KR101299913B1 - Separating and gathering system of mercury gas stream and hazardous dust of waste fluorescent lamp - Google Patents

Abstract

PURPOSE: A harmful dust and mercury vapor separation and collection system is provided to remarkably reduce mercury vapor separation and collection time by successively executing a separation process and a discharging process. CONSTITUTION: An input unit (100) receives harmful dust (10) including the minute mercury of a waste fluorescent light. A heat evaporation unit (200) evaporates the mercury by heating the harmful dust supplied through the input unit. Harmful dust (12) in which the mercury is eliminated is extracted through an extraction outlet of a filter by using a separation extraction filter of a mercury vapor separation member (310). The harmful dust which is blocked by the separation extraction filter of the mercury vapor separation member is collected by a harmful dust collecting member (320) in a separation extraction unit (300). Mercury vapor is discharged through a mercury vapor discharging pipe (318) extended outside the mercury vapor separation member of the separation extraction unit. Liquefied mercury (20) passes through a liquefaction pipe (410) and is rapidly cooled by a refrigerant circulation coil (414). A liquefied mercury collecting unit (400) collects the liquefied mercury through a collecting pipe (420) extended to a lower direction.

Description

SEPARATING AND GATHERING SYSTEM OF MERCURY GAS STREAM AND HAZARDOUS DUST OF WASTE FLUORESCENT LAMP}

The present invention relates to a system for separating and collecting hazardous dust and mercury vapor from waste fluorescent lamps, and more specifically, to evaporate mercury by heating particulate harmful mercury 10 containing fine mercury through a heat evaporation unit 200. In addition, only mercury vapor is separated and extracted through the mercury vapor separation member 310 of the separation extraction unit 300, and mercury removal hazardous dust of the separation extraction unit 300 is removed through the collecting member 320. ) Is separately collected and discharged, and the mercury vapor is liquefied to the liquid mercury 20 through the liquefaction pipe 410 wound around the refrigerant circulation coil 414 through which the rapid cooling refrigerant of the liquid mercury collection unit 400 is circulated. The present invention relates to a system for separating and collecting harmful dust and mercury vapor from waste fluorescent lamps having a collecting and collecting structure.

In general, the end-of-life waste fluorescent lamps are hazardous wastes of life containing harmful substances such as mercury, and cause serious environmental pollution when incinerated or landfilled. Therefore, in order to prevent mercury, which is harmful to humans, from being evaporated and released into the atmosphere, the waste fluorescent lamp glass powder generated in the process of crushing the metal terminal first through the waste fluorescent lamp treatment system and sorting the metal terminal into second finely crushed finely A mercury gas separation and extraction device, such as waste fluorescent lamp, which collects recyclable and mercury contained in particulate hazardous dust is vaporized and collected by mercury gas using a chemical reaction method or the like is provided.

Regarding the mercury gas separation and extraction device of the waste fluorescent lamp as described above, "a waste fluorescent lamp processing apparatus" (Korean Patent Publication No. 10-2010-0088445, published date: August 09, 2010) (hereinafter referred to as "prior art") Was proposed.

The prior art has proposed a gas treatment mechanism constituting the waste fluorescent light treatment device, the technical summary is that the mercury gas introduced into the waste container 50, such as waste fluorescent light crushed matter, the nitric acid (HNO) solution and aqueous solution (retained in the interior of the reaction vessel) The mercury gas reacts with HO), separates them into constituent elements, collects them, and recycles them.

However, the gas treatment mechanism constituting the waste fluorescent lamp treatment apparatus of the prior art has a hassle to continuously replenish the reaction solution in order to recover the mercury gas, the glass powder in the inlet introduced into the reaction vessel in the collection container (50) There was a structural problem that the dust removal filter is not provided with the adsorbed particulate harmful dust adsorbed, and only the mercury gas passes through. Therefore, there is a problem that the particulate harmful dust with the mercury gas flows into the collection 50, the mercury separation extraction and collection efficiency is reduced.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to separate and extract only the mercury vapor through the mercury vapor separation member 310 of the separation extraction unit 300, at the same time of the separation extraction unit 300 The mercury removal hazardous dust collection member 320 separates and discharges the fine mercury removal hazardous dust 12 separately, that is, the separate extraction of the mercury vapor and the separate discharge of the fine mercury removal harmful dust 12 are continuously and simultaneously. By automating the process, it is possible to provide a hazardous dust and mercury vapor separation collection system such as a waste fluorescent lamp having a structure that improves productivity by significantly shortening the mercury vapor separation collection time for recycling.

Still another object of the present invention is to quickly discharge liquid mercury while passing through the liquefaction tube 410 wound around the refrigerant circulation coil 414 through which the rapid cooling refrigerant of the liquid mercury collection unit 400 is circulated. 20) by collecting and recovering the liquid mercury, that is, the liquid mercury 20, which quickly liquefied the mercury vapor in the form of steam water, is collected and recovered together with the liquid water 22, so that the liquid mercury 20 differs in specific gravity. Hazardous dust and mercury vapor is separated from waste fluorescent lamps that are not exposed to the atmosphere because mercury is not exposed to the air in the process of separating and collecting waste mercury such as waste fluorescent lamps. To provide a collection system.

This object of the present invention is a mercury by heating the harmful unit 10, the mercury-containing harmful dust 10 supplied through the input unit 100, the input unit 100, the harmful dust 10 containing particulate mercury such as waste fluorescent lamps Separation extraction filter of the mercury vapor separation member 310 is connected to one side of the heat evaporation unit 200, the mercury vapor suspended by the heat evaporated in the heat evaporation unit 200 to remove the harmful dust 12 is evaporated ( Only mercury vapor is separated and extracted by the filter extraction port 317 while passing through 314, and the mercury removal harmful dust 12, which is adsorbed and blocked by the separation extraction filter 314 of the mercury vapor separation member 310, is harmful to mercury removal. Mercury vapor discharged through the mercury vapor discharge pipe 318 extended to the separation extraction unit 300, the mercury vapor separation member 310 of the separation extraction unit 300, which is separated and discharged to the dust collection member 320, When passing through the liquefied pipe 410 extending downwards Collection recovery through the collection recovery pipe 420 liquefied into the liquid mercury 20 by the rapid cooling by the refrigerant circulation coil 414, the rapid cooling refrigerant installed to surround the liquefied pipe 410 is extended downward The liquid mercury collecting unit 400 is achieved by a hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to the present invention made.

As described above, the hazardous dust and mercury vapor separation and collection system of the waste fluorescent lamp according to the present invention is automated by separating and extracting the mercury vapor and separating and discharging the harmful mercury at the same time continuously, mercury vapor for recycling There is an effect of significantly shortening the separation collection time to improve productivity.

In addition, by mercury vapor liquefied in the form of a mixture of water in the vapor state to collect the liquid mercury with the liquid water, the mercury is not exposed to the atmosphere in the process of separating and collecting the waste mercury, such as waste fluorescence, it is not environmental pollution It does not work.

1 is a perspective view showing a hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention
FIG. 2 is an enlarged perspective view showing a portion 'A' of FIG. 1 enlarged. FIG.
Figure 3 is a longitudinal sectional view schematically showing the cut surface of the mercury vapor separation member of the separation unit of the hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention

Hereinafter, the hazardous dust and mercury vapor separation and collection system of the waste fluorescent lamp according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, there is shown a hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention.

1 is a perspective view showing a hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention, Figure 2 is a partially enlarged perspective view showing an enlarged portion 'A' of Figure 1, Figure 3 Figure 1 is a longitudinal cross-sectional view schematically showing the cut surface of the mercury vapor separation member of the separation unit of the hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention.

Referring to Figures 1 to 3, the hazardous dust and mercury vapor separation and collection system of the waste fluorescent lamp according to an embodiment of the present invention, the glass powder in the process of the waste fluorescent lamp glass pieces are put into a grinder (not shown) and crushed Hazardous dust (10) containing particulate mercury, such as waste fluorescent lamps generated together with the mercury removal harmful dust (12) and liquid mercury (20) to collect and collect, respectively,

The harmful mercury-containing dust 10 supplied through the input unit 100 is heated through the evaporation unit 200 to heat the harmful dust 10 containing fine mercury to evaporate mercury, and the separation extraction unit 300. Only mercury vapor is separated and extracted through the mercury vapor separation member 310, and the mercury removal hazardous dust collection member of the separation and extraction unit 300 is removed through the collecting member 320, harmful dust (12) separately collected and discharged In addition, the mercury vapor is liquefied to the liquid mercury 20 through the liquefaction tube 410 on which the refrigerant circulating coil 414 through which the rapid cooling refrigerant of the liquid mercury collection unit 400 is circulated is collected and recovered.

That is, the hazardous dust and mercury vapor separation collection system of the waste fluorescent lamp according to an embodiment of the present invention, the input unit 100, the input unit 100 is a harmful dust 10 containing the fine mercury of the waste fluorescent lamp Heat evaporation unit 200 for evaporating mercury by heating the mercury-containing harmful dust 10 supplied through), and removing the harmful mercury dust 12 suspended with mercury vapor heated and evaporated in the heat evaporation unit 200. Only the mercury vapor is separated and extracted by the filter extraction port 317 while passing through the separation extraction filter 314 of the mercury vapor separation member 310 connected to one side, and the separation extraction filter 314 of the mercury vapor separation member 310. The mercury removal harmful dust 12 blocked by the adsorption of the mercury vapor removal member 310 of the separation extraction unit 300, the separation extraction unit 300 is separated and discharged to the mercury removal harmful dust collection member 320. Ship through the mercury vapor discharge pipe 318 extending to the outside The mercury vapor is discharged through the liquefaction tube 410 extending downward while the liquid mercury 20 by rapid cooling by the refrigerant circulation coil 414 through which the rapid cooling refrigerant is installed to surround the liquefaction tube 410 is circulated. The liquid mercury collection unit 400 is liquefied to be collected through the collection pipe 420 extending downward.

As the harmful mercury-containing dust 10 supplied inside through the supply screw tube 110 on one side of the input unit 100 is heated by a plurality of heat radiation plates 210 of the heating evaporation unit 200. Mercury of the separation and extraction unit 300 through the mercury removal harmful dust and mercury vapor inlet pipe 312 extending upward one side of the heating evaporation unit 200 with the mercury vapor generated particulate harmful dust 12. It is introduced into the steam separating member 310.

In addition, the mercury removal harmful dust 12 adsorbed and blocked by the separation and extraction filter 314 of the mercury vapor separation member 310 is adsorbed mercury removal harmful dust extending downward of the mercury removal hazardous dust collection member 320. Falling to the dropping discharge pipe 322 is separated and collected by the discharge collecting screw pipe 326 to the mercury removal hazardous dust collection box 328.

The mercury vapor separation member 310 of the separation extraction unit 300 is blocked upward by the shielding cap 316 so that the mercury vapor passing through the separation separation filter 314 in the lower portion is separated and extracted only by the filter extraction port 317. .

In addition, the mercury vapor separated and extracted through the filter extraction port 317 of the shielding cap 316 is discharged through the mercury vapor discharge pipe 318 which is extended to the outside and opened and closed by the operation of the on / off valve 319.

In addition, an air blower 311a is further installed at an outer side of the mercury vapor separation member 310 of the separation extraction unit 300 to be disposed adjacent to the separation extraction filter 314 of the mercury vapor separation member 310. Air is injected through one or more blowing nozzles 311b to remove the harmful mercury removal dust 12 adsorbed and blocked by the separation extraction filter 314 to fall downward.

Further, by installing an electric heater 311c outside the mercury vapor separation member 310, the harmful mercury removal harmful dust in which the hot wire generated by the electric heater 311c is adsorbed and blocked by the separation extraction filter 314 ( By transmitting to 12, mercury removal harmful dust 12 is removed to fall downward.

The mercury vapor passing through the liquefaction tube 410 of the liquid mercury collection unit 400 is liquefied while being rapidly cooled by the refrigerant circulation coil 414 in a state in which water in a vapor state is mixed, and then the lower collection recovery tube 420. Through the liquid mercury collecting box 426 mounted at the bottom through the liquid water 22 is collected into the liquid mercury (20). At this time, the liquid mercury 20 collected and collected in the liquid mercury collecting box 426 sinks to the bottom of the liquid water 22 with specific gravity and is separated and recovered.

Reference numeral 500 is a screw drive device for controlling the drive of the screw of the supply screw pipe 110 of the input unit 100 and the screw of the discharge collecting screw pipe 326 of the mercury removal harmful dust collection member 320 is , Reference numeral 600 circulates and supplies the refrigerant such as R-404A to the refrigerant circulation coil 414 of the liquid mercury collection unit 400 in a high concentration and high pressure compression by circulating a liquid liquefied tube by the refrigerant circulation coil 414. 410 is a rapid cooling refrigerant circulation supply driving device (chiller) which controls the rapid cooling to 0 to 2 degrees Celsius. Reference numeral 601 denotes a refrigerant circulation tube.

On the other hand, the drive motor for driving the screw of the screw of the supply screw pipe 110 of the input unit 100 and the discharge collection screw pipe 326 of the hazardous dust collection member 320 to remove the mercury supply screw pipe 110 And may be installed at each end of the discharge collection screw pipe 326, the reference numeral 500 may also be used for the purpose of storing the refrigerant.

By briefly explaining the operation sequence of the waste dust and the mercury vapor separation collection system according to the preferred embodiment of the present invention by the configuration as described above, first, the harmful dust containing particulate mercury (10) ) Into the input unit 100 is supplied into the interior through the supply screw tube (110).

Thereafter, the harmful dust 10 containing mercury is heated to a temperature of 250 ° C. to 350 ° C. by the heat radiation plate 210 of the heat evaporation unit 200. The harmful dust 12 is suspended.

Thereafter, the mercury vapor and mercury removal harmful dust 12 as described above is introduced into the mercury vapor separation member 310 of the separation extraction unit 300 through the mercury removal harmful dust and mercury vapor inlet pipe 312. do. Thereafter, only mercury vapor passes through the separation extraction filter 314 and only mercury vapor is separated and extracted to the filter extraction port 317. At the same time, the mercury removal harmful dust 12 is adsorbed and blocked by the separation extraction filter 314 to fall downward and discharged to the mercury removal harmful dust collection member 320.

Thereafter, the separated and extracted mercury vapor is discharged through the mercury vapor discharge pipe 318 extending to the outside of the mercury vapor separation member 310 of the separation extraction unit 300 to extend downward. The liquid is liquefied into the liquid mercury 20 by rapid cooling by the refrigerant circulation coil 414 through which the rapid cooling refrigerant circulated through the liquefaction tube 410 is installed to surround the liquefaction tube 410. At the same time, the liquefied liquid mercury 20 is collected with the liquid water 22 to the liquid mercury collecting box 426 through the collecting pipe 420 extending downward.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. In addition, it will be understood by those of ordinary skill in the art that various embodiments are possible within the scope of the technical idea of the present invention.

10. Harmful dust containing mercury 12. Harmful dust removing mercury
20. Liquid mercury 22. Liquid water
100. Input unit 110. Supply screw pipe
200. Heating evaporation unit 210. Heat radiation plate
300. Separation extraction unit 310. Mercury vapor separation member
312. Mercury removal hazardous dust and mercury vapor inlet pipes
314. Separate extraction filter 316. Shield cap
317. Filter outlet 318. Mercury vapor outlet
319. Opening and closing valve 320. Mercury removal Hazardous dust collection member
322. Adsorption mercury removal harmful dust dropping pipe
326. Waste collection screw pipes 328. Hazardous dust collection boxes
400. Liquid mercury collection unit 410. Liquefaction tube
414. Refrigerant circulation coil 420. Collection and collection pipe
428. Liquid mercury collector

Claims (4)

An input unit 100 into which noxious dust 10 containing particulate mercury such as waste fluorescent light is introduced;
A heating evaporation unit 200 for evaporating mercury by heating the harmful mercury-containing dust 10 supplied through the input unit 100;
Mercury vapor only filter extraction while passing through the separation extraction filter 314 of the mercury vapor separation member 310 connected to the mercury vapor removal harmful dust suspended in the heat evaporation unit 200 and the mercury vapor is suspended on one side The mercury removal harmful dust 12, which is separated and extracted by the sphere 317 and adsorbed and blocked by the separation extraction filter 314 of the mercury vapor separation member 310, is separated and collected by the mercury removal harmful dust collection member 320 Separation extracting unit 300;
The mercury vapor discharged through the mercury vapor discharge tube 318 extending to the outside of the mercury vapor separation member 310 of the separation extraction unit 300 passes through the liquefaction tube 410 extending downward and the liquefaction tube 410. ) Is a liquid mercury collection unit that is liquefied into the liquid mercury 20 by rapid cooling by the refrigerant circulation coil 414 circulated to the rapid cooling refrigerant installed to surround the collection through the collection recovery pipe 420 extended downward Hazardous dust and mercury vapor separation and collection system of the waste fluorescent light, characterized in that consisting of (400).
The harmful mercury-containing dust 10 supplied to the inside of the input unit 100 through the supply screw tube 110 is a plurality of heat radiation plates 210 of the heating evaporation unit 200. Mercury vapor generated by heating by the separation through the mercury removal harmful dust 12 and the mercury removal harmful dust and mercury vapor inlet pipe (312) extending upward one side of the heating evaporation unit 200 ( 300 is introduced into the mercury vapor separation member 310,
The mercury removal noxious dust 12 adsorbed and blocked by the separation extraction filter 314 of the mercury vapor separation member 310 is adsorbed mercury removal noxious dust drop discharge pipe extending downward of the mercury removal noxious dust collection member 320. Hazardous dust and mercury vapor separation and collection system, such as waste fluorescent light, characterized in that the falling to 322 is separated and discharged to the hazardous waste collection box (328) to remove mercury through the discharge collection screw pipe 326.
The mercury vapor separation member 310 of the separation extraction unit 300 is blocked upward by the shielding cap 316 so that the mercury vapor that has passed through the separation extraction filter 314 in the lower portion is extracted from the filter. 317), and extracted separately
The mercury vapor separated and extracted through the filter extraction port 317 of the shielding cap 316 is discharged through the mercury vapor discharge pipe 318 which is extended to the outside and opened and closed by the operation of the on / off valve 319. Hazardous dust and mercury vapor separation and collection system.
The mercury vapor passing through the liquefaction tube 410 of the liquid mercury collection unit 400 is liquefied while being rapidly cooled by the refrigerant circulation coil 414 in a state where water in a vapor state is mixed. The liquid mercury collection box 426 mounted at the bottom through the collection collection pipe 420 is collected and recovered to the liquid mercury 20 together with the liquid water 22. The collected liquid mercury 20 is liquid with a specific gravity difference. Hazardous dust and mercury vapor separation collection system, such as waste fluorescence, characterized in that the natural sediment is recovered by sitting on the bottom of the water (22).

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