KR20190012919A - Electrostatic dust collector using waste heat gas - Google Patents

Abstract

The present invention relates to a technology for a self-generating electrostatic precipitator using flue heat, wherein electricity is able to be produced using waste heat generated in a flue and to produce electricity necessary for pre-electric dust collection. Provided, in the present invention, is the self-generating electrostatic precipitator using flue heat comprising: an electrostatic dust collecting part installed in a wall surface of the flue and collecting fine dust by an electric power supply; a heat transfer part installed in a path through which fluid inside the flue is moved to collect heat of the fluid; a heat radiation part installed outside the wall surface; a thermoelectric generator installed in the wall surface and connected each to the heat transfer part and the heat radiation part and generating electricity by a thermal difference between the heat transfer part and the heat radiation part to supply electricity to the electrostatic dust collecting part.

Description

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

[0001] The present invention relates to a self-generating electrostatic precipitator using a flue heat, and more particularly, to a self-generating electrostatic precipitator which generates electricity using waste heat generated in a flue, This technique is related to a dust collecting device.

The year is an environmental management area that emits final waste heat to a variety of residential and industrial environments. In particular, because it generates various dusts and dusts, the gas generation follows strict management regulations. Particularly, since fine dust which is a recent problem is generated in large quantities, fine dusts are usually removed by electrostatic dust collectors in a year or more of a certain scale. Such electrostatic dust collecting devices have a problem in that it is necessary to use high-voltage electric power and it is difficult to manage the electric power so that it can not be utilized in various years.

Currently, electrostatic dust collecting devices, which are currently in widespread use, require high-voltage electric power and difficulty in managing the electric power.

KR 10-0203834 B1

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a dust collecting apparatus, The purpose is to provide a device.

According to an aspect of the present invention, there is provided an air conditioner comprising: a static dust collecting unit installed in a wall of a wall and collecting fine dust by electric power supply; And a heat dissipating unit installed on the wall surface and connected to the heat transfer unit and the heat dissipation unit to generate electricity by a thermal difference between the heat transfer unit and the heat dissipation unit, And a thermoelectric generator for supplying electric power to the electrostatic precipitator.

The heat transfer portion is a channel having a plurality of partition walls formed at regular intervals in the vertical direction so as to increase the heat transfer area without disturbing the flow of the fluid.

The thermoelectric generator may include a thermoelectric element formed along a wall surface, a coverter connected to the thermoelectric element, and a high-voltage DC connected to the converter and supplying a high-voltage direct current to the electrostatic dust collector.

According to the present invention having the above-described configuration, the following effects can be expected.

It is possible to recycle the energy by producing the electricity itself by using the waste heat generated in the year and by producing the electric power required for electrostatic dust collecting by making it possible to reduce installation easiness and power consumption.

1 is a view showing the construction of a self-generating electrostatic precipitator using a row of flats according to an embodiment of the present invention.

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

1 is a view showing the construction of a self-generating electrostatic precipitator using a row of flats according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a self-generating electrostatic precipitator using a flue heat and includes a electrostatic dust collecting unit 100, a heat transfer unit 200, a heat dissipation unit 300, and a thermoelectric power generation unit 400, It is possible to remove fine dust by using the heat of the flue installed on the wall surface, and the respective constitution will be explained sequentially.

First, the electrostatic dust collecting unit 100 is a device for collecting and removing fine dust of a fluid discharged in a flue.

The electrostatic dust collecting unit 100 is a device that co-generates a corona discharge in front of a classical DC current by electric power supply to charge particles of fine dust and separates the air from the air by an electric force. The pre-dust collector 100 may be installed in a state where a plurality of full plates are spaced apart to collect minute dust that moves.

The heat transfer unit 200 collects heat.

The heat transfer part 200 is installed on the upper part of the flue where the fluid inside the wall moves, and collects the heat of the fluid flowing in the flue.

The reason why the heat transfer unit 200 is located above the flue is that it does not disturb the flow of the fluid as much as possible. Normally, it is preferable to provide the upper part because the upper part is lower than the lower part.

Here, the heat transfer part 200 has a plurality of barrier ribs formed at regular intervals in the vertical direction so as to form a channel type in which the heat transfer area is increased without disturbing the flow of the fluid as much as possible.

The heat collected in the heat transfer part 200 is formed on both sides of the flat plate 220 so as to be closely contacted with the thermoelectric power generation part 400 to transfer heat.

The heat dissipating unit 300 is installed outside the wall surface to collect outside air heat that is relatively lower than the temperature in the flue.

Here, the heat dissipating unit 300 is connected to the thermoelectric power generating unit 400.

The thermoelectric generator 400 is an apparatus that generates electricity by a temperature difference.

The thermoelectric power generating part 400 includes a thermoelectric device 420 formed around a wall surface, a converter 440 connected to the thermoelectric device to convert an alternating current into a direct current, And a high-voltage DC power supply 460 for supplying a high-voltage DC power to the battery 100.

The thermoelectric element 420 of the thermoelectric generator 400 is installed on the wall surface and is formed around the thermoelectric element 420. One side of the thermoelectric element 420 is connected to the heat transfer part 200 and the other side is connected to the heat dissipation part 300. Also, electricity can be generated by the thermal difference between the heat transfer part 200, which is a high temperature part, and the heat radiation part 300, which is a low temperature part, and electricity can be supplied to the electrostatic dust collecting part 100.

Therefore, it is possible to recycle the energy by making the waste heat generated in the year itself generate electricity by the thermoelectric element, and supplying the electric power generated by the electricity generated by the electricity to the electrostatic dust collecting, thereby facilitating the installation and reducing the consumed electric power.

As described above, it can be seen that the present invention is based on the technical idea of providing a self-generating electrostatic precipitator using a column heat, and within the scope of the basic idea of the present invention, Of course, many other variations are possible for those who have.

100: electrostatic dust collecting part
200:
220: Reputation
300:
400: thermoelectric generator
420: thermoelectric element
440: Converter
460: High voltage direct current

Claims (3)

A static dust collecting part installed in the wall surface and collecting fine dust by electric power supply;
A heat transfer part installed in a path through which fluid in the flue is moved to collect heat of the fluid,
A static dust collecting part installed in the flue and collecting fine dust by electric power supply;
A heat dissipation unit installed outside the wall surface,
And a thermoelectric generator installed on the wall surface and connected to the heat transfer part and the heat radiation part and generating electricity by a thermal difference between the heat transfer part and the heat radiation part to supply electricity to the electrostatic dust collecting part. Self - generated electrostatic precipitator using heat of the year. The method according to claim 1,
The heat-
Wherein the plurality of partition walls are formed at regular intervals in the vertical direction to increase the heat transfer area without disturbing the flow of the fluid. The method according to claim 1,
The thermoelectric generator includes:
A thermoelectric element formed along the circumference of the wall, a coverter connected to the thermoelectric element, and a high-voltage DC connected to the converter and supplying a high-voltage direct current to the electrostatic dust collecting unit. Electrostatic precipitator.

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