KR102503220B1 - wet electrostatic precipitator - Google Patents

Abstract

The present invention relates to a wet electrostatic precipitator which comprises: a dust collection guide unit having several cylindrical dust collection pipes vertically formed between a supply water tank and separation water tank of a housing, having a discharge line passing through the inside of the dust collection pipes, and having an inflow groove perforated on the upper side to communicate with the supply water tank; and a dust collection discharge unit having a guide cap for forming a water film formed on the upper part of the dust collection guide unit, having a drainage separation cap coupled to the lower part, and having a screw for guiding inflow gas formed inside the drainage separation cap. Since the drain separation cap forms a drain guiding protrusion on the upper part of the outer circumference and is fitted and coupled to the lower end of the dust collection pipe located inside the separation water tank, penetrates the separation water tank, and has the screw formed inside to induce rotation of the passing gas, the gas gains rotational force when passing through the screw of the drain separator cap such that residence time is increased and a water film is uniformly formed by centrifugal force. Accordingly, since the uniform formation of a water film is induced around the inner periphery of the dust collection pipe and the residence time of the gas passing through the dust collection pipe is increased, discharge defects are prevented, thereby suppressing functional degradation and shortened lifespan and significantly increasing dust collection efficiency.

Description

Wet electrostatic precipitator {wet electrostatic precipitator}

The present invention relates to a wet type electric precipitator, and more particularly, to collect dust using watermelon, to continuously form a water film smoothly and uniformly, and at the same time to expand the residence time of gas to maximize dust collection efficiency. It's about electrostatic precipitators.

In general, electric precipitators are installed in incinerators, boiler desulfurization facilities and other fine dust and harmful gas removal facilities, and are widely used to prevent air pollution.

In this electric precipitator, a cylindrical dust collector is positive (+), a negative (-) direct current high voltage is applied to a discharge line suspended in the center of the cylinder, and then a gas containing dust is sent from the bottom of the cylinder to make the dust negative. There is a wet type in which dust accumulated in the cylindrical dust collection pipe is washed with water or a dry type in which the cylindrical dust collection pipe is removed by mechanical shock, etc.

To explain this in detail, the electric precipitator usually applies a high voltage of direct current from the high voltage generator to the discharge line, but connects the (-) electrode to the discharge line so that the dust particles contained in the air passing between the discharge line and the dust collector ( -) By applying an electric charge, dust is removed by inducing attachment to the dust collector having a relatively (+) polarity. At this time, it is largely divided into dry and wet methods depending on the method of cleaning the dust attached to the dust collector.

At this time, the dry electric precipitator is a method of cleaning by dropping the attached dust by applying an impact to the dust collection pipe by rapping (beating the dust collection pipe with a hammer).

However, since dust with strong adhesiveness or adhesiveness is not easily removed from the dust collection pipe, the electrical conductivity of the dust collection pipe is lowered, thereby causing a problem of lowering the dust collection efficiency.

On the other hand, the wet type electric precipitator was developed to compensate for the disadvantages of the dry type electrostatic precipitator, and adopts a method of cleaning by supplying water to the surface of the dust collection pipe intermittently or continuously. Among them, the method of continuously forming a water film on the dust collection pipe to fundamentally prevent contamination of the dust collection pipe (collecting plate) while cleaning it is particularly useful for treating non-resistance dust or dust with strong adhesion and age hardening.

However, in such a wet electric precipitator, water overflowing to the inner periphery of the dust collector often fails to form an even water film, causing sparks to form during discharge or dust to adhere to the dust collector, resulting in poor discharge. At the same time, since the function of the dust collector is deteriorated due to this, there is a problem of not only having to clean each one after disassembly to solve this, but also causing a decrease in the function of the dust collector and a shortened lifespan.

As for the prior art, there is Patent Registration No. 10-1153008 (title of invention: wet electrostatic precipitator).

Therefore, the main object of the present invention is to induce the formation of a water film uniformly on the inner periphery of the dust collection pipe and at the same time to extend the residence time of the gas passing through the dust collection pipe, thereby preventing discharge failure, suppressing functional degradation and shortening of life, and simultaneously collecting dust. It is an object of the present invention to provide a wet electrostatic precipitator capable of dramatically improving efficiency.

In order to achieve the above object, the wet electrostatic precipitator of the present invention forms a housing part having a supply tank and a separation tank therein, and several cylindrical dust collection pipes vertically between the supply tank and the separation tank of the housing part. A dust collection guiding part having a discharge line penetrated through the inner side of the dust collecting pipe and an inlet groove communicating with the supply tank on the upper side, and a guide cap for forming a water film formed on the upper part of the dust collecting guiding part, and a drainage separation cap connected to the lower part, but a drainage separation cap It consists of a dust collecting discharge part formed with a screw for guiding the inflow gas inside, but the drainage separation cap forms a drainage induction protrusion on the upper part of the outer circumference to be inserted into the lower end of the dust collection pipe located inside the separation tank and separated at the same time It is a basic feature of its technical configuration that it is configured to penetrate the water tank and form a screw therein to induce rotation of the passing gas.

Therefore, the wet electrostatic precipitator of the present invention flows into the space between the support protrusion and the guide protrusion of the guide cap for forming a water film and guides the water to flow evenly and uniformly through the passage and the concave-convex portion in a state of holding water, and at the same time, the first guide projection and the second guide projection It flows more evenly as it passes through, forming a water film evenly on the inner periphery of the dust collector, and at the same time, when the gas passes through the screw of the drainage separation cap, rotational force is obtained to increase the residence time and at the same time, the water film is more uniform by centrifugal force. By forming a water film uniformly on the inner periphery of the dust collector, it induces the formation of a water film uniformly and at the same time extends the residence time of the gas passing through the dust collector. has the effect of dramatically improving

1 is a front view showing a small wet electrostatic precipitator according to the present invention.
Figure 2 is an enlarged cross-sectional view showing a water film formation guide cap portion of the wet electrostatic precipitator according to the present invention.
Figure 3 is an enlarged cross-sectional view showing a drain separation cap combined with a gas guide of a wet electric precipitator according to the present invention.
Figure 4 is a front view showing a guide cap for forming a water film of a wet electrostatic precipitator according to the present invention.

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

1 to 4, the wet electrostatic precipitator 100 of the present invention includes a housing part 110 having a supply tank 113 formed therein and a separation water tank 114 formed at the bottom, and the housing part Several cylindrical dust collection pipes 121 are formed vertically between the supply tank 113 and the separation tank 114 of (110), and the discharge line 123 is passed through the inside of the dust collection pipe 121, but supplied to the upper side. A dust collection guide part 120 having an inlet groove 122 communicating with the water tank 113 drilled, and a guide cap 131 for forming a water film formed on the upper part of the dust collection guide part 120 and a drainage separation cap 136 on the lower part It is composed of a dust collection discharge unit 130 having a screw 138 for guiding the inflow gas into the inside of the drainage separation cap 136.

The housing part 110 forms a gas inlet 111 on one side of the lower part and forms a gas outlet 112 upward on the upper part, but forms a supply water tank 113 on the inside upper side of the housing part 110 to form the upper part. It is formed to block horizontally.

In addition, the separation water tank 114 is formed on the inner lower side of the housing part 110, but is formed above the gas inlet 111 to block the lower part of the housing part 110 horizontally.

Here, it is common for the separation tank 114 to form a storage tank communicating with each other below the gas inlet 111 .

The dust collection guide part 120 combines the guide cap 131 and the drainage separation cap 136 above and below the cylindrical dust collection pipe 121 to vertically penetrate the supply tank 113 and the separation tank 114, but the dust collection pipe ( 121) is preferably formed to be located inside the separation tank.

Here, the discharge line 123 is formed on the center line of the dust collector 121, but a plurality of discharge pins 124 are formed at regular intervals in the discharge line 123.

Furthermore, the main hanger 125 and the sub-hanger 125 are alternately formed on the upper and lower sides of the dust collector 121 to accurately and support the discharge line 123 on the center line of the dust collector 121. ideal

In addition, a normal voltage supply member 127 applying a voltage to a high voltage device (not shown) is formed on the discharge line 123.

The dust collection discharge unit 130 combines the water film formation guide cap 131 at the top of the dust collection pipe 121 to penetrate the supply tank 113, but the support protrusion 132 is provided at the top of the outer circumference of the guide cap 131. It is formed so that it is smoothly coupled to the supply tank 113, and the guide protrusion 133 is formed on the lower side of the support protrusion 132 to form the inlet groove of the dust collection pipe 121 in the space between the support protrusion 132 and the guide protrusion 133. 122 is placed so that the inside of the supply tank 113 communicates with the outer circumferential space of the dust collection pipe 121.

Furthermore, the guide protrusion 133 forms a passage 133b penetrating downward on the inside and a concave-convex portion 133a on the outer periphery of the passage 133b and the concave-convex portion 133a in a state in which the inflowing water is contained. It is induced to flow evenly and evenly.

In addition, on the lower side of the guide protrusion 133 of the guide cap 131, a first guiding protrusion 134 and a second guiding protrusion 135 having a plurality of protrusions formed in an arc shape are formed vertically, but the first guiding protrusion 134 ) and the protrusions of the second guiding protrusion 135 are formed vertically long to guide the flowing water to the left and right so that it flows uniformly downward.

In addition, the protrusions of the first guiding protrusion 134 and the second guiding protrusion 135 are formed in a radial shape and at the same time, the second guiding protrusion 135 is formed at the lower center between the first guiding protrusion 134 to form the first guiding protrusion 135. Guide the water flowing between the guide protrusions 134 to the left and right so that it flows more uniformly downward.

Furthermore, the second guide protrusion 135 protrudes closer to the inner periphery of the dust collector 121 than the first guide protrusion 134 so that water can be constantly supplied to the inner periphery of the dust collector 121 smoothly.

On the other hand, the drainage separation cap 136 forms a drainage induction protrusion 137 on the upper part of the outer periphery and is fitted to the lower end of the dust collection pipe 121 located inside the separation water tank 114, and at the same time separates the water tank 114. Since it is coupled to penetrate completely, the drainage separation cap 136 is firmly fixed to the inner periphery of the dust collection pipe 121 by the drainage induction protrusion 137, and the inner circumference of the dust collection pipe 121 and the drainage separation cap 135 ) to form a gap between the outer periphery of the water flowing from the top is smoothly guided to the separation tank (114).

In particular, a screw 138 is formed inside the drainage separation cap 136 so that the passing gas passes through the cylindrical dust collection pipe 121 while rotating, so that the water flowing through the rotational force of the gas more evenly distributes and flows downward At the same time, the residence time is increased to improve the dust collection efficiency.

The operation of the present invention is described as follows.

The water in the supply tank 113 flows into the space between the support protrusion 132 and the guide protrusion 133 of the water film forming guide cap 131 through the inlet groove 112, and flows through the passage 133b and the concave-convex portion in a state where water is stored. (133a), while passing through the first guide projection 134 and the second guide projection 135, it flows more evenly and forms a water film evenly on the inner periphery of the dust collector 121. let it flow

At the same time, the gas introduced from the gas inlet 111 obtains rotational force when passing through the screw 138 of the drain separation cap 136 and passes through the inner periphery of the cylindrical dust collector 121 while rotating, thereby increasing the residence time and At the same time, the water film is formed more uniformly by the centrifugal force.

Therefore, when a high voltage is applied to the discharge line 123 by a high voltage supply device, the (-) charged dust moves to the (+) charged dust collector 121 side, and is collected in the evenly flowing water film to form a dust collector 121 ) Since it falls downward along the inner surface of the electric precipitator 100 to maximize the dust collection efficiency.

The above description is illustrative of the present invention, and the embodiments disclosed in the specification are not intended to limit the technical spirit of the present invention, but are for explanation. Various modifications and variations or substitution of steps will be possible within the range of not departing from the technical idea of . Therefore, the protection scope of the present invention should be construed by the matters described in the claims, and technical matters within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: electrostatic precipitator 110: housing part
111: gas inlet 112: gas outlet
113: supply tank 114: separation tank
120: dust collection induction unit 121: dust collection pipe
122: inlet groove 123: discharge line
124: discharge pin 125: main hanger
126: sub hanger 127: voltage supply member
130: dust collection discharge unit 131: guide cap
132: support protrusion 133: guide protrusion
133a: uneven portion 133b: passage
134: first guide projection 135: second guide projection
136: drainage separation cap 137: drainage induction projection
138: screw

Claims (4)

The housing part 110 in which the supply tank 113 and the separation tank 114 are formed inside, and several cylindrical houses vertically between the supply tank 113 and the separation tank 114 of the housing part 110 A dust collection induction unit 120 in which a dust collection pipe 121 is formed and a discharge line 123 is passed through the inside of the dust collection pipe 121, but an inlet groove 122 communicating with the supply tank 113 is perforated at the upper side, and the dust collection A guide cap 131 for forming a water film is formed on the upper part of the induction part 120, and a drain separation cap 136 is coupled to the lower portion, but a screw 138 for guiding the inflow gas is formed inside the drainage separation cap 136. It consists of a dust collection discharge unit 130,
The housing part 110 forms a gas inlet 111 on one side of the lower part, forms a gas outlet 112 upward on the upper part, and forms a supply water tank 113 on the inside upper side of the housing part 110 to form an upper part. At the same time as forming to block horizontally, the separation tank 114 is formed on the lower side of the inside to block the lower part horizontally, but the separation tank 114 is formed on the upper side of the gas inlet 111, and the dust collection guide part 120 Combining the guide cap 131 and the drainage separation cap 136 on the upper and lower sides of the cylindrical dust collection pipe 121 and vertically penetrating the supply tank 113 and the separation tank 114, the lower end of the dust collection pipe 121 is connected to the separation tank It is formed to be located inside the dust collection tube 121, and is configured by penetrating the discharge line 123 formed with several discharge pins 124 on the center line of the dust collector 121,
The dust collection discharge unit 130 is installed through the supply tank 113 by combining the water film formation guide cap 131 at the top of the dust collection pipe 121, and the support protrusion at the top of the outer circumference of the guide cap 131 ( 132) and form a guide protrusion 133 on the lower side of the support protrusion 132 to position the inlet groove 122 of the dust collection pipe 121 in the space between the support protrusion 132 and the guide protrusion 133, and guide A first guide protrusion having a passage 133b penetrating downward on the inside of the protrusion 133, an uneven portion 133a formed on the outer periphery, and a plurality of protrusions formed in an arc shape on the lower side of the guide protrusion 133. (134) and the second guiding protrusion 135 are formed vertically, but the protrusions of the first guiding protrusion 134 and the second guiding protrusion 135 are vertically long and at the same time the second guiding protrusion 135 is formed. It is formed at the lower center between the first induction protrusion 134 and the second induction protrusion 135 protrudes closer to the inner circumference of the dust collector 121 than the first induction protrusion 134,
The drainage separation cap 136 forms a drainage induction protrusion 137 on the upper portion of the outer periphery and is inserted into the lower end of the dust collection pipe 121 located inside the separation water tank 114, and at the same time separates the water separation tank 114. Wet electrostatic precipitator characterized in that it is configured to penetrate and form a screw 138 therein to induce rotation of the passing gas. delete delete delete

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