KR102041802B1 - Ultrafine dust collector using liquid - Google Patents

Abstract

The present invention relates to an ultrafine dust collector using a liquid and, more specifically, to an ultrafine dust collector using a liquid to directly collect fine dust generated in thermoelectric power plants and collect the fine dust using seawater which is available around. The ultrafine dust collector comprises: a body; an ultrafine dust inlet for sucking ultrafine dust from a chimney and an outlet for discharging the ultrafine dust to the chimney; a plurality of rotating propellers whose rotation shafts are fixed in a vertical direction at a predetermined position of side walls of the body; a power supply device for providing power to the propeller; a motor for generating a rotational force of the propeller by receiving power of the power supply device; a sediment discharge liquid container; a seawater inflow device for supplying seawater as a liquid to the sediment discharge liquid container; and a controller including a power control function for managing power consumption of the motor and the power supply device, an overflow control function for preventing an overflow of the sediment discharge liquid container, and a control function for adjusting an inflow amount of the seawater inflow device.

Description

Ultrafine dust collector using liquid

The present invention relates to an ultra-fine dust collecting device using a liquid, and more particularly, ultra-fine dust collecting device using a liquid that directly collects the fine dust generated in the thermal power plant, and collects the fine dust with sea water that can be obtained from the surroundings It is about.

It is installed on the top of a chimney of a conventional thermal power plant, a factory, a bathhouse, and the like, and the unburned fine particles such as carbon material contained in the smoke discharged through the chimney are filtered and collected as a fountain device to discharge the soot in a purified state. The soot filtration system for factory chimneys, which can reduce air pollution, is not only too expensive, but when the filtration device is attached to the chimney, the fume discharge function of the chimney is reduced, so there is a reluctance to install it. Even with the device installed, there was a tendency to simply emit soot instead of running it, causing air pollution to worsen.

Atmospheric environmental standards for dust in Korea operate TSP as an environmental reference material at the beginning of implementation. Since 1995, PM10 has been added and operated together with TSP. Since 2001, only PM10 has been applied.

However, since the 2000s, SO ₂ , CO, etc. of air pollutants have been decreasing for many years, and air pollutants related to automobiles such as PM10 and NO ₂ have increased or are still high.

Fine dust is closely related to bodily pollution (correction, etc.) in metropolitan areas. Especially, heavy metals and harmful substances contained in fine dust have been reported to directly affect human health. The air quality standards for PM2.5 are set in consideration of the harmful effects.

In Korea, where the concentration level of fine dust is higher than other countries, the necessity of air quality management considering human risk is required, so the Ministry of Environment is responsible for the air quality standards for PM2.5 (24 hours 50㎍ / Sm ³ , 25㎍ annually). / Sm ³ ) was amended / promulgated to enact the Framework Act on Environmental Policy.

Dust from various industrial processes is generally removed from the dust collector and is carried out by dry or wet dust collection, depending on the conditions of the incoming gas.

Dry dust collection method is the most widely used dust collection method because the initial investment cost is relatively high, but the maintenance is easy and the capacity is easy to enlarge.

In particular, there is a high social concern about the adverse effects on the health of ultrafine dust (PM2.5 dust) having a particle size of 2.5 μm or less, and as a variety of high-efficiency filter cloths are sold, interest in filtration methods has increased.

In the conventional dust collector, dust-containing gas is supplied into the dust collector and most of the dust is filtered out of the cylinder-type bag filter, and only a small amount of dust and gas passes through and finally discharged to the outside.

In this process, there is a problem that the differential pressure is increased and the dust collection performance is deteriorated while the ultrafine dust is accumulated and accumulated in the bag filter.

In addition, in the case of ultra-fine dust is filtered and filtered inside the dust collector further has a problem of blowing out at the time of discharge and the problem of deterioration of dust collection efficiency by reattaching to the bag filter.

Therefore, there is a need for a study on the ultra-fine dust collector for solving the above problems.

Air pollution prevention facilities mean systems that are connected by hoods, ducts, air purifiers, blowers and chimneys. The purpose of the air pollution prevention facility is to collect air pollutants generated in the process, purify them from the air purifier below the emission limit and discharge them to the atmosphere.

As shown in Fig. 1, the chimney's role is that it should be able to be discharged from the ground as far as possible because it contains some contaminants that remain unremoved even if the concentration of the exhaust gas is within the acceptable standard. Elevated emissions should prevent contaminants from falling to the ground and re-entering the plant.

However, increasing the height of the chimney or exhaust gas indefinitely is not an appropriate alternative from an economic or safety standpoint.

A good chimney should be designed to significantly reduce the amount of inflow into the chimney for rainfall or snowfall, regardless of whether the ventilation system is in operation, and a down-wash phenomenon is required to prevent the discharge of contaminated air back into the workplace. It should be able to be exhausted high enough so as not to be generated, and the structure should be simple and easy to manufacture and the manufacturing cost should be low.

In general, the method of removing and purifying foreign matter contained in the air is largely a dry method and a wet method, or a method of mixing dry and wet.

In the above, a representative example of the dry method is a method using a filter.

However, in the case of the filter method, the fine particulate dust cannot be completely collected and purified, and when a gas containing dust is attracted, it accumulates on the filter surface, and the dust collection efficiency is drastically lowered due to the clogging of the filter, Sometimes.

Accordingly, there is a problem of maintenance due to regular replacement, and the secondary environmental pollutants are generated due to the discarded filter nonwoven fabric, thereby becoming a major cause of global environmental pollution.

In addition, there are other gas purification apparatuses including photocatalyst, electrostatic precipitating, and plasma, but the gas purification efficiency is low, and negative ion generating gas purification apparatus is known to have side effects of ozone generation which is harmful to human health. have.

The dry-type centrifugal type gas purifier has a gas purification efficiency of 90 to 95% in theory, but it is impossible to collect and purify the fine particulate dust, pollen, tobacco smoke, and harmful gas having 5 μm or less, which is harmful to human health. In addition, the main purpose is the industrial gas cleaning device that simply centrifugally removes the dust in the gas.

On the other hand, the wet method is a method of purifying the gas by the viscous adhesion of water by attracting the gas flow in the gas purifier and the two-dimensional water film surface contact.

However, only the contaminants in the gas in contact with the surface area of the water film are purified by the viscous adhesion of water, and most of the contaminants that do not contact the water surface area are not purified, and gases containing excessive moisture are discharged. There was a problem of corroding precision equipment.

However, in terms of gas dynamics, conventional wet gas purifiers are capable of purifying fine dust smaller than 0.1 μm and their gas purification efficiencies are relatively higher than those of other types of gas purifiers, but are limited to less than 85% in theory. There was a problem of being unsanitary and pathologically sterilizing the washing water to become a breeding ground for pathogens.

Korean Patent Registration No. 0878009 Korean Patent Publication No. 2011-0012627 Korean Patent Publication No. 1986-0005196 Korean Patent No. 1601246

The present invention has been made to solve the above problems, by directly collecting the fine dust generated in the thermal power plant, using a liquid having a structure that can be discharged to clean water by collecting it to the sea water available from the surroundings An object of the present invention is to provide an ultrafine dust collector.

The present invention to solve the above problems the main body is installed on one or more of the chimney top, middle, or bottom of the industrial equipment; A fine dust suction port connected to the main body and the chimney through the chimney, and a discharge port discharged to the chimney; A plurality of propellers whose rotation shafts are fixed in a vertical direction at a predetermined position on the side wall of the main body to rotate; A power supply device provided with a power-off device externally and providing power to the propeller; A motor for generating a rotational force of the propeller by receiving electric power from the power supply device; A sediment discharge liquid container filled with a predetermined level to reach liquid within a rotation radius of the propeller and separately assembled with the main body; A seawater inflow device for supplying seawater as a liquid to the precipitate discharge liquid container; And a controller including a power control function for managing power consumption of the motor and a power supply device, an overflow control function for preventing overflow of the deposit discharge liquid container, and a control function for adjusting an inflow amount of the seawater inflow device.

When cleaning the ultra-fine dust collector using the plurality of liquids, the power-off device connected to the ultra-fine dust collector using the liquid to be cleaned is turned off, and the sediment discharge liquid container is removed to remove the precipitate.

The handle is provided with a separating button for separating the sediment draining liquid container from the ejecting button for taking out of the main body.

The main body is attached in the fan-like shape in the direction surrounding the outer periphery of the chimney.

The propeller hub is rotatably coupled to the inside of the body; A rotating shaft for transmitting rotational power to the hub; And a plurality of blades provided along a circumference of the hub.

The propeller includes a plurality of propellers including a front propeller and a rear propeller rotating in opposite directions about the same rotation shaft.

Leak measurement sensor on the outer side of the main body; The harvest module for generating power by the vibration generated from the chimney and storing in the charging means; further includes.

The present invention made as described above can terminate civil complaints around the thermal power plant through an optimized configuration to collect the ultra-fine dust generated in the thermal power plant through contact with a liquid such as sea water.

In addition, the present invention can be continuously collected at low cost by using the sea water can be easily obtained from the surrounding.

In addition, the present invention can move the propeller to the upper side when removing the dust collector is a safe dust collection operation.

In addition, the present invention can be taken out only the liquid container required separately without having to remove the entire dust collector, each can be cleaned.

In another aspect, the present invention has the effect of allowing the replacement and management of the dust collector conveniently through a warning function to the removable container and the external smartphone.

In addition, the present invention is equipped with its own power generation device is capable of reliable dust collection operation even in unpredictable situations.

1 is a view showing the chimney shape of the industry according to the conventional invention.
2 is a view showing a state in which the ultra-fine dust collector using a liquid according to an embodiment of the present invention attached to the lower side of the chimney.
3 is a view showing a state in which the ultra-fine dust collector using a liquid according to an embodiment of the present invention attached to the chimney upper side.
4 is a view showing that the inlet and outlet in the same side according to an embodiment of the present invention.
5 is a view illustrating the dust collecting process and the direction of the wind of FIG.
6 is a view showing that the outlet is in the upper side according to another embodiment of the present invention.
FIG. 7 is a view illustrating the dust collecting process and wind direction of FIG. 6.
8 is a view showing the detailed configuration of the ultra-fine dust collector using a liquid according to an embodiment of the present invention.
9 is a view showing a configuration that is additionally attached to the ultra-fine dust collector using a liquid according to an embodiment of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below.

In other words, the present invention can be applied to the chimney of the thermal power plant, but it should be noted that it can be applied to all small to large chimneys used throughout the industry.

This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

As shown in Figure 2 to 4 the present invention is the main body 5, fine dust inlet 10, outlet 12, propeller 30, power supply device 25, seawater inlet device 15, sediment discharge It consists of the liquid container 20, the control part 26, etc.

The main body 5 is installed in a plurality of at least one of the upper, middle, or bottom of the chimney (C) of an industrial facility (for example, thermal power plant), the fine dust inlet 10 and connected to the chimney (C) and discharge it Outlets 12, 40.

The plurality of main bodies 5 are manufactured in a fan shape so as to surround the chimney C of an industrial facility, surround the chimney in a fan shape, and have a plurality of propellers 30, a power supply device 25, which will be described later. A precipitate discharge liquid container 20, a control unit 26, and the like.

As shown in FIGS. 4 and 5, the fine dust inlet 10 is connected through the main body 5 and the chimney C, and sucks the fine dust from the chimney C. As shown in FIG.

The discharge port 12 discharges the fine dust after being collected through the precipitate discharge liquid container 20 in the chimney direction.

In addition, as an embodiment of the present invention, as shown in Figure 4, the module installed in the motor inside the moving member 55 of the rectangular box shape coupled to the plurality of propellers 30 is moved to the upper side when cleaning the precipitate discharge liquid Desorption of the vessel 20 may be assisted, and after coupling may be moved downward to facilitate contact between the propeller 30 and the liquid inside the sediment discharge liquid vessel 20.

The movable member 55 is a shaft of the motor and the shaft of the propeller 30 is connected and supported, and is a waterproof box for blocking the inflow of water to the motor.

In Figure 3 it can be seen that the main body 5 is installed on the upper side of the chimney (C) of the industrial equipment, the shape of the chimney vertical discharge port 40 as shown in FIG. Ultrafine dust collector using a liquid formed by the) can be used.

This is because the vertical discharge port exerts a favorable effect in rapidly changing the concentration of the surrounding fine dust according to the shape and direction of the smoke of the chimney.

In particular, as shown in Figure 7, the upper motor in the vertical discharge port 40 direction, the lower motor in the fine dust intake (10) direction by the distance between the axis (A) fine dust suction effect and vertical discharge effect is Increases.

The plurality of propellers 30 are fixed to the vertical direction at a predetermined position inside the body 5 to rotate, the propeller 30 is a hub that is rotatably coupled to the inside of the body, the rotational power to the hub It includes a rotating shaft for transmitting and a plurality of blades provided along the circumference of the hub.

Alternatively, the present invention may have a double propeller having a pair of propellers rotating in one hub and rotating the front propeller and the rear propeller in opposite directions.

The power supply device 25 is a device for providing power to a motor that is provided with a power OFF device externally and provides a rotational force to the propeller.

In one embodiment, when cleaning the ultra-fine dust collector using the plurality of liquids, the power off device connected to the ultra-fine dust collector using a cleaning target liquid is turned off, and the cleaning target precipitate discharge liquid container is removed to the outside to precipitate Pull out.

That is, by pressing the eject button 20-8 on the upper side of the handle 20-5 of the ultrafine dust collector using the liquid to be cleaned, the outer container 20-1 is taken out and the release button 20-9 is removed. Press to separate.

The sediment discharge liquid container 20 is filled to a certain level so that the liquid touches within the radius of rotation of the propeller 30, and is detachably assembled with the main body 5.

Therefore, foam is generated by the rotation of the propeller 30 to collect ultra-fine dust, and when the deposit is accumulated for a long time in the deposit discharge liquid container 20, the container is taken out through the handle 20-5 and then emptied. I can make it.

Specifically, as shown in FIG. 8, the overall shape of the precipitate discharge liquid container 20 has a fan shape, and thus a plurality of continuously connected to the lower side of the chimney C may be coupled along the outer circumference.

In addition, the sediment discharge liquid container 20 is composed of an outer container 20-1 forming an outer shape, and an inner container 20-2 and a handle 20-5 in which a precipitate is precipitated therein.

When the sediment discharge liquid container 20 is taken out of the main body 5, there is an eject button 20-8 at the upper side of the handle 20-5, so that it can be easily taken out.

That is, a spring is installed under the eject button 20-8, and a horizontal “-” shaped clasp connected to the eject button 20-8 is caught in the inner surface deflection portion of the sediment discharge liquid container 20, and then the eject button 20- 8) The latch is removed and can be taken out.

In addition, the handle 20-5 is coupled to the inner container 20-2 through the coupling portion 20-4, and pressing the release button 20-9 "U" shaped of the outer container 20-1 "U" shaped spring (formed to wrap in the lower side of the handle; 20-6) is tightened to be in close contact with the recessed portion in the same shape (20-7) as shown, and the inner container (20-2) can be taken out upward. The sediment can be conveniently collected and collected outside.

In addition, the rear inlet of the sediment discharge liquid container 20 is further formed with inlets (I, H) flowing from the sea water inlet device 15, if the sediment is pulled out by shaking when taken out through the handle (20-5) It is desirable to be formed in the upper back side higher than the sediment level.

The seawater inflow device 15 is a device for supplying seawater to the sediment discharge liquid container 20, and can be introduced to a predetermined point by attaching a motor to the seawater inflow pipe generally used. Detailed description will be omitted.

The control unit 26 is a power control function for managing the power consumption of the motor (not shown) and the power supply device 25 (eg, alarm when the power consumption is above a certain value), to prevent the overflow of the precipitate discharge liquid container Overflow control function (for example, to adjust the inflow of the seawater for alarming the overflow or alarm), and a control function for adjusting the inflow of the seawater inflow device.

In addition, the present invention can be supplied as a general fluid (for example, water) by removing the seawater inlet device 15 for supplying seawater as a liquid to the precipitate discharge liquid container 20, the main body 5, the fine dust inlet 10 ), Outlet 12, propeller 30, power supply device 25, sediment discharge liquid container 20, and control unit 26 and the like.

As the liquid, commercially available fine dust absorbing liquid having general water or fine dust reduction or decomposition effect can be used.

Meanwhile, as another embodiment of the present invention, various sensors may be attached to the outside or the inside of the main body.

The sensor may include a water leak sensor 51, a dust sensor 53, a gas sensor 54, and the like.

First, the measurement point position of the dust sensor 53 for measuring the dust is preferably installed in the chimney inner surface representing the air flow rate according to the regulations specified in the air pollution process test method measurement point when taking a sample from a certain point in the chimney.

In addition, in the case of the gas sensor 54, a measurement probe for measuring harmful gas through a predetermined path may be installed to measure harmful gas in an area at least 1 m away from the inner wall of the chimney or in a region within a 50% range of the chimney cross section from the chimney center. Or, for precise measurement, it should be installed in the area where harmful gas can be measured in the center area (the range of less than 1% of the cross-sectional area from the chimney center).

Alternatively, when the gas sensor 54 collects harmful gaseous substances (SO ₂ , NOx, O _3, etc.) at a predetermined point, the end of the measuring tube of the gas sensor 54 has a chimney wall surface when the chimney inner diameter is 2 m or more. It is to be installed at a point 1m or more away from, and when it is 2m or less, it should be installed in the center area (the range of 1% or less of cross-sectional area from the chimney center).

In addition, the present invention may be installed in the chimney to install the ozone generator in the vicinity of the dust or gas sensor 54 may purify the smell of all the air discharged to the outside.

In addition, the leak sensor 51 may be installed on the outer side of the sediment discharge liquid container 20, and leak information to the central information processing server to detect the liquid mixed with the sediment to the outside to alert the administrator smartphone, etc. Can transmit

In addition, the present invention can further add the harvest module 52 to the sediment discharge liquid container 20, the control unit 26 to collect all the vibration energy of the chimney discarded to the outside to be stored in the power storage device, and transmitted to the motor, if necessary Can be controlled by

Hereinafter, the method using the ultra-fine dust collector using the liquid for the practice of the present invention will be described in detail.

First, the precipitate is removed and the precipitate is discharged liquid container 20 is coupled to the lower side of the main body (5). At this time, the inlet (I) in which the seawater is introduced from the seawater inlet device 15 and the inlet hole located in the upper portion of the sediment discharge liquid container 20 is carefully inserted so as to fit inside the sediment discharge liquid container 20. .

Then, the seawater inlet device 15 is operated to fill the seawater into the precipitate discharge liquid container 20.

In this case, a filter may be installed inside the sea water inlet device 15 or in the inlet port I of the sediment discharge liquid container 20 to prevent inflow of foreign substances.

Then, the propeller 30, which has been fixed to the upper side, is moved downward so that at least two or more propellers 30 are locked in the sea water or only half of the propeller 30.

After that, when the power supply device 25 is turned on and the motor is driven to rotate the propeller 30 that has been in contact with the seawater, a strong foam is generated in an upward direction, and fine dust sucked from the fine dust inlet 10 is purified. Purified clean air is discharged to the outlet and delivered to the chimney.

In addition, as an embodiment of the present invention, the sensor information may be transmitted to the smartphone through a leak sensor 51, a dust sensor 53, a gas sensor 54, etc. installed in the deposit discharge liquid container 20.

The sensor information can be transmitted to a central information processing server that can be installed further and precisely managed by an expert.

In addition, the present invention is equipped with a harvest module 52 that can produce its own power, even if the external power supply is interrupted by operating the motor with the power accumulated in the harvest module 52 can continuously suck ultra fine dust power Reliable operation is possible even when supply prediction is not possible.

5: body
10: fine dust intake
12 outlet
15: seawater inlet device
20: sediment discharge liquid container
20-1: outer container
20-2: inner container
20-4: Coupling Part
20-5: Handle
20-6: "U" shaped spring
20-7: "U" shape
20-8: Eject Button
20-9: release button
25: power unit
26: control unit
30: propeller
51: leak sensor
52: Harvest Module
53: dust sensor
54 gas sensor
55: moving member
C: chimney
I, H: inlet

Claims (7)

A main body installed at one or more of the chimney top, middle, or bottom of an industrial facility;
A fine dust suction port connected to the main body and the chimney through the chimney, and a discharge port discharged to the chimney;
A plurality of propellers whose rotation shafts are fixed in a vertical direction at a predetermined position on the side wall of the main body to rotate;
A power supply device provided with a power-off device externally and providing power to the propeller;
A motor for generating a rotational force of the propeller by receiving electric power from the power supply device;
A sediment discharge liquid container filled with a predetermined level to reach liquid within a rotation radius of the propeller and separately assembled with the main body;
A seawater inflow device for supplying seawater as a liquid to the precipitate discharge liquid container;
And a controller including a power control function for managing power consumption of the motor and a power supply device, an overflow control function for preventing overflow of the deposit discharge liquid container, and a control function for adjusting an inflow amount of the seawater inflow device.
The sediment discharge liquid container is composed of an outer container forming an external shape and an inner container in which sediment is precipitated therein, to turn off the power-off device during cleaning, and to remove the sediment discharge liquid container to the outside to remove the sediment, Press the eject button to separate the sediment discharge liquid container from the main body, and press the separation button to remove the inner container from the outer container of the sediment discharge liquid container upwards. Device. delete delete The method of claim 1,
The main body is a fan-shaped ultra-fine dust collector using a liquid, characterized in that attached to a plurality in the direction surrounding the outer periphery of the chimney. The method of claim 1,
The propeller hub is rotatably coupled to the inside of the body;
A rotating shaft for transmitting rotational power to the hub; And
Ultra-fine dust collector using a liquid comprising a; a plurality of blades provided along the circumference of the hub. The method of claim 1,
The propeller is ultra-fine dust collecting device using a liquid, characterized in that it comprises a plurality of propellers consisting of a front propeller and a rear propeller rotating in opposite directions about the same rotation shaft. The method of claim 1,
Leak measurement sensor on the outer side of the main body;
Ultra-fine dust collector using a liquid further comprising; harvesting module for generating power by the vibration generated in the chimney and storing in the charging means.

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