KR100936657B1 - Fire-prevention of fusion nonferrous metals and efficiency maintenance with air clean system - Google Patents

Abstract

PURPOSE: An air cleaning system with fire-prevention of fusion nonferrous metals and dust collection function is provided to remove fat element within oil vapor contained in emissions by purifying emission and embers occurred during a melting process of non-ferrous metal. CONSTITUTION: An air cleaning system with fire-prevention of fusion nonferrous metals and dust collection function comprise a calcium hydroxide loading apparatus(10), an air cooling type heat exchanger(20), a centrifugal dust collector(30), and an intermittent filter dust collector(40). The calcium hydroxide loading apparatus removes fat element inside oil vapor contained emissions and firstly removes embers by spraying calcium hydroxide. The air cooling type heat exchanger eliminates embers secondarily. The big dust is eliminated with emissions rotating by centrifugal power inside the centrifugal dust collector. The intermittent filter dust collector eliminates fine dust.

Description

Air-prevention of fusion nonferrous metals and efficiency maintenance with air clean system

The present invention relates to an air purifying device for ember removal and dust collection function of the non-ferrous metal melting process, more specifically, the exhaust gas and embers generated from the non-ferrous metal melting process, lime-feeding device, air-cooled heat exchanger, centrifugal force dust collector, intermittent By purifying while passing through the type dust collector, the oil component of the oil vapor contained in the exhaust gas is removed to increase the efficiency of the filtration filter, and the size of the exhaust gas is enlarged to easily filter out the dust by the centrifugal force and the filtration filter. The present invention relates to an air purifier for removing embers and collecting dust from the primary and secondary stages to prevent fire, and thus, easy to maintain and reduce maintenance costs. .

In order to produce products in steel mills, iron raw materials are sometimes melted, but recycling is more common. The recovered waste (scrap metal, wire, etc.) is melted to produce steel or non-ferrous products. In the melting (reflecting furnace, melting furnace, etc.) process of melting such wastes, a large amount of embers and exhaust gases (embers attached to impurities, black smoke (soot, vapor, etc.)) are generated.

There are legal regulations to install an air pollution prevention facility because it pollutes the exhaust air atmosphere.

Air pollution prevention facilities are most frequently used because they are most efficient and inexpensive using a filtration filter (filtration filter = bag filter method).

However, due to the embers, a fire is continuously generated, and in the process of melting the waste, oil is generated due to oil, PVC, etc., attached to the waste, which is attached to the filtration filter, thereby reducing the efficiency of the filter and shortening the lifespan. Due to the shortening of the life of the fire and the filter, problems such as difficulty in maintenance and replacement of the filter increase the maintenance cost.

The present invention has been made to solve the above problems,

Exhaust gases and embers from the melting process of non-ferrous metals are purified by passing through a lime-lime input device, an air-cooled heat exchanger, a centrifugal force dust collector, and an intermittent filter dust collector, thereby removing oil components of oil vapor contained in the exhaust gas. The efficiency is increased, and the size of the exhaust gas is expanded to easily filter out the dust by centrifugal force and filtration filter, and to remove the embers in the first and second stages to prevent fire, thus maintaining It is an object of the present invention to provide an air purifying device for ember removal and dust collection in a non-ferrous metal melting process, which is easy and maintenance costs are reduced.

In order to achieve the above object, the present invention in the ember removal and exhaust gas purification system generated through the non-ferrous metal melting process,

A calcite injector for introducing the embers and the exhaust gas to spray the hydrated lime powder to remove oil components of the oil vapor contained in the exhaust gas, and at the same time to remove the emberes primarily because the hydrated lime powder does not catch fire;

The ember and the hot exhaust gas transferred from the slaked lime injector are introduced into the inside of the slaked lime injector, and the temperature is lowered while the ember and the hot exhaust gas are transferred to one side, thereby removing the embers secondly. tile;

A centrifugal force dust collecting device connected to the air-cooled heat exchanger to introduce the exhaust gas transferred from the air-cooled heat exchanger into the inside, and the exhaust gas is rotated by the centrifugal force therein to remove large dust;

It is connected to the centrifugal force dust collector, the exhaust gas transferred from the centrifugal force dust collector is introduced into the inside, intermittent filter dust collecting device for removing the fine dust while passing through the filtration filter installed therein; The present invention relates to an air purifying device for ember removal and dust collection in a nonferrous metal melting process.

As described above, the air purifying device for the ember removal and dust collection function of the non-ferrous metal melting process of the present invention is a calcination injection device, air-cooled heat exchanger, centrifugal force dust collector, intermittent type By purifying while passing through the dust collector, the oil component of the oil vapor contained in the exhaust gas is removed to increase the efficiency of the filtration filter, and the size of the exhaust gas is enlarged to easily filter out the dust by the centrifugal force and the filtration filter. In addition, the fire can be prevented by removing the embers in the first and second stages, thereby making it easy to maintain and reduce maintenance costs.

The present invention has the following features to achieve the above object.

The present invention in the ember removal and exhaust gas purification system generated through the non-ferrous metal melting process,

A calcite injector for introducing the embers and the exhaust gas to spray the hydrated lime powder to remove oil components of the oil vapor contained in the exhaust gas, and at the same time to remove the emberes primarily because the hydrated lime powder does not catch fire;

The ember and the hot exhaust gas transferred from the slaked lime injector are introduced into the inside of the slaked lime injector, and the temperature is lowered while the ember and the hot exhaust gas are transferred to one side, thereby removing the embers secondly. tile;

A centrifugal force dust collecting device connected to the air-cooled heat exchanger to introduce the exhaust gas transferred from the air-cooled heat exchanger into the inside, and the exhaust gas is rotated by the centrifugal force therein to remove large dust;

It is connected to the centrifugal force dust collector, the exhaust gas transferred from the centrifugal force dust collector is introduced therein, intermittent filter dust collecting device for removing the fine dust while passing through the filter installed therein; .

The present invention having such a feature will be more clearly described through the preferred embodiment accordingly.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a schematic view showing an air purification system according to an embodiment of the present invention, Figure 2 is a front view showing a slaked lime input device according to an embodiment of the present invention, Figure 3 is a slaked lime according to an embodiment of the present invention Side view showing an input device.

As shown in Figure 1, the air purifying device for the ember removal and dust collection function of the non-ferrous metal melting process of the present invention is a slaked lime input device 10 and an air-cooled heat exchanger to purify the embers and exhaust gas generated through the non-ferrous metal melting process 20, the centrifugal force dust collecting device 30, and the intermittent filter dust collecting device 40 are included.

2 and 3, when the slaked lime input device 10 is used in the existing air pollution prevention facility, the fuel [heavy oil (BC oil), coal] used in power generation facilities (incineration plants, boilers, etc.) Smelly lime is used in the desulfurization process to remove SOx (sulfur compound), an air pollutant generated during combustion. Also in this case, the injector 15 is installed in the dry slaked lime input device 10 to apply the present method only in the dry desulfurization process to spray the slaked lime into powder. In the wet desulfurization process, desulfurization is performed using slaked lime sludge. As such, when the slaked lime injector 10 is used, in order to remove SOx (sulfur compound), which is an air pollutant generated in a combustion process (or an exothermic process) that generates a heat source by burning fuel in an industry requiring a high temperature heat source. It may be used.

Here, the slaked lime injector 10 is used for a melting process rather than a combustion process (heating process), in which embers and exhaust gas are introduced into the slaked lime powder to remove oil components of oil vapor contained in the exhaust gas. At the same time, since the slaked lime powder does not catch fire, it is a device for removing embers first.

At this time, the slaked lime injector 10 is a storage container 11 is formed as a light supply strait toward the lower end so that the embers and exhaust gas generated in the dissolution process flows through the upper surface and is temporarily stored and transferred to the lower end. And a feeder 12 installed at the lower end of the storage container 11 to transfer embers and exhaust gas stored in the storage container 11 to one side and simultaneously crush foreign matter in the exhaust gas, and the raw material supply device. It is configured to include an injector device (ejector, 15) connected to the lower end of the (12) to inject the hydrated lime powder into the embers and exhaust gas transferred through the raw material supply device 12 by the blower (16).

Here, the raw material supply device 12 is provided with a crusher 13 connected to the motor in the passage in which the embers and exhaust gas are transported, while transferring the embers and exhaust gas to one side by the rotation of the crusher 13. At the same time, it is to crush the foreign matter that has been introduced.

In addition, the end of the flow path in which the crusher 13 is installed is further provided with a transport flow path 14 which crosses each other perpendicularly, and the injector device 15 is connected to the lower end of the transport flow path 14. At this time, the injector device 15 is installed horizontally at the lower end of the transport passage (14).

In addition, the injector device 15 sprays the oil vapor contained in the exhaust gas into hydrated lime powder to be adsorbed to the oil vapor to remove oil components, thereby increasing the dust size of the oil vapor. In this final off-line bag filter 40, the oil is not adsorbed onto the fabric of the filtration filter (not shown), and at the same time, the airtightness of the filter fabric can be continuously maintained, thereby improving the life of the filter fabric. As the calcination cycle increases, the dust cannot pass through the filter cloth, leaving only clean air. In addition, when the dust is dusted (the process of shaking off the dust attached to the air filter cloth by installing an air nozzle on the top of the filter cloth), the dust is well detached from the filter cloth to improve the function of the filter cloth. That is, it facilitates filtration and dust removal, increases the efficiency of the filter, and prolongs its life.

And, by using the hydrated lime powder of the injector device 15, the embers are first removed. Since the hydrated lime does not catch fire, the powder is sprayed onto the embers to remove the embers (produces an effect such as a powder fire extinguisher). .

4 is a front view showing an air-cooled heat exchanger according to an embodiment of the present invention, Figure 5 is a side view showing an air-cooled heat exchanger according to an embodiment of the present invention.

As shown in Figure 4 and 5, the air-cooled heat exchanger (coolng tower) is connected by the calcite injector 10 and the duct or pipe, the ember and the high temperature exhaust gas transferred from the slaked lime injector 10 Is introduced into the inside, while the ember and the hot exhaust gas introduced into the inside is transferred to one side, the temperature is reduced by heat exchange with the outside temperature, to remove the ember secondary.

In this case, the air-cooled heat exchanger 20 has a body 21 having inlets 22 and outlets 23 formed at one end thereof so that the embers and the high-temperature exhaust gas transferred through the slaked lime injector 10 are inflow / outflow. And a transfer duct 24 which is formed to protrude upwardly of the body 21 so that the embers introduced into the body and the high-temperature exhaust gas are transferred to one side and the temperature drops, and the embers are secondarily removed. .

At this time, the transfer duct 24 is formed by connecting the inlet 22 and the outlet 23 of the body 21 in the interior of the body 21, thereby generating a large amount of embers and high temperature exhaust gas The upper portion of the transfer duct 24 is purified to be pointed at an angle so that when the ember and exhaust gas pass, the temperature is dropped and the ember is turned off and removed.

Figure 6 is a front view showing a centrifugal force dust collecting apparatus according to an embodiment of the present invention.

As shown in FIG. 6, the centrifugal force cyclone is connected to the air-cooled heat exchanger 20 by a duct or a pipe, and exhaust gas transferred from the air-cooled heat exchanger 20 is introduced therein, and the exhaust Gas is rotated by the centrifugal force inside to remove the large dust, the centrifugal force dust collecting device 30 is the exhaust gas is introduced from the side is rotated inside the body by the centrifugal force inside, the rotation within the exhaust gas Large dust is separated down from the exhaust gas, the remaining exhaust gas is discharged through the upper side of the centrifugal force dust collecting device 30 is transferred to the intermittent filter dust collecting device 40.

At this time, the centrifugal force dust collecting device 30 is formed in plural as shown in the figure, each branch is exhaust gas flows in, the exhaust gas is removed intermittent filter through one integrated duct after removing the large dust inside Transferred to device 40.

Here, the centrifugal force dust collector 30 is generally similar to the dust collector which is widely used, and the rest of the configuration, structure, and function is not a separate technology any more, it is possible to use a variety of centrifugal force dust collector according to the design.

7 is a front view showing the intermittent filter bag according to an embodiment of the present invention.

As shown in FIG. 7, the off-line bag filter is connected to the centrifugal force precipitator 30 by a duct or a pipe, and exhaust gas transferred from the centrifugal force precipitator 30 is internal. Is introduced into, but the device to remove the fine dust while passing through the filtration filter (not shown) installed therein, the exhaust gas is introduced into the interior from the lower side of the side and discharged to the upper side, wherein, between the inlet and outlet A filtration filter is installed to filter and finely clean the fine dust remaining in the exhaust gas, thereby converting the exhaust gas into harmless air.

Here, the intermittent filter bag 40 is provided with a large blowing fan 41 connected to the main body and the duct to transfer the purified exhaust gas to one side, and is connected to one side of the blowing fan 41. A chimney device (stack 42) for delivering the exhaust gas conveyed by the blowing fan 41 to the air is further provided.

In addition, the intermittent filter dust collecting device 40 is similar to the filter dust collecting device which is widely used in general, it is possible to use a variety of intermittent filter dust collecting device according to the design.

1 is a schematic view showing an air purification system according to an embodiment of the present invention,

2 is a front view showing a slaked lime input device according to an embodiment of the present invention,

Figure 3 is a side view showing a slaked lime injector according to an embodiment of the present invention,

Figure 4 is a front view showing an air-cooled heat exchanger according to an embodiment of the present invention,

Figure 5 is a side view showing an air-cooled heat exchanger according to an embodiment of the present invention,

6 is a front view showing a centrifugal force dust collecting device according to an embodiment of the present invention,

7 is a front view showing the intermittent filter bag according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: slaked lime input device 11: storage bin

12: raw material supply device 13: crusher

14: transfer path 15: injector device

16: blower 20: air-cooled heat exchanger

21 body 22 inlet

23: outlet 24: transfer duct

30: centrifugal dust collector 40: intermittent filter dust collector

41: blower fan 42: chimney device

Claims (4)

In the ember removal and exhaust gas purification system generated through the non-ferrous metal melting process, The ignition and the exhaust gas flows into the interior of the hydrated lime powder to remove the oil component of the oil vapor contained in the exhaust gas, and at the same time the hydrated lime powder does not ignite, because the hydrated lime injection device 10 Wow; Connected with the slaked lime injector 10, the embers and the high temperature exhaust gas transferred from the slaked lime injector 10 are introduced into the inside, and the embers and the high temperature exhaust gas are transferred to one side, and the temperature falls, An air-cooled heat exchanger 20 for removing secondary; The centrifugal force precipitator 30 is connected to the air-cooled heat exchanger 20 so that the exhaust gas transferred from the air-cooled heat exchanger 20 is introduced therein, and the exhaust gas is rotated by centrifugal force therein to remove large dust. Wow; An intermittent filter dust collector (40) connected to the centrifugal force dust collector (30) to remove the fine dust while the exhaust gas transferred from the centrifugal force dust collector (30) is introduced into the inside and passes through a filtration filter installed therein; It is configured to include, The air-cooled heat exchanger 20 is transferred through the lime-lime injector 10 so that the temperature of the embers and the high-temperature exhaust gas introduced into the interior drops to one side, and the transfer duct 24 is upwardly removed so that the embers are secondarily removed. It is formed in the direction protruding, the transfer duct 24 is connected to the inlet and outlet of the air-cooled heat exchanger 20 is formed in plurality, the upper side of the transfer duct 24 is formed to be sharply angled ember and exhaust Air purification device for the ember removal and dust collection function of the non-ferrous metal melting process, characterized in that the temperature falls and the embers are removed by hitting the inner surface of the upper portion during the transfer of gas. According to claim 1, The slaked lime injector 10, A storage bin 11 for temporarily storing the embers and the exhaust gas through the upper surface; A raw material supply device (12) installed at the lower end of the storage container (11) for transferring embers and exhaust gas stored in the storage container (11) to one side and simultaneously crushing foreign substances in the exhaust gas; An injector device 15 connected to the lower end of the raw material supply device 12 to inject hydrated lime powder into the embers and exhaust gas transferred through the raw material supply device 12 by the blower 16; Air purification device for the ember removal and dust collection function of the non-ferrous metal melting process, characterized in that comprising a. The method of claim 1, The intermittent filter dust collecting device 40 is provided with a blowing fan 41 connected to the main body and the duct to transfer the purified exhaust gas to one side, and is connected to one side of the blowing fan 41 to blow the fan ( 41) A chimney device (42) for delivering the exhaust gas transported by the air over the air purifier for the ember removal and dust collection function of the non-ferrous metal melting process characterized in that it is further installed. delete

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