KR20170087189A - Odor removal of organic waste unit - Google Patents

Abstract

Disclosed is an organic waste treatment facility odor eliminating device which emits 185 nm ultraviolet rays by a UV photo-oxidation lamp using a hopper (reservoir) upper space as a reaction chamber, generates OH radicals by reacting with water molecules, and removes odors generated in organic waste. do. A UV photo-oxidation lamp which exposes the electric ballast connection terminal to the outside of the hopper (reservoir) and is spaced apart from the hopper gate so that ultraviolet rays installed inside the hopper (reservoir) device are not exposed to the outside of the hopper gate; A water jet nozzle for washing off the salt adsorbed on the UV photo-oxidation lamp; An ultrasonic humidifier for spraying water molecules reacting with ultraviolet rays emitted from the UV photo-oxidation lamp; And an air suction duct for sucking the air of the hopper gate and discharging the air into the scrubber stack. Therefore, it is easy to install and maintain, and odor generated from organic waste can be removed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an odor removing apparatus,

The present invention relates to an organic waste odor removing apparatus, and more particularly, to a hopper (reservoir) upper empty space as a reaction chamber. The present invention relates to an organic waste treatment plant odor eliminating apparatus which emits ultraviolet rays by a UV photo-oxidation lamp and reacts with water molecules to generate radicals and removes odors generated in organic wastes.

In our modern society, the whole country is struggling with massive organic rubbish. Large quantities of organic waste, such as food waste from households and restaurants, livestock feed, sewage sludge, and slaughter by-products, are collected and transported to specialized processing facilities. In the processing of organic wastes, high concentrations of odor are generated and cause complaints to the surrounding communities. In order to solve the complaints as much as possible and to create a pleasant environment, a deodorizing equipment is required to remove odors. It is easy to manufacture and install, it is economical, and the device configuration is simple, so maintenance should be convenient. In particular, there is a need for an organic waste odor remover having good odor removal efficiency.

Application Number: 20-2011-0004514, Food Waste Number Hopper Device Application No.: 10-2006-0069153, hopper device for food waste

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus for removing odor of an organic waste treatment plant which is easy to install and maintain and generates oxygen ions, ozone, and radicals to remove the odors generated in organic wastes by photo- have.

Therefore, we want to use the storage hopper as a large capacity reaction chamber. The present invention is to provide an apparatus for removing odor from an organic wastes treatment plant by utilizing an existing space without installing a UV photo-oxidation lamp, a water spray nozzle, and an ultrasonic humidifier in the inside of the apparatus.

It is also an object of the present invention to provide an apparatus for removing odor of an organic waste treatment plant using an ultrasonic humidifier so that 185 nm ultraviolet ray emitted from a UV photo-oxidation lamp reacts with fog-like water molecules to generate ohradicals.

It is another object of the present invention to provide an apparatus for removing odor of an organic waste disposal plant that cleans salt of a lamp adhering to a surface of a lamp during an ion emission process of a UV photo-oxidation lamp by using a water spray nozzle to maintain light transmission efficiency.

In order to accomplish the above object, the present invention proposes to expose the electrical connection terminal to the outside of the upper end of the hopper storage tank, and to prevent the UV light emitted from the hopper storage device from being emitted to the outside of the hopper gate.

An ultrasonic humidifier for spraying water molecules reacting with 185 nm ultraviolet rays emitted from a UV photo-oxidation lamp, and an air blower for sucking the photo-oxidizing gas mixture in the hopper (reservoir) and discharging the gas to the scrubber stack Suction duct, a UV photooxidation lamp, a water injection nozzle and an ultrasonic humidifier are installed inside the empty space above the hopper device.

In addition, the UV photo-oxidation lamp emits ultraviolet rays at 185 nm and 253.7 nm.

In addition, the UV photooxidation lamp is installed vertically so that the wash water falls downward.

Further, the water injection nozzle operates at intervals of a predetermined period and repeats the stopping.

In addition, the ultrasonic humidifier injects fine water molecules, and water molecules combine with ozone to generate radicals, which quickly oxidize odor particles, pathogens and viruses.

In the case of using the apparatus for removing odor of organic wastes according to the present invention as described above, there is no need to newly prepare a separate reaction chamber or prepare a separate space because the upper empty space of the hopper (storage tank) is used as a reaction chamber.

There is an advantage that no chemicals and chemicals are added.

No secondary pollutants are generated and the odor is finally released into water and carbon dioxide.

It has the effect of eliminating the odor complaints and reducing the pathogens and viruses in the workplace and contributing to the health promotion of workers in the facility.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view illustrating the structure of an organic waste treatment plant odor eliminating apparatus according to an embodiment of the present invention; FIG.
FIG. 2 is a view showing an example in which a UV photo-oxidation lamp according to an embodiment of the present invention is installed.
3 is a view illustrating an example in which a water injection nozzle according to an embodiment of the present invention is installed.
4 is an exemplary view illustrating the installation of an ultrasonic humidifier according to an embodiment of the present invention.
FIG. 5 is an exemplary view illustrating the installation of an air suction duct according to an embodiment of the present invention. FIG.

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

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view illustrating the structure of an organic waste treatment plant odor eliminating apparatus according to an embodiment of the present invention; FIG.

The organic waste treatment plant odor removing device includes a UV photo-oxidation lamp (110) spaced apart from the hopper gate (11) and having an electric ballast connection terminal (12) at the top thereof; A water spray nozzle 120 for washing out salty water adsorbed on the UV photo-oxidation lamp 110; An ultrasonic humidifier 130 which emits water molecules reacting with 185 nm ultraviolet rays emitted from the UV photo-oxidation lamp 110; And an air suction duct 140 for sucking the photo-oxide mixed gas of the hopper gate 11 and discharging it to the scrubber stack. The constituent elements that enable the operation of this organic waste odor removal hopper chamber device are described one by one.

The UV photo-oxidation lamp 110 emits ultraviolet light. The position where the UV photo-oxidation lamp 110 is installed is spaced apart from the hopper gate 11 and installed in an empty space in the hopper device. The UV photo-oxidation lamp 110 is spaced apart from the hopper gate 11 and provided with an electrical ballast connection terminal 12 at its upper end.

An external power source is connected to the electric ballast connection terminal 12 to operate the UV photo-oxidation lamp 110. The electric ballast connection terminal 12 is disposed at the upper end and exposed to the outside of the hopper cover 13 so that an external power source can be connected. The electric ballast connection terminal 12 supplies external power to the UV photo-oxidation lamp 110 so that the UV photo-oxidation lamp 110 can operate. Further, the electric ballast connection terminal 12 is exposed to the outside of the hopper lid 13 to prevent moisture or contaminants from being deposited.

The UV photo-oxidation lamp 110 continues to operate for air purification.

The water injection nozzle 120 cleans the salt adsorbed on the UV photo-oxidation lamp 110.

The water injection nozzle 120 operates intermittently to clean the UV photo deadening lamp 110. [

The ultrasonic humidifier 130 intermittently emits water molecules reacting with the 185 nm ultraviolet ray emitted from the UV photo-oxidation lamp 110. The ultrasonic humidifier 130 is a water molecule injection, and produces the same effect as water vapor.

The air suction duct 140 sucks the air from the hopper gate 11 and discharges it to the scraper panstec. The air suction duct 140 is spaced apart from the hopper gate 11 and positioned at the center of the hopper device cover. The air suction duct 140 sucks air to keep the inside of the hopper under a negative pressure so that the organic waste gas is not discharged to the outside through the hopper gate 11. Oxygen ions, ozone, radicals, etc. are contacted while trapping the odor generated in other devices through the connected suction duct and oxidize the odor and discharge the purified air to the outside.

The UV photo-oxidation lamp 110 operates to remove odors, the ultrasonic humidifier 130 sprays water molecules to generate radicals, the water spray nozzle 120 cleans the salt adsorbed on the UV photo-oxidation lamp 110 , And the air suction duct (140) sucks air in the hopper gate (11). The UV photo-oxidation lamp 110 will be described sequentially.

FIG. 2 is a view showing an example in which a UV photo-oxidation lamp according to an embodiment of the present invention is installed.

The location, installation configuration, and operation of the UV photo-oxidation lamp 110 will be described.

The position where the UV photo-oxidation lamp 110 is installed is such that the UV photo-oxidation lamp 110 is spaced apart from the hopper gate 11 and exposes the electrical connection terminal 12 at the top. The UV photooxidation lamp 110 is spaced apart from the hopper gate 11 so that it does not come in contact with the organic wastes introduced into the hopper (reservoir) gate 11. The UV photo-oxidation lamp 110 is installed in an empty space inside the hopper device.

Looking at the installation configuration, the UV photo-oxidation lamp 110 emits 185, 234.7 nanometers ultraviolet radiation. The ultraviolet rays generated from the UV photo-oxidation lamp 110 damage the cornea and the retina when they come into contact with the eye, so they are spaced apart from the hopper gate 11 and installed in the inner corner of the hopper device 10. So that ultraviolet rays generated in the UV photo-oxidation lamp 110 are not exposed to the outside through the hopper gate 11. [ Utilizing the two wavelengths simultaneously generated in the UV photo-oxidation lamp 110, the odor-removing and disinfecting ability is utilized.

In operation, the UV photo-oxidation lamp 110 emits ultraviolet light at a wavelength of 185, 253 nanometers.

First, 185nm ultraviolet light is absorbed by oxygen to generate oxygen ions and ozone.

Ozone reacts with water vapor inside the hopper (reservoir) to generate oh radicals.

* O3 + H2O = OH radical (hydroxyl group)

* H ₂ O (fog state) + 185 nm = OH radical (hydroxyl group).

Radicals have a bad odor and fast reaction rate and become harmless to human body.

And 254nm is a strong sterilization line, which rapidly kills the bacteria virus in the hopper and is absorbed by the ozone generated to generate hydroxyl radicals (oh radical), and sterilization and odor removal continue. * O ₃ + 254 nm = OH radical

The UV photo-oxidation lamp 110 is vertically installed and configured such that the adsorbed water falls downward. The UV photo-oxidation lamp 110 is installed horizontally rather than horizontally so that the upper electrical connection terminal 12 is not short-circuited to the water, and the water falls down when the water is flooded.

3 is a view illustrating an example in which a water injection nozzle according to an embodiment of the present invention is installed.

The installation form and operation of the water injection nozzle 120 will be described.

In operation, the water injection nozzle 120 cleans the salt adsorbed on the UV photo-oxidation lamp 110. In the installation mode, the water injection nozzle 120 arranges a plurality of nozzles along the UV photo-oxidation lamp 110.

The water injection nozzle 120 may repeat the water injection operation and stop or manually start / stop by a timer operation set at a predetermined cycle. The water injection nozzle 120 is configured to discharge the salt of the lamp surface Thereby increasing the light transmission efficiency.

4 is an exemplary view illustrating the installation of an ultrasonic humidifier according to an embodiment of the present invention.

The operation and effect of the ultrasonic humidifier 130 will be described.

In operation, the ultrasonic humidifier 130 emits water molecules reacting with ultraviolet rays emitted from the UV photo-oxidation lamp 110. The operation of the ultrasonic humidifier 130 is periodically turned on / off by the twin timer. In the installation position, a mist spray or an ultrasonic humidifying spray nozzle is installed around the UV photo-oxidation lamp 110.

By operation of the ultrasonic humidifier 130, fine water vapor and ozone meet to generate OH radicals.

Ozone has the property of reacting well with water vapor.

O ₃ + H ₂ O = -OH and the water molecule absorbs 185 nm to produce oh radicals.

Odor substance + OH radical = CO2 + H2O Odorous substance reacts with radicals

Carbon dioxide and water are generated.

The ultrasonic humidifier 130 can remove the saltiness of the surface of the UV photo-oxidation lamp 110. In addition, the OH radical reacted with the ultrasonic humidifier 130 oxidizes odor gas at low cost and reduces bacteria and viruses.

5 is an exemplary view illustrating the installation of an air suction duct according to an embodiment of the present invention.

The operation and installation positions of the air suction duct 140 will be described.

In operation, the air suction duct 140 sucks the air from the hopper gate 11 and discharges it to the scrubber stack. The installation position is such that the air suction duct 140 is spaced apart from the hopper gate 11 and positioned at the center of the hopper device cover.

Air sucked into the air suction duct 140 is mixed with radicals and odorous particles of organic waste, and air purification occurs. Air passing through the air suction duct (140) is transferred to the fan and the scrubber, and is discharged to the outside.

As a result of the final outlet measurement, the ammonia concentration fell from 50ppm to 6.68ppm at 80ppm (Indian Poultry Law). The ammonia concentration is detected to be lower than the reference value, and the odor removing effect is excellent. In addition, odor is dramatically reduced, which has the effect of restraining civil complaints in the surrounding area and making the environment comfortable.

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 present invention as defined by the following claims It can be understood that

11: hopper (reservoir) gate 12: electric ballast connection terminal
110: UV lamp 120: water jet nozzle
130: Ultrasonic humidifier 140: Air suction duct

Claims (2)

A UV photo-oxidation lamp which exposes the electric ballast connection terminal to the outside of the hopper (reservoir) and is spaced apart from the hopper gate so that ultraviolet rays installed inside the hopper (reservoir) device are not exposed to the outside of the hopper gate;
A water jet nozzle for washing off the salt adsorbed on the UV photo-oxidation lamp;
An ultrasonic humidifier for spraying water molecules reacting with ultraviolet rays emitted from the UV photo-oxidation lamp; And
And an air suction duct for sucking air from the hopper gate and discharging the air to the scrubber stack,
Wherein the UV photo-oxidation lamp, the water injection nozzle, and the ultrasonic humidifier are installed in an empty space (reaction chamber) in a space above the hopper (storage tank). The method according to claim 1,
The UV photo-oxidation lamp emits ultraviolet rays of 185 nm and 253.7 nm, vertically installed to drop the adsorbed water downward, the electric connection portion is installed outside, and the ultraviolet light-emitting portion is installed inside the hopper, The odor removal efficiency is increased by the residence time and spatial chain reaction environment composition,
Wherein the water spray nozzle is provided with a plurality of nozzles along the UV photo-oxidation lamp and operates at a constant interval and repeats stopping.

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