existing systems, it is necessary to link odor reduction facilities and ventilation systems.

On the other hand, when designing the barn, calculate the load due to the structure inside and outside the barn, and design a barn ventilation fan that can discharge the necessary ventilation. If an odor reduction facility is newly installed at the outlet after the barn is installed, a load that was not considered in the initial design will act. Specifically, under the theoretical condition that no load is generated in the odor reduction facility, the air volume of the barn ventilation fan is equal to the air volume discharged from the odor reduction facility. However, in reality, the load of the odor reduction facility is generated, and the amount of air discharged to the outlet is less than that of the ventilation fan in the barn. As a result, the amount of ventilation fluctuates to a value different from the setting, which affects the environmental control inside the barn. Failure to control the environment inside the barn will cause problems such as slowing down the growth rate of livestock and death, which will have a great negative impact on the economy of farm households. Existing odor reduction facilities have limitations because they do not adjust the ventilation amount considering these loads.

A technical problem to be solved by the present invention is to provide a multi-phase linked odor purification system that can reduce odor emissions by removing odors generated from livestock facilities in a three-step process and thereby solve civil complaints about odor.

In order to solve the above technical problem, a multi-phase linkage odor purification system according to the present invention is an odor reduction device that chemically removes odor components from air introduced from a livestock facility - the odor reduction device is to clean air from which odor components are removed. - Includes internal fan for odor reduction device that discharges to outside air mixing module; An outdoor air mixing module that mixes the air discharged from the odor reduction device with the air introduced from the outside of the livestock facility to physically reduce odor, and diffuses the air delivered from the air mixture module into the atmosphere to create aerodynamic odor. An outlet for reducing odor, a first air volume sensor for measuring the volume of air flowing into the odor reduction device from inside the livestock facility, and a second air volume sensor for measuring the volume of air discharged from the odor reduction device to the outdoor air mixing module. and a control unit for controlling an internal fan of the malodor reduction device so that the air volume of air flowing into the odor reduction device from inside the livestock facility and the air volume of air discharged from the odor reduction device to the outdoor air mixing module are equal.

The control unit sets a total ventilation amount corresponding to the amount of air discharged into the air through the outlet and an internal ventilation amount corresponding to the amount of air introduced into the odor reduction device from the inside of the livestock facility, and determines the total ventilation amount and the internal ventilation amount. The difference can determine the amount of outside air introduction.

The system may further include an outside air introduction unit introducing outside air into the outside air mixing module.

The control unit may adjust an opening/closing angle of the outside air introduction part or a ventilation fan speed according to the determined outside air introduction amount.

The outdoor air mixing module may be implemented in a slot type or a cyclone type.

According to the present invention, it is possible to comprehensively remove odor components from the air inside the livestock facility through three steps of chemical removal, physical removal, and aerodynamic removal. In addition, it is possible to solve the livestock odor problem while maintaining the uniformity of the internal environment with a ventilation system that considers both the amount of ventilation for controlling the internal environment of the livestock facility and the emission for reducing odor.

1 is a block diagram showing the configuration of a multi-phase linkage odor purification system according to an embodiment of the present invention.
2 is a flowchart illustrating the operation of a multi-phase linkage odor purification system according to an embodiment of the present invention.

Then, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice the present invention.

1 is a block diagram showing the configuration of a multi-phase linkage odor purification system according to an embodiment of the present invention.

Referring to FIG. 1 , a multi-phase linked odor purification system 100 according to an embodiment of the present invention includes an odor reduction device 110, an outdoor air introduction unit 120, an outdoor air mixing module 130, an outlet 140, a control unit ( 150), a first air volume sensor 160 and a second air volume sensor 170.

The odor reduction device 110 may chemically remove odor components by cleaning the air introduced into the livestock facility. For example, the odor reduction device 110 may chemically remove odor components in the air introduced from the livestock facility by using a washing water solution.

Air inside the livestock facility may flow into the odor reduction device 110 through a ventilation fan and/or a duct of the livestock facility. In addition, according to the embodiment, it is also possible to clean the exhausted internal air by attaching the odor reduction device 110 directly to a ventilation fan (not shown) of the livestock facility.

The first air volume sensor 160 may measure the air volume of air flowing into the odor reduction device 110 inside the livestock facility. For example, the first air volume sensor 160 may be installed at a location capable of measuring the air volume of a ventilation fan of a livestock facility that introduces air inside the livestock facility into the odor reduction device 110 .

Meanwhile, the second air volume sensor 170 may measure the air volume of air discharged from the odor reduction device 110 to the outside air mixing module 130 .

Although not shown in FIG. 1 , the control unit 150 may control the amount of external air introduced into the odor reduction device 110 by adjusting the speed of the ventilation fan or the degree of opening and closing of the duct. As a means for controlling the amount of air introduced into the odor reduction device 110, it is possible to use a known technique.

The odor reduction device 110 may include an odor reduction device internal fan 111 therein, which discharges air from which odor components are chemically removed to the outside air mixing module 130 .

The odor reduction device internal fan 111 may operate to compensate for a decrease in the air volume of air discharged from the odor reduction device 110 compared to the air volume of the livestock facility ventilation fan due to the load of the odor reduction device 110 .

The control unit 150 compares the values measured by the first air volume sensor 160 and the second air volume sensor 170, and compares the air volume of the air flowing into the odor reduction device 110 inside the livestock facility and the odor reduction device 110. ), the air volume of the odor reduction device internal fan 111 may be controlled to be the same as the air volume discharged from the outside air mixing module 130 .

The outside air introduction unit 120 may introduce air in the atmosphere outside the livestock facility into the outside air mixing module 130 .

The outdoor air mixing module 130 may be implemented in a slot form or a cyclone form.

The amount of outside air introduced through the outside air introduction unit 120 may be adjusted by an opening/closing angle of the outside air introduction unit 120 or a ventilation fan speed. A mechanical configuration for opening and closing the outside air introduction unit 120 is well known and detailed description thereof will be omitted.

The outdoor air mixing module 130 mixes the air inside the livestock facility discharged after being treated by the odor reduction device 110 and the air introduced from the outside of the livestock facility through the outdoor air introduction part 120 and delivers it to the outlet 140 to be released into the atmosphere. let it come out

By mixing and diluting the air discharged from the odor reduction device 110 with air introduced from the outside in the outside air mixing module 130, the odor concentration may be physically reduced.

The outlet 140 discharges air mixed and delivered in the outside air mixing module 130 into the atmosphere. Through the discharge port 140, the air in which the odor component is diluted in the outside air mixing module 130 is discharged into the atmosphere at a high flow throughout the year to induce diffusion, thereby aerodynamically removing the odor component.

The control unit 150 sets a total ventilation amount (Qa) corresponding to the amount of air discharged into the atmosphere through the outlet 140, and an internal ventilation amount (Qi) corresponding to the amount of air flowing into the odor reduction device 110 from the inside of the livestock facility. can receive

An operator of the multi-phase linkage odor purification system 100 may set the maximum ventilation amount that can be discharged through the outlet 140 as the total ventilation amount Qa.

In addition, the internal ventilation amount (Qi) of the multi-phase linkage odor purification system 100 is set in response to the ventilation amount previously determined by the operator according to the operation status and situation of the barn. The internal ventilation amount (Qi) of the existing barn is linked to the multi-phase linked odor purification system 100 to match the internal ventilation amount (Qi) in real time.

The controller 150 may determine the outside air introduction amount Qo as a difference between the total ventilation amount Qa and the internal ventilation amount Qi.

Qo = Qa - Qi

The control unit 150 may adjust the opening/closing angle of the outdoor air introduction unit 120 or the speed of the ventilation fan according to the determined outside air introduction amount Qo.

When adjusting the total ventilation amount (Qa) and the external air introduction amount (Qo) in the multi-phase linkage odor purification system 100 according to the present invention, the most important thing is not to affect the internal ventilation amount. In particular, in the case of the winter season, since the amount of outside air introduced is greater than the amount of ventilation inside the barn, outside air is introduced into the outside air mixing module 130 at a strong flow rate. At this time, the internal ventilation can be lowered by obstructing the flow of air discharged from the inside of the barn, or the internal ventilation can be higher than the set value by promoting the flow. In order to prevent this, it is preferable to configure the outdoor air mixing module 130 in the form of a slot as described above or in the form of a cyclone to sufficiently induce air mixing. In addition, it is preferable not to block the flow of air discharged from the inside by giving a slope to the inlet angle of the outside air.

2 is a flowchart illustrating the operation of a multi-phase linkage odor purification system according to an embodiment of the present invention.

1 and 2, the control unit 150 first determines the total ventilation amount (Qa) corresponding to the amount of air discharged into the atmosphere through the outlet 140, and the amount of air introduced into the odor reduction device 110 from the inside of the livestock facility. An internal ventilation amount (Qi) corresponding to may be set (S210).

Next, the controller 150 may determine the outside air introduction amount Qo as the difference between the total ventilation amount Qa and the internal ventilation amount Qi (S220).

The control unit 150 controls the ventilation fan inside the livestock facility so that air inside the livestock facility is introduced into the odor reduction device 110 as much as the internal ventilation amount (Qi) (S230).

In addition, the control unit 150 adjusts the opening and closing angle of the outside air introduction unit 120 or the speed of the ventilation fan to introduce outside air as much as the outside air introduction amount Qo into the outside air mixing module 130 so that the odor reduction device 110 treats It is mixed with the internal air (S240).

Finally, diffusion may be induced by discharging the air mixed in step S240 into the air through the outlet 140 by the total ventilation amount Qa set above the maximum ventilation amount that can be discharged through the outlet 140 (S250). ).

While performing steps S230 to S250, the control unit 150 compares the values measured by the first air volume sensor 160 and the second air volume sensor 170, and the odor reduction device ( 110) and the air volume of air discharged from the odor reduction device 110 to the outside air mixing module 130, the air volume of the internal fan 111 of the odor reduction device may be controlled.

As a result, the odorous air discharged from the livestock facility is exhausted at a high flow rate so that the odor is not dispersed to the ground and diffuses smoothly into the atmosphere, and the odor concentration is reduced through dilution with the outside air to reduce the concentration of the odor emitted. can In addition, since air is discharged at a flow rate corresponding to more than the maximum ventilation amount throughout the year, odorous air can diffuse high into the atmosphere without sinking to the ground. Through this, it is possible to solve the odor complaints of farmhouses near livestock facilities. In addition, in the case of the winter season when minimum ventilation is implemented, the concentration of odor discharged can be reduced because external air is mixed and discharged, thereby solving the problem of civil complaints about odor.

The embodiments described above may be implemented as hardware components, software components, and/or a combination of hardware components and software components. For example, the devices, methods and components described in the embodiments may include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate (FPGA). array), programmable logic units (PLUs), microprocessors, or any other device capable of executing and responding to instructions. A processing device may run an operating system (OS) and one or more software applications running on the operating system. A processing device may also access, store, manipulate, process, and generate data in response to execution of software. For convenience of understanding, there are cases in which one processing device is used, but those skilled in the art will understand that the processing device includes a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that it can include. For example, a processing device may include a plurality of processors or a processor and a controller. Other processing configurations are also possible, such as parallel processors.

Software may include a computer program, code, instructions, or a combination of one or more of the foregoing, which configures a processing device to operate as desired or processes independently or collectively. You can command the device. Software and/or data may be any tangible machine, component, physical device, virtual equipment, computer storage medium or device, intended to be interpreted by or provide instructions or data to a processing device. may be permanently or temporarily embodied in Software may be distributed on networked computer systems and stored or executed in a distributed manner. Software and data may be stored on one or more computer readable media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program commands recorded on the medium may be specially designed and configured for the embodiment or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. - includes hardware devices specially configured to store and execute program instructions, such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter, as well as machine language codes such as those produced by a compiler. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

As described above, although the embodiments have been described with limited drawings, those skilled in the art can apply various technical modifications and variations based on the above. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

100: multi-phase linked odor purification system
110: odor reduction device
120: outside air inlet
130: outside air mixing module
140: outlet
150: control unit
160: first air volume sensor
170: second air volume sensor

Claims (5)

An odor reduction device that chemically removes odor components from the air introduced into the livestock facility;
An outdoor air mixing module that mixes the air discharged from the odor reduction device with the air introduced from the outside of the livestock facility to physically reduce odor and deliver it;
An outlet for performing aerodynamic odor reduction by inducing diffusion of the air delivered from the outside air mixing module into the atmosphere;
A first air volume sensor for measuring the air volume of the air flowing into the odor reduction device inside the livestock facility;
A second air volume sensor for measuring the air volume of air discharged from the odor reduction device to the outside air mixing module; and
A control unit for controlling the odor reduction device so that the amount of air flowing into the odor reduction device from inside the livestock facility and the amount of air discharged from the odor reduction device to the outside air mixing module are the same,
The malodor reduction device includes an internal fan for discharging air from which odor components have been removed to the outside air mixing module.
In claim 1,
The control unit,
A total ventilation amount corresponding to the amount of air discharged to the atmosphere through the outlet and an internal ventilation amount corresponding to the amount of air flowing into the odor reduction device from the inside of the livestock facility are set, and the difference between the total ventilation amount and the internal ventilation amount is used A multi-phase linked odor purification system that determines the amount of introduction.
In paragraph 2,
Further comprising an outside air introduction unit for introducing outside air into the outside air mixing module,
The control unit adjusts an opening/closing angle of the outside air introduction unit or a ventilation fan speed according to the determined outside air introduction amount.
In paragraph 3,
A multi-phase linked odor purification system in which the total ventilation amount is set to a value higher than the annual maximum ventilation amount and the internal ventilation amount is applied in conjunction with the ventilation amount information of the existing barn.
In paragraph 3,
The outdoor air mixing module is implemented in a slot form or a cyclone form.

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