KR20170051757A - Method for Treating Perfluorinated compounds Using Liquid Metal - Google Patents

Abstract

The present invention relates to a system for treating a perfluorinated compound by using a liquid metal. The system comprises: a liquid metal tank including liquid tin (Sn) therein; a pure oxygen or oxygen enrichment supplying device for supplying flame to the top end of the liquid metal tank by suctioning external air and by discharging the air after increasing the concentration of oxygen in the air; an exhaust gas treating device for cooling an exhaust gas discharged from the liquid metal tank and treating harmful components in a wet type; and an electronic control device for monitoring and controlling the temperatures of the air discharged from the pure oxygen or oxygen enrichment supplying device and the flame supplied to the liquid metal tank and the accumulating amounts of tin fluoride (SnF_2) and the exhaust gas generated from the liquid metal tank. According to the present invention, the decomposition of a perfluorinated compound using high temperature flame through pure oxygen or oxygen enrichment is simultaneously performed with the decomposition of a perfluorinated compound using liquid thin (Sn). Thus, the disadvantages of a conventional combusting method in which gases such as HF, CO_2, and NOx are generated due to combustion, a post-treating facility is needed, and maintenance costs are high due to a high temperature process are resolved. Also, a perfluorinated compound removing effect is improved, and perfluorinated compound treating costs can be reduced.

Description

TECHNICAL FIELD The present invention relates to a method for treating a perfluorinated compound using a liquid metal,

TECHNICAL FIELD The present invention relates to a technique for decomposing and removing a perfluorinated compound generated in a semiconductor process or the like.

Perfluorocompounds (PFCs) are widely used as chamber cleaners in etchant and chemical vapor deposition processes in semiconductor manufacturing processes. Typically, perfluorinated compounds (CF ₄ , CHF ₃ , C ₃ F ₆ , CH ₂ F ₂ , C ₃ F ₄ , C ₂ F ₆ , C ₃ F ₈ , C ₄ F ₁₀ , C ₅ F ₈ , SF ₆ and NF ₃ . PFC can be used as a substitute for the conventional chloro-fluorocarbon (CFC) used in the semiconductor manufacturing process and used in processes such as cleaning agents, etchants, solvents, reaction materials, etc., It is also included in the gas.

These perfluorinated compounds (PFCs) are known to cause global warming by generating global greenhouse effect. The Global Warming Index (GWP) of these gases is a highly stable compound that is about 6,000 to 24,000 times higher than that of carbon dioxide.

As a result, countries around the world have agreed to voluntarily reduce the amount of perfluorocompound gas emissions, thus reducing the emission of perfluorocompound gas.

Research on the technology for reducing the amount of perfluorocompound gas by reducing the amount of the process through optimization of the process, recycling, use of the substitute material, and the decomposition technique has been studied as the technology for reducing the perfluorocompound gas emission.

Until now, the decomposition technique, especially the combustion method, has been studied. However, the combustion method is the simplest method and the presently applied technology, but due to the stability of the fluorine gas, it is necessary to heat at a high temperature before the oxidation reaction, There was a possibility of causing problems.

Therefore, although plasma, separator, and physicochemical processes have been developed until now to replace the combustion method, there is a difficulty in commercialization due to limit of processing capacity, high energy demand, and low process efficiency.

The technology to remove perfluorinated compounds such as CF ₄ , C ₂ F ₆ , C ₃ F ₈ , CHF ₃ , NF ₃ , and SF ₆ , which are generated in the semiconductor process at present, , The generation of gas such as HF, CO ₂ , NOx, etc., and the need for a post-treatment facility, and high maintenance cost due to a high temperature process.

The object of the present invention is to overcome this disadvantage by using a method of decomposing a perfluorinated compound by a high-temperature flame through pure oxygen or oxygen enrichment and a method of decomposing a perfluorinated compound by using liquid tin (Sn) And a method for treating a compound.

A first aspect of the present invention is a liquid processing apparatus comprising: a liquid metal tank (30) containing liquid tin (Sn) therein; A pure oxygen or oxygen enrichment supply device 20 capable of supplying a flame to the upper end of the liquid metal tank 30 by sucking outside air and discharging the oxygen by increasing the concentration of oxygen; An exhaust gas processing device (50) for cooling and wet processing the exhaust gas transferred from the liquid metal tank (30); The temperature of the flame supplied to the liquid metal bath, and the amount of exhaust gas and SnF ₂ generated from the liquid metal bath are monitored and controlled And an electronic control device (40).

According to a second aspect of the present invention, there is provided a liquid container comprising: a liquid metal tank containing liquid tin (Sn) therein; An electric heater provided in the liquid metal bath; An exhaust gas processing device for cooling and wet-processing the exhaust gas transferred from the liquid metal tank; And an electronic control device for monitoring and controlling the temperature of the flame supplied to the liquid metal bath and the amount of exhaust gas and tin fluoride (SnF ₂ ) generated from the liquid metal bath, from the air delivered from the pure oxygen or oxygen enrichment supply device Is a perfluorinated compound processing system.

A third aspect of the present invention provides a method for producing a liquid metal composition, comprising: supplying a liquid metal bath with a waste gas containing a perfluorinated compound; Supplying a flame to an upper end of the liquid metal tank by sucking outside air through a pure oxygen or oxygen enrichment supply device to increase the concentration of oxygen and discharge the oxygen; Decomposing the perfluorinated compound by liquid tin (Sn) and the supplied flame in the liquid metal bath; Discharging tin fluoride (SnF ₂ ) generated by the decomposition of the perfluorinated compound and transferring the exhaust gas to an exhaust gas treating apparatus; Monitoring and controlling the temperature of the flame supplied to the liquid metal bath by air from the pure oxygen or oxygen enrichment supply device by the electronic control unit and the accumulation amount of exhaust gas and tin (SnF ₂ ) generated from the liquid metal tank The method comprising the steps of:

A fourth aspect of the present invention provides a process for producing a liquid metal precursor comprising the steps of: supplying a waste gas containing a perfluorinated compound to a liquid metal bath; Heating the liquid metal bath with an electric heater; Decomposing the perfluorinated compound by liquid tin (Sn) in the liquid metal bath; Discharging tin fluoride (SnF ₂ ) generated by the decomposition of the perfluorinated compound and transferring the exhaust gas to an exhaust gas treating apparatus; Monitoring and controlling the temperature of the flame supplied to the liquid metal bath, the air delivered from the pure oxygen or oxygen enrichment supply unit by the electronic control unit, and the accumulation amount of exhaust gas and tin (SnF ₂ ) generated from the liquid metal bath The method comprising the steps of:

In accordance with the present invention by combination of perfluorinated compound of the degradation and decomposition of the perfluoro compound with liquid tin (Sn) by a high temperature flame by a pure oxygen or oxygen-enriched by the combustion in the conventional combustion method has HF, CO _2, It is possible to double the removal efficiency of the perfluorinated compound and reduce the treatment cost of the perfluorinated compound while solving the disadvantages such as the generation of NOx gas, the post treatment facility, and the high maintenance cost due to the high temperature process.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a configuration of a device for treating a liquid metal with a perfluorinated compound according to an embodiment; FIG.
FIG. 2 is a view showing a configuration of a perfluorinated compound processing apparatus having an oxygen-enriching apparatus at an upper end portion of a liquid metal tank according to an embodiment.
Fig. 3 is a view showing a configuration of an apparatus for treating a perfluorinated compound using an electric heater according to one embodiment as a liquid tin heating source.

The present invention will be described in more detail with reference to the following examples. These examples are for illustrative purposes only, and the scope of the present invention is not limited to these examples.

Hereinafter, the present invention will be described in detail with reference to FIG. 1 to FIG.

In the perfluorinated compound processing system according to an embodiment of the present invention, the liquid metal tank 30 contains liquid tin (Sn) therein to decompose the perfluorinated compound contained in the supplied waste gas containing the perfluorinated compound.

The liquid metal tank 30 may include a plurality of nozzles having a plurality of nozzles for spraying liquid tin Sn supplied from the outside into the liquid metal tank 30. [

Also, an apparatus for supplying a hot flame from the oxygen or oxygen enrichment supply unit 20 to the upper end of the liquid metal tank 30 may be provided.

3, the liquid metal tank 30 can maintain the temperature of the liquid metal bath at a predetermined level or higher through an external heat source such as an electric heater or the like.

The perfluorinated compound may be at least one selected from the group consisting of CF ₄ , SF ₆ , C ₂ F ₆ , C ₃ F ₃ , CHF ₃ and NF ₃ .

The perfluorinated compound processing system according to an embodiment of the present invention may further include a filter to remove foreign matter of the waste gas containing the perfluorinated compound supplied to the liquid metal tank. The filter can be a pre-filter, a carbon filter, a HEPA filter, a photocatalytic filter, or a nanosilver filter.

In the perfluorinated compound processing system according to an embodiment of the present invention, the pure oxygen or oxygen enrichment feeder 20 is provided with a gas separation membrane therein. The gas separation membrane increases the concentration of oxygen in the intake air from the outside, The gas separation membrane may be of any type including a zeolite membrane, a flat membrane membrane or a hollow fiber membrane, and the gas separation membrane may be used as long as it is commonly used in the art.

In the perfluorinated compound processing system according to an embodiment of the present invention, the exhaust gas processing apparatus 50 includes a cooling unit for cooling the exhaust gas, a water supply unit for dissolving the liquefied exhaust gas harmful components in water, And a discharge portion.

The perfluorinated compound processing system according to one embodiment of the present invention is a system for monitoring and controlling the temperature of a flame supplied to a liquid metal bath and the accumulation amount of exhaust gas and tin (SnF ₂ ) generated from a liquid metal bath in real time And a control device 40.

In the method of treating a perfluorinated compound according to an embodiment of the present invention, the waste gas containing a perfluorinated compound may be one kind selected from the group consisting of CF ₄ , SF ₆ , C ₂ F ₆ , C ₃ F ₃ , CHF ₃ and NF ₃ Or more, but is not necessarily limited thereto.

The waste gas containing the perfluorinated compound may occur in a semiconductor process.

In the method of treating a perfluorinated compound according to an embodiment of the present invention, when tin is used as the liquid metal medium, the operating temperature of the liquid metal bath should be maintained at not less than the melting point of the tin and not more than the vaporization point, . Since the liquid metal coagulates when operated below the melting point, the temperature should be maintained above the melting point.

.

In the method of treating a perfluorinated compound according to an embodiment of the present invention, the temperature of the flame supplied to the upper portion of the liquid metal tank by the oxygen or oxygen enrichment supply device is preferably 1,300 ° C or higher, It is possible to bring heat generated from the oxygen combustion reaction and keep the liquid metal and flame temperature constant. The waste gas containing the perfluorinated compound is primarily purified by the liquid metal, and the remaining trace amount of perfluorinated compounds is completely eliminated by the oxy-fuel combustion reaction. The pure oxygen feed content and feed rate are determined by the waste gas treatment capacity and are supplied in an amount necessary to remove trace amounts of perfluorinated compounds that are primarily purified by liquid metal. The purification efficiency and the operating temperature can be effectively controlled by adjusting the rate at which the waste gas is injected into the liquid metal and the amount of pure oxygen supplied.

The method for treating a perfluorinated compound according to the present invention may include a method of decomposing a perfluorinated compound by a high-temperature flame through pure oxygen or oxygen enrichment, or a method of decomposing a perfluorinated compound by using liquid tin (Sn) , The above two decomposition methods can be used at the same time.

A conventional method of decomposing a perfluorinated compound by a combustion method using pure oxygen or an oxygen hatching apparatus is a combustion method using only oxygen instead of air as an oxidizing agent. Pure oxygen or a combustion system using oxygen enrichment device is the heat loss of the gas combustion, unlike conventional air combustion the nitrogen almost not be decreased by 75 to 80%, the main component of the exhaust gas is carbon dioxide (CO ₂₎ and Water (H ₂ O).

However, the method of decomposing the perfluorinated compound by the combustion method using the pure oxygen or the oxygen hatching apparatus uses oxygen as the oxidizing agent, so unlike air, the flame is difficult to control because a rapid exothermic reaction occurs during contact with the oxidizing agent . That is, in general, pure oxygen direct combustion has a merit that it has good thermal efficiency and low emission of air pollutants, but it is difficult to apply high temperature combustion gas of 3000 ° C or more to heat exchanger.

In order to solve the above disadvantages, the present invention provides a method of removing perfluorinated compounds contained in waste gas by decomposing perfluorinated compounds using liquid tin (Sn) and purifying oxygen or oxygen-enriched flame (Sn) and the temperature of the flame are maintained at a constant level while completely removing minute amounts of the perfluorinated compounds which are not removed.

The technical principle of the decomposition of the perfluorinated compound according to the present invention is that liquid tin (Sn) and at least one compound selected from the group consisting of CF ₄ , SF ₆ , C ₂ F ₆ , C ₃ F ₃ , CHF ₃ and NF ₃ It is based on the following reactions occurring:

Reaction formula (1): 2Sn (l) + CF ₄ (g) ⇔ 2SnF ₂ (l) + C (g)

Reaction formula (2): 3Sn (l) + SF ₆ (g) ⇔ 3SnF ₂ (l) + S (s)

The reaction takes place in the range of 230-2600 ° C, which is the operation temperature range of the liquid tin, and it may be preferable to operate at a vaporization point of SnF ₂ , which is the product of the reaction, at 850 ° C or lower. The decomposition of the perfluorinated compound by the liquid metal is technically effective because it can be operated at a relatively low temperature and purification is possible only by the way in which the waste gas flows in the form of bubbles in the liquid. Liquid metal tin has a wide operating temperature range, is less toxic, and is relatively inexpensive.

The method of treating a perfluorinated compound according to the present invention maintains the process temperature of liquid tin (Sn) by supplying a pure oxygen or oxygen-containing flame at a predetermined temperature or more to the upper end of the liquid metal tank (30) The removal efficiency of the compound can be doubled.

Further, according to the present invention, it is possible to prevent the supply of oxygen to the lower portion of the liquid metal bath by placing pure oxygen or the oxygen-enriched burned portion at the upper end of the liquid metal bath 30 and to prevent the oxidation of the liquid metal by supplying heat to the liquid metal bath have. According to the present invention, the exhaust gas discharged from the liquid metal tank 30 contains little oxygen.

The method of treating a perfluorinated compound according to an embodiment of the present invention may further include removing foreign matter of the waste gas containing the perfluorinated compound before supplying the waste gas containing the perfluorinated compound to the liquid metal tank.

A known method can be used to remove foreign matter, and a filter is used in the present invention.

According to the present invention, the perfluorinated compound contained in the waste gas reacts with liquid tin (Sn) and decomposes into tin fluoride (SnF ₂ ) and carbon, sulfur, nitrogen and the like. Tin (SnF ₂ ) generated in the decomposition process is discharged, and the exhaust gas is transferred to the exhaust gas processing device 50.

The method of treating a perfluorinated compound according to an embodiment of the present invention may further include a step of cooling the exhaust gas in the exhaust gas processing apparatus and wet-processing the exhaust gas after the step of transferring the exhaust gas to the exhaust gas processing apparatus .

The step of cooling and wet processing in the exhaust gas treating apparatus may be a step of liquefying the exhaust gas and then treating it by dissolving it in water.

The method for treating a perfluorinated compound of the present invention is a method for treating a perfluorinated compound by using an electronic control device to control the temperature of a flame supplied from the pure oxygen or oxygen enrichment supply device, SnF ₂ ), thereby monitoring in real time all the steps before the perfluorinated compound treatment.

3 is a diagram showing a configuration of an apparatus for treating a perfluorinated compound using an electric heater as a liquid tin heating source instead of the oxygen enrichment apparatus according to an embodiment of the present invention.

The refining reaction of the perfluorinated compound and the liquid tin is a reaction occurring at a low temperature. Since the operation temperature of the liquid metal tanks should be maintained at a melting point of 232 캜 or higher, which is the liquid tin temperature, electric heaters may be used as a heat source.

The operating temperature of the liquid metal bath and the capacity of the electric heater are determined according to the content of the gas to be treated and the target purification efficiency.

10: Filter
20: oxygen or oxygen enrichment feeder
30: liquid metal tank
40: Electronic control device
50: Exhaust gas treatment device

Claims (11)

A liquid metal tank containing liquid tin (Sn) therein;
A pure oxygen or oxygen enrichment supply device capable of supplying a high temperature flame to an upper end of the liquid metal tank by sucking outside air and discharging the oxygen by increasing the concentration of oxygen;
An exhaust gas processing device for cooling and wet-processing the exhaust gas transferred from the liquid metal tank;
And an electronic control device for monitoring and controlling the temperature of the flame supplied to the liquid metal bath and the amount of exhaust gas and tin fluoride (SnF ₂ ) generated from the liquid metal bath, from the air delivered from the pure oxygen or oxygen enrichment supply device A perfluorinated compound processing system. A liquid metal tank containing liquid tin (Sn) therein;
An electric heater provided in the liquid metal bath;
An exhaust gas processing device for cooling and wet-processing the exhaust gas transferred from the liquid metal tank;
And an electronic control device for monitoring and controlling the temperature of the flame supplied to the liquid metal bath and the amount of exhaust gas and tin fluoride (SnF ₂ ) generated from the liquid metal bath, from the air delivered from the pure oxygen or oxygen enrichment supply device A perfluorinated compound processing system. 3. The method according to claim 1 or 2,
Wherein the perfluorinated compound is at least one selected from the group consisting of CF ₄ , SF ₆ , C ₂ F ₆ , C ₃ F ₃ , CHF ₃ and NF ₃ . 3. The method according to claim 1 or 2,
Wherein the perfluorinated compound processing system further comprises a filter. Supplying a waste gas containing a perfluorinated compound to the liquid metal bath;
Supplying a flame to an upper end of the liquid metal tank by sucking outside air through a pure oxygen or oxygen enrichment supply device to increase the concentration of oxygen and discharge the oxygen;
Decomposing the perfluorinated compound by liquid tin (Sn) and the supplied flame in the liquid metal bath;
Discharging tin fluoride (SnF ₂ ) generated by the decomposition of the perfluorinated compound and transferring the exhaust gas to an exhaust gas treating apparatus;
Monitoring and controlling the temperature of the flame supplied to the liquid metal bath, the air delivered from the pure oxygen or oxygen enrichment supply unit by the electronic control unit, and the accumulation amount of exhaust gas and tin (SnF ₂ ) generated from the liquid metal bath ≪ / RTI > wherein the method further comprises: Supplying a waste gas containing a perfluorinated compound to the liquid metal bath;
Heating the liquid metal bath with an electric heater;
Decomposing the perfluorinated compound by liquid tin (Sn) in the liquid metal bath;
Discharging tin fluoride (SnF ₂ ) generated by the decomposition of the perfluorinated compound and transferring the exhaust gas to an exhaust gas treating apparatus;
Monitoring and controlling the temperature of the flame supplied to the liquid metal bath, the air delivered from the pure oxygen or oxygen enrichment supply unit by the electronic control unit, and the accumulation amount of exhaust gas and tin (SnF ₂ ) generated from the liquid metal bath ≪ / RTI > wherein the method further comprises: The method according to claim 5 or 6,
Wherein the perfluorinated compound treatment method further comprises a step of cooling the exhaust gas in the exhaust gas treatment apparatus and performing wet treatment after the step of conveying the exhaust gas to the exhaust gas treatment apparatus . The method according to claim 5 or 6,
Wherein the perfluorinated compound-containing waste gas comprises at least one selected from the group consisting of CF ₄ , SF ₆ , C ₂ F ₆ , C ₃ F ₃ , CHF ₃ and NF ₃ . . The method according to claim 5 or 6,
Wherein the perfluorocompound waste gas is generated in a semiconductor process. The method according to claim 5 or 6,
Wherein the temperature of the liquid metal bath is between 230 and 2600 ° C. 6. The method of claim 5,
Wherein the temperature of the flame supplied to the upper end of the liquid metal bath by the oxygen or oxygen enrichment apparatus is 1,300 ° C. or higher.

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