KR20180024696A - Heating Device for Dust Collecting Filter - Google Patents

Abstract

The present invention relates to a dust collection device. More specifically, the present invention relates to a dust collection device. In order to heat a dust filter mounted in the dust collection device installed to collect particulate matters contained in dirty gas, a heating emission body is heated by supplying power from the outside, and the dust filter is heated via a direct contact with the heating emission body. According to the present invention, the dust collection device comprises: the dust filter collecting the particulate matter contained in dirty gas; and a heating device heating the dust filter through current supply from the outside. The heating device includes a heating emission body which is brought into close contact with the dust filter to heat the dust filter.

Description

TECHNICAL FIELD [0001] The present invention relates to a dust collecting device,

The present invention relates to a dust collecting apparatus, and more particularly, to a dust collecting apparatus installed in a dust collecting apparatus installed to collect particulate matter contained in a dust gas, a power source is supplied from the outside to generate heat, So that the dust filter can be heated by direct contact with the dust filter.

In order to collect the particulate matter contained in the exhaust gas discharged from the commercial commercial air conditioner, several hundreds of filters having a candle shape (typically about 60 mm in diameter and about 1500 mm in length) are installed. Or metal is used.

Generally, when the dust collecting apparatus is preheated, the preheating is carried out by using the combustion gas generated in the preheating process. The preheating exhaust gas also contains moisture. When passing through a dust collector that is not sufficiently preheated, the moisture contained in the preheated gas condenses on the filter surface, and the fine particulate matter generated during the preheating process clogs with the condensed moisture and blocks the pores of the filter, It is often deteriorated or lost.

Also, when gasification and combustion are proceeded by charging coal as raw material in a state where the preheating is not sufficient, a large amount of particulate matter and condensed water are entangled in the early stage of operation frequently. In such a case, when back pulsing is carried out using high-pressure nitrogen in order to desorb the particulate matter entrained in the condensed water, the dust filter may break due to frequent back washing shocks In addition, due to frequent backwashing, the nitrogen gas component is increased in the syngas produced after gasification, which causes a problem such as a decrease in calorific value as fuel.

That is, the conventional dust collecting apparatus preheats itself by using a separate heat source (steam or the like) for preheating the gasifier before the gasifier is preheated, and then, after the preheating of the gasifier is started, A hot exhaust gas is introduced into the dust collecting apparatus while passing through the dust collecting filter to preheat the inside of the dust collecting apparatus.

This preheating method not only requires a long time for preheating but also involves a lot of energy consumption. In addition, even if the preheating of the dust collecting apparatus is performed before the gasifier is preheated, it is very difficult to precisely measure the actual preheating state of the filter body due to the structure of the closed dust collector. In the case of using the steam, The condensed water is absorbed in the heat insulating material installed inside the dust collecting device, and the heat insulating material is backed up or swollen.

If the exhaust gas generated during preheating of the gasifier is brought into contact with the dust filter not sufficiently preheated, moisture will condense on the surface of the dust filter, and then the syngas (dust gas) generated during the full- The particulate matter adheres to the surface of the filter when passing through the condensed dust filter, which is entangled with the condensed water and clogs the pores of the filter.

(Document 1) Korean Patent Registration No. 10-1076279 (October 18, 2011)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a dust collecting apparatus, which is installed to collect particulate matter contained in dust gas, So that the dust filter can be heated by direct contact with the heating element.

According to an aspect of the present invention, there is provided a dust collecting filter for collecting particulate matter contained in dirty gas. And a heating device for heating the dust filter through a current supply from the outside, wherein the heating device includes a heating body which is brought into close contact with the dust filter to heat the dust filter.

It is preferable that a heat insulating member is provided on one side of the heating element and the dust filter is installed on the other side.

 A filter holder on which the dust filter is mounted; And a gasket that keeps airtightness between the dust filter and the filter holder, wherein the gasket is preferably heat-sealed.

The heating device includes: a power supply unit that supplies electricity to the heating element; And a control unit for adjusting the supply of electricity from the power supply unit to the heating element according to the temperature of the dust filter, wherein the power supply unit and the control unit are installed outside the dust collecting apparatus so as not to be exposed to the exhaust gas .

And a backwashing unit for backwashing using high-pressure nitrogen to desorb the dust collected in the dust collection filter, wherein the backwashing unit comprises: a gas pipe for supplying nitrogen; A gas supply valve installed in the gas pipe to adjust a nitrogen amount; And a venturi pipe for guiding the nitrogen discharged from the gas pipe to be transferred to the dust collecting filter.

The venturi pipe may include a fixing plate at a lower portion thereof, and the fixing plate may be fixed to the filter holder.

The material of the dust filter is preferably metal or ceramic.

It is preferable that the heating element is integrally joined to the groove formed in the dust filter.

The positive electrode and the negative electrode of the heating element are preferably electrically connected to the positive electrode and the negative electrode of the fixing plate, respectively.

According to the present invention, since the direct heating device for the candle-type metal filter is provided, the installed metal filter is quickly heated by directly applying power from the outside, so that a preheating process is not necessary. Also, Saving heat source and preheating time.

In addition, since all of the filters are directly heated individually, the problem of being heated by deflecting only a part in the conventional preheating process is solved, and the initial operation of the dust collecting apparatus can be stably operated.

Also, since the stable temperature can be maintained even in the process of ending the gasification connection operation, the problem of low temperature corrosion due to condensation of water on the surface of the filter is prevented, and even if the gasification operation is temporarily stopped, The temperature of the dust-collecting filter can be maintained. Therefore, even if some moisture is condensed in the process of stopping the gasification operation, the effect can be easily removed.

1 is a view showing a dust collecting apparatus according to an embodiment of the present invention.
2 is a view showing a heating element of a dust collecting apparatus according to an embodiment of the present invention.
3 is a view showing a backwashing section of the dust collecting apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following embodiments can be modified into various other forms, and the scope of the present invention is not limited to the following embodiments.

1 is a view showing a dust collecting apparatus according to an embodiment of the present invention.

1, a dust collecting apparatus 100 according to the present invention is installed in a dust collecting apparatus installed to collect particulate matter contained in a syngas produced through gasification of coal or a gas discharged after combustion of a boiler, A dust filter 110 for collecting particulate matter contained in dirty gas, and a heating device for heating the dust filter 110 through external supply of current. The heating device includes a dust filter 110, And a heating element 120 which is in close contact with the dust filter 110 to heat the dust filter 110.

2 is a view showing a heating element of a dust collecting apparatus according to an embodiment of the present invention.

Generally, a heating unit 120 is an electric resistor for converting electrical energy into thermal energy, and may have a ring shape suitable for the candle type dust filter 110, for example, as shown in FIG.

The heat generating body 120 has a heat insulating member 130 on one side and a dust filter 110 on the other side so that the heat emitting body 120 is heated by a current supplied from the outside, And may be configured to proceed only to the dust filter 110.

The heating device includes a power supply part 125 for supplying electricity to the heating element 120 and a control part 126 for controlling the supply of electric power from the power supply part 125 to the heating element 120 according to the temperature of the dust collecting filter 110 The power supply unit 125 and the control unit 126 are preferably installed outside the dust collecting apparatus 100 so as not to be exposed to the exhaust gas.

The dust collecting filter 110 may be mounted on the filter holder 140 so that the heat transferred from the heating element 120 to the dust collecting filter 110 is not transmitted to the filter holder 140. The gasket 141 may be provided between the filter holder 140 and the gasket 141 to maintain airtightness and have a heat insulating function.

That is, the gasket 141 must have a heat insulating function so that heat conducted from the heating element 120 can be used as much as possible for heating the dust-collecting filter 110. For this purpose, the gasket 141, A structure that covers all the contact surfaces of the holder 140 is suitable.

The dust filter 110 may be installed to collect particulate matter contained in the exhaust gas, and may be made of a metal or a ceramic having a high thermal conductivity. In the case of the ceramic filter, the supporting body is made of a metal material, and the supporting body is brought into direct contact with the heating device, so that the entire ceramic filter can be heated.

The heating element 120 may be integrally formed by inserting a heating element 120 into a groove 115 formed in the dust filter 110 so as to increase the heat transfer efficiency and may be formed in a spiral shape along the inner side 111 of the dust filter 110 And may be made in close contact with each other.

Particulate matter such as dust contained in the exhaust gas is collected in the heated dust collecting filter 110 by receiving heat from the heating body 120, and it is necessary to desorb the particulate matter attached by the back washing method after continuous collection have.

Therefore, in the present invention, it is possible to provide a backwashing unit 150 for backwashing using a gas such as nitrogen or air at a high pressure in order to desorb the dust collected in the dust collection filter 110. As shown in FIG. 3, The control unit 150 includes a gas pipe 158 for supplying nitrogen and a gas supply valve 159 for controlling the amount of nitrogen installed in the gas pipe 158 and nitrogen exhausted from the gas pipe 158 to the dust filter 110. [ And a venturi pipe 155 for guiding the venturi pipe 155 to be transported.

3, high-pressure backwashing nitrogen is supplied to the dust-collecting filter 110 through the vent pipe 155 via the gas pipe 158, so that the surface of the dust-collecting filter 110 The collected dust is removed, and the removed dust is dropped into a dust collecting container (not shown).

The venturi pipe 155 includes a fixing plate 156 at the bottom and the fixing plate 156 can be fixed to the filter holder 140 by fixing bolts 142.

The fixing plate 156 may be provided with a cathode 151 and a cathode 152 and may be electrically connected to the anode 121 and the cathode 122 of the heating element 120, respectively. That is, the heating element 120 is provided with an anode 121 and a cathode 122 so as to be supplied with power, and a contact or a groove is formed at the contact to connect the anode 151 and the cathode 152, Respectively, so that electricity can be smoothly induced. The supplied electricity can be heated to a proper temperature while passing through the heating element 120 having resistance and can be heated by the candle type dust filter 110 adhered to the heating element 120 so that the entire dust filter 110 can be heated have.

A power supply line may be connected to the electrode plate provided on the fixing plate 156 so as to be connected to the power supply unit 125. The power supply unit 125 may supply power to the heating element 120 according to a signal from the controller 126. If a plurality of dust collecting filters 110 are provided, an electric circuit may be formed in the fixing plate 156 so that the plurality of dust collecting filters 110 can be simultaneously heated. In order to automatically heat the dust collecting apparatus 100 in the preheating process, the general stopping process, and the emergency stop period, the controller 126 controls the heating unit (not shown) in the power supply unit 125 according to the temperature measured by the dust collecting filter 110 120 can be controlled.

Since the dust collecting apparatus according to the present invention includes the direct heating device for the candle type metal filter, the metal filter installed therein is quickly heated by applying power from the outside, so that the preheating process is not necessary, It is possible to save auxiliary heat source such as steam and preheating time.

In addition, since all the filters are individually heated directly, it is possible to reliably operate the dust collecting apparatus in an initial operation by solving the problem that the filter is heated by being partially deflected in the preheating process.

Also, since the stable temperature can be maintained even in the process of ending the gasification connection operation, the problem of low temperature corrosion due to condensation of water on the surface of the filter is prevented, and even if the gasification operation is temporarily stopped, The temperature of the dust collecting filter can be maintained. Therefore, even if some moisture is condensed in the process of stopping the gasification operation, there is an advantage that it can be easily removed.

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 and scope of the invention. It is.

110: dust collecting filter 120: heating element
125: power supply unit 126:
130: Heat insulating member 140: Filter holder
141: Gasket 150: Backward government
155: Venturi pipe 158: Gas pipe
159: gas supply valve

Claims (9)

A dust filter for collecting particulate matter contained in dirty gas; And
And a heating device which heats the dust filter through an external current supply,
Wherein the heating device includes a heating body which is brought into close contact with the dust-collecting filter to heat the dust-collecting filter.
The method according to claim 1,
Wherein a heat insulating member is provided on one side of the heating element and the dust filter is installed on the other side.
The method according to claim 1,
A filter holder on which the dust filter is mounted; And
And a gasket for maintaining airtightness between the dust collecting filter and the filter holder,
Wherein the gasket is adiabatic.
The method according to claim 1,
The heating device includes:
A power supply unit for supplying electricity to the heating element; And
And a controller for controlling supply of electricity from the power supply unit to the heating element in accordance with the temperature of the dust filter,
Wherein the power supply unit and the control unit are installed outside the dust collecting apparatus so as not to be exposed to the smoldering gas.
The method of claim 3,
And a backwashing unit for backwashing using high-pressure nitrogen to desorb the dust collected in the dust collection filter,
The back-
A gas pipe for supplying nitrogen;
A gas supply valve installed in the gas pipe to adjust a nitrogen amount; And
And a venturi pipe for guiding the nitrogen discharged from the gas pipe to be delivered to the dust filter.
The method of claim 5,
The venturi pipe includes a fixing plate at a lower portion thereof,
And the fixing plate is fixed to the filter holder.
The method according to claim 1,
Wherein the dust-collecting filter is made of metal or ceramic.
The method according to claim 1,
Wherein the heating element is integrally joined to the groove formed in the dust-collecting filter.
The method of claim 5,
And the positive electrode and the negative electrode of the heating element are electrically connected to the positive electrode and the negative electrode of the fixing plate, respectively.

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