JP3089266U - Device for collecting specific components in exhaust gas - Google Patents

Abstract

(57) [Problem] To provide a recovery device capable of depositing gaseous boric acids and arsenic oxides contained in exhaust gas as solids and recovering the solids in a dry state. SOLUTION: This utility model is to reduce the temperature of exhaust gas to 70 ° C. or lower through exhaust gas G , and to remove gaseous boric acid and the like in the exhaust gas.
Spray and air to precipitate arsenic oxide and arsenic oxide as solid
A water-cooled dry cooling towers 11 of the mixing type combination, from the exhaust gas
A dry electric precipitator 12 is provided for recovering boric acids and arsenic oxides precipitated as solids in a dry state.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a recovery method and a recovery apparatus for recovering specific components contained in exhaust gas, and more particularly to a recovery method and a recovery apparatus for depositing and recovering boric acids and arsenic oxides in a gaseous state as solids.

[0002]

[Prior art]

 Generally, as shown in FIG. 4, the exhaust gas from the glass melting furnace is sprayed with water and completely evaporated to remove heat as heat of vaporization of water to cool the exhaust gas G or to cool the exhaust gas G. After the temperature of exhaust gas is reduced to 150 to 200 ° C. in a dry cooling tower 1 by a method of cooling by mixing air, a specific component contained in the exhaust gas G is recovered by a bag filter 2. However, even if glass raw materials and other solidified components in the exhaust gas G are recovered, almost 100% of boric acids and arsenic oxides in the exhaust gas G are in a gaseous state in a temperature range of 150 to 200 ° C. However, they cannot be collected by the bag filter 2 and pass through and are released to the atmosphere.

Further, as shown in FIG. 5, the temperature of exhaust gas G is reduced to 65 ° C. by a wet cooling tower 3 which cools the exhaust gas G from the glass melting furnace in a saturated state by spraying water with water. According to the method of recovering with the wet electric precipitators 4, 4, gaseous boric acid and arsenic oxide are precipitated as 100% as solids, but the moisture in the gas is saturated, and the gas is further treated by the wet electric precipitator 4. Therefore, the collected boric acids and arsenic oxides are dissolved in water, and therefore, in order to recover them as glass raw materials, further drying equipment is required.

On the other hand, in the method of mixing only air in the method of cooling exhaust gas, a large amount of cooling air is used, so that the amount of exhaust gas after cooling becomes enormous and the load on exhaust gas treatment equipment increases. . For example, in order to reduce exhaust gas having a temperature of 500 ° C. and a gas flow rate of 2,500 m ³ N / h to 65 ° C., when cooling air having a temperature of 35 ° C. is used, an air flow rate of 52,500 m ³ N / h is obtained. It becomes necessary, and the total amount of exhaust gas after cooling becomes 22 times the original amount, and the load on the exhaust gas treatment equipment at the subsequent stage becomes very large.

[0005]

[Problems to be solved by the invention]

 The purpose of the present invention is to make gaseous boric acids and arsenic oxides contained in the exhaust gas from a glass melting furnace precipitate as solids, collect them in a dry state, and make them recyclable as raw materials. The aim is to reduce the amount of released boric acids and arsenic oxides to improve the environment and to suppress the amount of exhaust gas after cooling to reduce the load on exhaust gas treatment equipment.

[0006]

[Means for Solving the Problems]

 In the method for recovering specific components in exhaust gas according to the present invention, the exhaust gas containing boric acids and arsenic oxides is cooled to 70 ° C. or less, and gaseous boric acids and arsenic oxides are precipitated as solids, and the waste gas is discharged from the exhaust gas. It is characterized in that boric acids and arsenic oxides are recovered in a dry state.

If the temperature at which the exhaust gas is cooled exceeds 70 ° C., boric acids and arsenic oxides hardly precipitate, and most of them are released into the atmosphere. In addition, when collected by a wet electric precipitator, the collected boric acids and arsenic oxides are dissolved in water, so that additional processing equipment is required to collect them as glass raw materials, which increases costs. . In the present invention, it is important to cool the exhaust gas containing boric acids and arsenic oxides to 70 ° C. or less. On the other hand, when the temperature of the exhaust gas falls below 60 ° C., the moisture in the exhaust gas begins to condense, making it difficult to precipitate in a dry state. In order to prevent boric acids and arsenic oxides from being almost completely precipitated and to prevent air pollution, it is preferable to cool the exhaust gas to 65 ° C. or lower, and to recover the boric acids and arsenic oxides that have been deposited in a dry state. Therefore, it is preferable to maintain the exhaust gas at 60 ° C. or higher for reuse as a glass raw material.

[0008] The device for collecting specific components in exhaust gas according to the present invention is a device for collecting specific components in exhaust gas, in which the exhaust gas is cooled by a cooling tower to precipitate a gaseous specific component as a solid, and the specific component is collected by a dust collector. And a water-cooling / drying type cooling tower that cools exhaust gas containing boric acids and arsenic oxides to 70 ° C. or less, preferably 60 to 65 ° C. using both water spray cooling means and air mixing cooling means. It is characterized by becoming.

On the other hand, when the cooling tower is of a dry type, a very large amount of cooling air is used, so that the amount of exhaust gas after cooling becomes enormous and the load on the exhaust gas treatment equipment increases. On the other hand, in a cooling tower provided only with a water spray type cooling means, the exhaust gas contains a large amount of water, and the collected boric acids and arsenic oxides cannot be reused as glass raw materials as they are. In recovering boric acid and arsenic oxide from the exhaust gas in a dry state, the apparatus of the present invention uses a water spray type cooling means and an air mixing type cooling means in combination to cool the exhaust gas containing boric acid and arsenic oxide to 70 ° C. It is important to have a water-cooled and dry cooling tower that cools below.Preparing boric acids and arsenic oxides almost completely prevents air pollution, and also removes boric acids and arsenic oxides. In order to recover the glass in a dry state and reuse it as a glass raw material, it is preferable to provide a water-cooled dry-type cooling tower that cools to 60 to 65 ° C.

[0010] The specific component recovery device for exhaust gas according to the present invention cools the exhaust gas in a cooling tower to precipitate a gaseous specific component as a solid, and the specific component in the exhaust gas collected by a dust collector. A recovery device, wherein the temperature of the blowing air for protecting the insulator of the charging equipment exceeds its dew point and is 70 ° C. or less, and the heater capacity is 0.07 ± 0.005 kW / m ² per unit surface area of the equipment. It is characterized by having a heater for heating and a dry electric precipitator for collecting boric acids and arsenic oxides.

When the temperature of the blowing air for protecting the insulator of the charging equipment is lower than the dew point, for example, when the moisture content in the exhaust gas is 15 vol% or lower, the dew point is 55 ° C. or less, the dew point condenses on the insulator of the charging equipment and hinders the operation. Occurs. On the other hand, when the temperature exceeds 70 ° C., crystallization of boric acids and arsenic oxides is hindered, and dust adheres to the charging equipment to cause a short circuit phenomenon. In addition, the frequency of maintenance increases, which is not practical. In the present invention, in order to realize stable operation for a long period of time, it is important that the temperature of the blown air for protecting the insulator of the charging equipment is higher than the dew point and 70 ° C or less. If the heater capacity of the heater for heating the hopper is less than 0.065 kW / m ² per unit surface area of the device, solid boric acids and arsenic oxides precipitated from exhaust gas can be maintained in a sufficiently dry state. become unable. In the present invention, in order to realize the recovery of boric acid and arsenic oxide in a dry state, the heater capacity of the heater for hopper heating is 0.07 ± 0.005 kW / m ² per unit surface area of the device. This is very important.

[0012]

[Action]

 The method and apparatus for recovering specific components in flue gas according to the present invention having the above-mentioned structure are as follows. By doing so, the concentrations of boric acids and arsenic oxides in the exhaust gas can be reduced to desired values or less, and boric acids and arsenic oxides that have become solids are collected in a dry state by a dry electric precipitator. It can be easily recycled as a raw material. Further, the amount of exhaust gas after the boric acid and arsenic oxide recovery treatment can be significantly reduced.

[0013]

[Embodiment of the invention]

 As shown in FIG. 1, the apparatus for recovering specific components in exhaust gas according to the present embodiment includes a water-cooled dry-type cooling tower 11 that cools exhaust gas from a glass melting furnace, and a dry-type electric dust collector 12. It is.

Next, FIG. 2 shows the configuration of the water-cooling / drying type cooling tower 11. The cooling tower 11 is provided with an inlet duct 13 for introducing exhaust gas G from the furnace, an outlet duct 14 for discharging exhaust gas, a spray nozzle 15 for spraying cooling water, a suction nozzle 16 for taking in air, And a discharger 17 for discharging solids such as boric acids and arsenic oxides. In the water-cooling and drying-type cooling tower 11 used in the present invention, the amount of water sprayed from the spray nozzle 15 for cooling the temperature of the exhaust gas G to 70 ° C. or less, for example, 65 ° C., depends on the amount of air from the suction nozzle 16. The water content in the exhaust gas after mixing is set so as to be 15 vol% or less so that the water content in the gas does not condense. At this time, the reaction time with the exhaust gas is 6 seconds or more in the water spray section and 3 seconds or more in the air mixing section.

Next, the configuration of the dry electric dust collector 12 is shown in FIG. The dry electric dust collector 12 includes an inlet duct 18 for introducing exhaust gas, an outlet duct 19 for discharging exhaust gas, a dust collecting unit 20 for collecting deposited solids, and a discharging unit 21 for discharging collected solids. An insulator protection fan 22 and an insulator protection heater 23 for protecting the insulator, a hopper heater 24 for heating the hopper, and an external heat insulation 25. The dry-type electrostatic precipitator 12 used in the present invention maintains the insulator protection air temperature at 65 ° C. so that the water content in the exhaust gas does not fall below 55 ° C., which is the dew point temperature of 15 vol%, inside the device. A hopper heater 21 having a capacity of 0.07 kW / m ² with respect to the body surface area is provided.

The method for recovering specific components in exhaust gas according to the present embodiment using the apparatus shown in FIG. 1 is as follows: the exhaust gas from the glass melting furnace is cooled to 65 ° C. by a water-cooled and dry cooling tower 11; Gaseous boric acids and arsenic oxides in the exhaust gas are precipitated as solids. In this temperature range, boric acids and arsenic oxides are completely precipitated from the exhaust gas. The electrical resistivity of the solidified precipitate of boric acid and arsenic oxide is about 8 × 10 ⁹ Ω · cm, and can be easily collected by the dry electric dust collector 12 at the subsequent stage. The concentration of boric acids and arsenic oxides in the exhaust gas after treatment by the dry electrostatic precipitator 12 is 5 mg / m ³ N or less for boric acids as B ₂ O ₃ and 0.01 mg / m _{2 for} arsenic oxides as As. m ³ N or less. Further, by this method, the amount of exhaust gas after cooling the exhaust gas having a temperature of 500 ° C., a gas amount of 2,500 m ³ N / h and a water content of 67 vol% to 65 ° C. can be suppressed to 23,000 m ³ N / h.

In addition, the apparatus for recovering specific components in exhaust gas was able to exhibit the above-mentioned recovery performance with little maintenance over a long period of six months.

[0018]

According to the present invention, the gaseous boric acid and arsenic oxide contained in the exhaust gas can be reduced by treating the exhaust gas at a temperature of 70 ° C. or lower. It can be completely precipitated and removed as a solid, improving the atmospheric environment. Further, by recovering the precipitated boric acids and arsenic oxides in a dry state, it is possible to easily recycle them as raw materials.

According to the apparatus for recovering specific components in exhaust gas according to the present invention, the amount of exhaust gas can be reduced by using both a water spray method and an air mixing method for cooling the exhaust gas, and the load on the exhaust gas treatment equipment can be reduced. And the cost required for exhaust gas treatment can be significantly reduced.

Further, the specific component recovery device of the present invention has a blowing air temperature of 55 ° C. or more and 70 ° C. or less for protecting the insulator of the charging equipment, and a heater capacity of 0.07 ± per unit surface area of the device. Since it has a heater for heating a hopper of 0.005 kW / m ² and a dry electric precipitator for recovering boric acid and arsenic oxide, boric acid and arsenic oxide in exhaust gas can be dried for a long time. This is a practically excellent effect that enables stable and complete recovery.

[Submission date] April 19, 2002 (2002.4.19)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents] [Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

Relates recovery The present invention is for recovering a specific component contained in exhaust gas, in particular, the boric acids and arsenic oxide such gaseous state to precipitate as a solid, to a collecting device for collecting.

[0002]

[Prior art]

In general, exhaust gas from the glass melting furnace, as shown in FIG. 4, by completely evaporated by spraying water removes heat as heat of vaporization of water to cool the exhaust gas G water-cooled cold 却塔, or gas after reducing the 150 to 200 ° C. the exhaust gas temperature on a dry cooling tower 1 by way of cooling by mixing of cooling air G, recovery to recover a specific component contained in the exhaust gas G with a bag filter 2 The device is being used. However, even if the glass raw material and other solidified components in the exhaust gas G are recovered, almost 100% of the boric acids and arsenic oxides in the exhaust gas G are in a gaseous state in a temperature range of 150 to 200 ° C. The bag filter 2 cannot be collected and passes through and is released into the atmosphere.

As shown in FIG. 5, the temperature of the exhaust gas G is reduced to 65 ° C. by a water-cooled cooling tower 3 that cools the exhaust gas G from the glass melting furnace in a saturated state by spraying water with water. In the recovery device for recovering with the wet-type electrostatic precipitators 4 and 4, 100% of gaseous boric acid and arsenic oxide are precipitated as a solid, but the moisture in the gas is saturated. Since the collected boric acids and arsenic oxides are dissolved in water due to the treatment, further drying treatment equipment and the like are required in order to recover them as glass raw materials.

On the other hand, in a recovery apparatus having a cooling tower that cools exhaust gas by mixing only air , a large amount of cooling air is used. The load on the system increases. For example, in order to reduce exhaust gas having a temperature of 500 ° C. and a gas flow rate of 2,500 m ³ N / h to 65 ° C., if cooling air having a temperature of 35 ° C. is used, an air flow rate of 52,500 m ³ N / h will be obtained. As a result, the total amount of exhaust gas after cooling will be 22 times the original amount, and the load on the exhaust gas treatment equipment at the subsequent stage will be extremely large.

[0005]

[Problems to be solved by the invention]

 The purpose of the present invention is to make gaseous boric acids and arsenic oxides contained in the exhaust gas from a glass melting furnace precipitate as solids, collect them in a dry state, and make them recyclable as raw materials. The aim is to reduce the amount of released boric acids and arsenic oxides to improve the environment and to suppress the amount of exhaust gas after cooling to reduce the load on exhaust gas treatment equipment.

[0006]

[Means for Solving the Problems]

Specific component collection device in an exhaust gas according to the present invention, the exhaust gas is cooled by the cooling tower to precipitate gaseous specific component as a solid, a specific component recovery apparatus in the exhaust gas precipitator the specific component , a cooling tower to precipitate as a solid the gaseous boric acids and arsenic oxide compounds by cooling the exhaust gas containing boric acids and arsenic oxide compounds to 70 ° C. or less, the boric acids and arsenic oxide compounds from the exhaust gas in the dry state And a dust collector for collection.

[0007] If the temperature at which the exhaust gas is cooled in the cooling tower exceeds 70 ° C, boric acids and arsenic oxides hardly precipitate, and most of them are released into the atmosphere. Further, when collected by a wet electric precipitator or the like, the collected boric acids and arsenic oxides are dissolved in water. Therefore, to collect them as glass raw materials, additional processing equipment is required and the cost increases. In the present invention, it is important that the cooling tower cools exhaust gas containing boric acids and arsenic oxides to 70 ° C. or less. On the other hand, when the temperature of the exhaust gas is 60 ° C. or lower, the moisture in the exhaust gas starts to condense and it is difficult to precipitate in a dry state. In order to prevent boric acids and arsenic oxides from almost completely precipitating and preventing air pollution, it is preferable to use a cooling tower that cools the exhaust gas to 65 ° C or lower, and dry the boric acids and arsenic oxides that have precipitated. For recovery in the state, it is preferable to maintain the exhaust gas at 60 ° C. or higher for reuse as a glass raw material.

[0008] In the device for recovering specific components in exhaust gas according to the present invention, the cooling tower uses a water spray type cooling device and an air mixing type cooling device in combination to cool the exhaust gas containing boric acid and arsenic oxide to 70 ° C or less. It is characterized by being a water-cooled dry-type cooling tower that cools the water.

On the other hand, when the cooling tower is of a dry type, a very large amount of cooling air is used, so that the amount of exhaust gas after cooling becomes enormous and the load on the exhaust gas treatment equipment increases. On the other hand, in a cooling tower provided only with a water spray type cooling means, the exhaust gas contains a large amount of water, and the collected boric acids and arsenic oxides cannot be reused as glass raw materials as they are. The apparatus of the present invention recovers boric acid and arsenic oxide from the exhaust gas in a dry state, and uses water spray type cooling means and air mixing type cooling means together with the exhaust gas containing boric acid and arsenic oxide at 70 ° C. It is important to have a water-cooled and dry cooling tower that cools below.Preparing boric acids and arsenic oxides almost completely prevents air pollution, and also removes boric acids and arsenic oxides. In order to recover the glass in a dry state and reuse it as a glass raw material, it is preferable to provide a water-cooled dry-type cooling tower that cools to 60 to 65 ° C.

[0010] Further, in the device for recovering specific components in exhaust gas of the present invention, the dust collector has a blowing air temperature for protection of charging equipment exceeding its dew point and 70 ° C or less, and a heater capacity of 0 per unit surface area of the equipment. It has a heater for heating a hopper of 0.07 ± 0.005 kW / m ² and is a dry type electrostatic precipitator for collecting boric acids and arsenic oxides.

When the temperature of the blown air for protecting the insulator of the charging equipment in the dust collector is lower than the dew point, for example, when the water content in the exhaust gas is 15 vol% or lower, the dew point is 55 ° C. or less, condensation forms on the insulator of the charging equipment. Driving trouble. On the other hand, when the temperature exceeds 70 ° C., crystallization of boric acids and arsenic oxides is hindered, and dust adheres to the charging equipment, causing a short circuit phenomenon. Further, the frequency of maintenance increases, which is not practical. In this utility model, in order to achieve stable operation for a long period of time , it is important that the dry air precipitator has a blowing air temperature that exceeds the dew point and is 70 ° C or less for the protection of insulators in charging equipment. . If the heater capacity of the heater for heating the hopper is less than 0.065 kW / m ² per unit surface area of the equipment, solid boric acids and arsenic oxides precipitated from the exhaust gas are maintained in a sufficiently dry state. You can't do that. In this utility model, in order to realize the recovery of boric acids and arsenic oxides in a dry state, the heater capacity of the heater for hopper heating must be 0.07 ± 0.005 kW / m ² per unit surface area of the equipment. it is important that the dry electrostatic precipitator machine.

[0012]

[Action]

 The device for recovering specific components in exhaust gas according to the present invention having the above-described structure reduces the exhaust gas temperature to 70 ° C. or lower by a water-cooled drying-type cooling tower to sufficiently precipitate gaseous boric acids and arsenic oxides as solids. As a result, the concentrations of boric acid and arsenic oxide in the exhaust gas can be reduced to desired values or less, and boric acid and arsenic oxide that have become solid can be recovered in a dry state by a dry electric precipitator. It can be easily recycled as a raw material. In addition, the amount of exhaust gas after boric acid and arsenic oxide recovery treatment can be significantly reduced.

[0013]

[Embodiment of the invention]

 As shown in FIG. 1, the apparatus for recovering specific components in exhaust gas according to the present embodiment includes a water-cooled dry-type cooling tower 11 that cools exhaust gas from a glass melting furnace, and a dry-type electric dust collector 12. It is.

Next, FIG. 2 shows the configuration of the water-cooling / drying type cooling tower 11. The cooling tower 11 is provided with an inlet duct 13 for introducing exhaust gas G from the furnace, an outlet duct 14 for discharging exhaust gas, a spray nozzle 15 for spraying cooling water, a suction nozzle 16 for taking in air, And a discharger 17 for discharging solids such as boric acids and arsenic oxides. In the water cooling / drying type cooling tower 11 used in the present invention, the amount of water sprayed from the spray nozzle 15 for cooling the temperature of the exhaust gas G to 70 ° C. or lower, for example, 65 ° C., is determined by the amount of air from the suction nozzle 16. Is set so that the amount of water in the exhaust gas after mixing becomes 15 vol% or less, so that the water in the gas does not dew. At this time, the reaction time with the exhaust gas should be 6 seconds or more in the water spray section and 3 seconds or more in the air mixing section.

Next, the configuration of the dry electric dust collector 12 is shown in FIG. The dry electric dust collector 12 includes an inlet duct 18 for introducing exhaust gas, an outlet duct 19 for discharging exhaust gas, a dust collecting unit 20 for collecting deposited solids, and a discharging unit 21 for discharging collected solids. An insulator protection fan 22 and an insulator protection heater 23 for protecting the insulator, a hopper heater 24 for heating the hopper, and an external heat insulation 25. The dry-type electrostatic precipitator 12 used in the present utility model maintains the insulator protection air temperature at 65 ° C. so that the water content in the exhaust gas does not fall below 55 ° C., which is the dew point temperature of 15 vol%. A hopper heater 21 having a capacity of 0.07 kW / m ² with respect to the entire surface area is provided.

[0016] In a specific component collected in the exhaust gas using the device of FIG. 1, the flue gas from the glass melting furnace is lowered to 65 ° C. The exhaust gas temperature by water cooling dry cooling tower 11, the gaseous boric compound in the exhaust gas And arsenic oxides are precipitated as a solid. In this temperature range, boric acids and arsenic oxides are completely precipitated from the exhaust gas. The electrical resistivity of the solidified precipitate of boric acid and arsenic oxide is about 8 × 10 ⁹ Ω · cm, and can be easily collected by the dry electric dust collector 12 at the subsequent stage. The concentration of boric acids and arsenic oxides in the exhaust gas after treatment by the dry electrostatic precipitator 12 is 5 mg / m ³ N or less for boric acids as B ₂ O _{3 and} 0.01 mg / m for arsenic oxides as As. It can be ³ N or less. Further, by this method, the exhaust gas amount after cooling the exhaust gas having a temperature of 500 ° C., a gas amount of 2,500 m ³ N / h and a moisture amount of 67 vol% to 65 ° C. can be suppressed to 23,000 m ³ N / h.

In addition, the apparatus for recovering specific components in exhaust gas was able to exhibit the above-mentioned recovery performance with little maintenance over a long period of six months.

[0018]

[Effect of the invention]

According to the device for recovering specific components in exhaust gas according to the present invention , the gaseous boric acid and arsenic oxide contained in the exhaust gas are completely precipitated as a solid by treating the exhaust gas at a temperature of 70 ° C. or lower. Can be removed and the atmospheric environment improved. Further, by recovering the precipitated boric acids and arsenic oxides in a dry state, it is possible to easily recycle them as raw materials.

Further, according to the device for recovering specific components in exhaust gas of the present invention, the amount of exhaust gas can be suppressed by using both a water spray method and an air mixing method for cooling the exhaust gas, and the load on the exhaust gas treatment equipment can be reduced. As a result, the costs required for exhaust gas treatment can be significantly reduced.

Furthermore, in the specific component recovery apparatus of the present invention, the temperature of the blown air for protecting the insulator of the charging equipment is 55 ° C. or more and 70 ° C. or less, and the heater capacity is 0.07 / unit surface area of the equipment. It has a heater for heating a hopper of ± 0.005 kW / m ² and has a dry electric precipitator that collects boric acids and arsenic oxides. Therefore, boric acids and arsenic oxides in exhaust gas are dried. Thus, the present invention has an excellent effect in practical use that enables stable and complete recovery for a long period of time.

[Submission date] May 14, 2002 (2002.5.14)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents] [Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

Relates recovery The present invention is for recovering a specific component contained in exhaust gas, in particular, the boric acids and arsenic oxide such gaseous state to precipitate as a solid, to a collecting device for collecting.

[0002]

[Prior art]

In general, exhaust gas from the glass melting furnace, as shown in FIG. 4, by completely evaporated by spraying water removes heat as heat of vaporization of water to cool the exhaust gas G water-cooled cold 却塔, or gas after reducing the 150 to 200 ° C. the exhaust gas temperature on a dry cooling tower 1 by way of cooling by mixing of cooling air G, recovery to recover a specific component contained in the exhaust gas G with a bag filter 2 The device is being used. However, even if the glass raw material and other solidified components in the exhaust gas G are recovered, almost 100% of the boric acids and arsenic oxides in the exhaust gas G are in a gaseous state in a temperature range of 150 to 200 ° C. The bag filter 2 cannot be collected and passes through and is released into the atmosphere.

As shown in FIG. 5, the temperature of the exhaust gas G is reduced to 65 ° C. by a water-cooled cooling tower 3 that cools the exhaust gas G from the glass melting furnace in a saturated state by spraying water with water. In the recovery device for recovering with the wet-type electrostatic precipitators 4 and 4, 100% of gaseous boric acid and arsenic oxide are precipitated as a solid, but the moisture in the gas is saturated. Since the collected boric acids and arsenic oxides are dissolved in water due to the treatment, further drying equipment and the like are required in order to recover them as glass raw materials.

On the other hand, in a recovery apparatus having a cooling tower that cools exhaust gas by mixing only air , a large amount of cooling air is used. The load on the system increases. For example, in order to reduce exhaust gas having a temperature of 500 ° C. and a gas flow rate of 2,500 m ³ N / h to 65 ° C., if cooling air having a temperature of 35 ° C. is used, an air flow rate of 52,500 m ³ N / h will be obtained. As a result, the total amount of exhaust gas after cooling will be 22 times the original amount, and the load on the exhaust gas treatment equipment at the subsequent stage will be extremely large.

[0005]

[Problems to be solved by the invention]

 The purpose of the present invention is to make gaseous boric acids and arsenic oxides contained in the exhaust gas from a glass melting furnace precipitate as solids, collect them in a dry state, and make them recyclable as raw materials. The aim is to reduce the amount of released boric acids and arsenic oxides to improve the environment and to suppress the amount of exhaust gas after cooling to reduce the load on exhaust gas treatment equipment.

[0006]

[Means for Solving the Problems]

Specific component collection device in an exhaust gas according to the present invention, the exhaust gas is cooled by the cooling tower to precipitate gaseous specific component as a solid, a specific component recovery apparatus in the exhaust gas precipitator the specific component , a cooling tower to precipitate as a solid the gaseous boric acids and arsenic oxide compounds by cooling the exhaust gas containing boric acids and arsenic oxide compounds to 70 ° C. or less, the boric acids and arsenic oxide compounds from the exhaust gas in the dry state And a dust collector for collection.

When the temperature at which the exhaust gas is cooled in the cooling tower exceeds 70 ° C., boric acids and arsenic oxides hardly precipitate, and most of them are released to the atmosphere. Further, when collected by a wet electric precipitator or the like, the collected boric acids and arsenic oxides are dissolved in water. Therefore, to collect them as glass raw materials, additional processing equipment is required and the cost increases. In the present invention, it is important that the cooling tower cools exhaust gas containing boric acids and arsenic oxides to 70 ° C. or less. On the other hand, when the temperature of the exhaust gas is 60 ° C. or lower, the moisture in the exhaust gas starts to condense and it is difficult to precipitate in a dry state. In order to prevent boric acids and arsenic oxides from almost completely precipitating and preventing air pollution, it is preferable to use a cooling tower that cools the exhaust gas to 65 ° C or lower, and dry the boric acids and arsenic oxides that have precipitated. For recovery in the state, it is preferable to maintain the exhaust gas at 60 ° C. or higher for reuse as a glass raw material.

[0008] In the device for recovering specific components in exhaust gas according to the present invention, the cooling tower uses a water spray type cooling device and an air mixing type cooling device in combination to cool the exhaust gas containing boric acid and arsenic oxide to 70 ° C or less. It is characterized by being a water-cooled dry-type cooling tower that cools the water.

On the other hand, when the cooling tower is of a dry type, a very large amount of cooling air is used, so that the amount of exhaust gas after cooling becomes enormous and the load on the exhaust gas treatment equipment increases. On the other hand, in a cooling tower provided only with a water spray type cooling means, the exhaust gas contains a large amount of water, and the collected boric acids and arsenic oxides cannot be reused as glass raw materials as they are. The apparatus of the present invention recovers boric acid and arsenic oxide from the exhaust gas in a dry state, and uses water spray type cooling means and air mixing type cooling means together with the exhaust gas containing boric acid and arsenic oxide at 70 ° C. It is important to have a water-cooled and dry cooling tower that cools below.Preparing boric acids and arsenic oxides almost completely prevents air pollution, and also removes boric acids and arsenic oxides. In order to recover the glass in a dry state and reuse it as a glass raw material, it is preferable to provide a water-cooled dry-type cooling tower that cools to 60 to 65 ° C.

[0010] Further, in the device for recovering specific components in exhaust gas of the present invention, the dust collector has a blowing air temperature for protection of charging equipment exceeding its dew point and 70 ° C or less, and a heater capacity of 0 per unit surface area of the equipment. It has a heater for heating a hopper of 0.07 ± 0.005 kW / m ² and is a dry type electrostatic precipitator for collecting boric acids and arsenic oxides.

When the temperature of the blown air for protecting the insulator of the charging equipment in the dust collector is lower than the dew point, for example, when the water content in the exhaust gas is 15 vol% or lower, the dew point is 55 ° C. or less, condensation forms on the insulator of the charging equipment. Driving trouble. On the other hand, when the temperature exceeds 70 ° C., crystallization of boric acids and arsenic oxides is hindered, and dust adheres to the charging equipment, causing a short circuit phenomenon. Further, the frequency of maintenance increases, which is not practical. In this utility model, in order to achieve stable operation for a long period of time , it is important that the dry air precipitator has a blowing air temperature that exceeds the dew point and is 70 ° C or less for the protection of insulators in charging equipment. . If the heater capacity of the heater for heating the hopper is less than 0.065 kW / m ² per unit surface area of the equipment, solid boric acids and arsenic oxides precipitated from the exhaust gas are maintained in a sufficiently dry state. You can't do that. In this utility model, in order to realize the recovery of boric acids and arsenic oxides in a dry state, the heater capacity of the heater for hopper heating must be 0.07 ± 0.005 kW / m ² per unit surface area of the equipment. it is important that the dry electrostatic precipitator machine.

[0012]

[Action]

 The device for recovering specific components in exhaust gas according to the present invention having the above-described structure reduces the exhaust gas temperature to 70 ° C. or lower by a water-cooled drying-type cooling tower to sufficiently precipitate gaseous boric acids and arsenic oxides as solids. As a result, the concentrations of boric acid and arsenic oxide in the exhaust gas can be reduced to desired values or less, and boric acid and arsenic oxide that have become solid can be recovered in a dry state by a dry electric precipitator. It can be easily recycled as a raw material. In addition, the amount of exhaust gas after boric acid and arsenic oxide recovery treatment can be significantly reduced.

[0013]

[Embodiment of the invention]

 As shown in FIG. 1, the apparatus for recovering specific components in exhaust gas according to the present embodiment includes a water-cooled dry-type cooling tower 11 that cools exhaust gas from a glass melting furnace, and a dry-type electric dust collector 12. It is.

Next, FIG. 2 shows the configuration of the water-cooling / drying type cooling tower 11. The cooling tower 11 is provided with an inlet duct 13 for introducing exhaust gas G from the furnace, an outlet duct 14 for discharging exhaust gas, a spray nozzle 15 for spraying cooling water, a suction nozzle 16 for taking in air, And a discharger 17 for discharging solids such as boric acids and arsenic oxides. In the water cooling / drying type cooling tower 11 used in the present invention, the amount of water sprayed from the spray nozzle 15 for cooling the temperature of the exhaust gas G to 70 ° C. or lower, for example, 65 ° C., is determined by the amount of air from the suction nozzle 16. Is set so that the amount of water in the exhaust gas after mixing becomes 15 vol% or less, so that the water in the gas does not dew. At this time, the reaction time with the exhaust gas should be 6 seconds or more in the water spray section and 3 seconds or more in the air mixing section.

Next, the configuration of the dry electric dust collector 12 is shown in FIG. The dry electric dust collector 12 includes an inlet duct 18 for introducing exhaust gas, an outlet duct 19 for discharging exhaust gas, a dust collecting unit 20 for collecting deposited solids, and a discharging unit 21 for discharging collected solids. An insulator protection fan 22 and an insulator protection heater 23 for protecting the insulator, a hopper heater 24 for heating the hopper, and an external heat insulation 25. The dry-type electrostatic precipitator 12 used in the present utility model maintains the insulator protection air temperature at 65 ° C. so that the water content in the exhaust gas does not fall below 55 ° C., which is the dew point temperature of 15 vol%. A hopper heater 21 having a capacity of 0.07 kW / m ² with respect to the entire surface area is provided.

[0016] In a specific component collected in the exhaust gas using the device of FIG. 1, the flue gas from the glass melting furnace is lowered to 65 ° C. The exhaust gas temperature by water cooling dry cooling tower 11, the gaseous boric compound in the exhaust gas And arsenic oxides are precipitated as a solid. In this temperature range, boric acids and arsenic oxides are completely precipitated from the exhaust gas. The electrical resistivity of the solidified precipitate of boric acid and arsenic oxide is about 8 × 10 ⁹ Ω · cm, and can be easily collected by the dry electric dust collector 12 at the subsequent stage. The concentration of boric acids and arsenic oxides in the exhaust gas after treatment by the dry electrostatic precipitator 12 is 5 mg / m ³ N or less for boric acids as B ₂ O _{3 and} 0.01 mg / m for arsenic oxides as As. It can be ³ N or less. Further, by this method, the exhaust gas amount after cooling the exhaust gas having a temperature of 500 ° C., a gas amount of 2,500 m ³ N / h and a moisture amount of 67 vol% to 65 ° C. can be suppressed to 23,000 m ³ N / h.

In addition, the apparatus for recovering specific components in exhaust gas was able to exhibit the above-mentioned recovery performance with little maintenance over a long period of six months.

[0018]

[Effect of the invention]

According to the device for recovering specific components in exhaust gas according to the present invention , the gaseous boric acid and arsenic oxide contained in the exhaust gas are completely precipitated as a solid by treating the exhaust gas at a temperature of 70 ° C. or lower. Can be removed and the atmospheric environment improved. Further, by recovering the precipitated boric acids and arsenic oxides in a dry state, it is possible to easily recycle them as raw materials.

Further, according to the device for recovering specific components in exhaust gas of the present invention, the amount of exhaust gas can be suppressed by using both a water spray method and an air mixing method for cooling the exhaust gas, and the load on the exhaust gas treatment equipment can be reduced. As a result, the costs required for exhaust gas treatment can be significantly reduced.

Furthermore, in the specific component recovery apparatus of the present invention, the temperature of the blown air for protecting the insulator of the charging equipment is 55 ° C. or more and 70 ° C. or less, and the heater capacity is 0.07 / unit surface area of the equipment. It has a heater for heating the hopper of ± 0.005 kW / m ² and is equipped with a dry electric precipitator that collects boric acids and arsenic oxides. Therefore, boric acids and arsenic oxides in exhaust gas are dried. Thus, the present invention has an excellent effect in practical use that enables stable and complete recovery for a long period of time.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an apparatus for collecting specific components in exhaust gas according to the present invention.

FIG. 2 is a configuration diagram of a water-cooling / drying type cooling tower used in the recovery apparatus of the present invention.

FIG. 3 is a configuration diagram of the dry electric precipitator used in the recovery device of the present invention.

FIG. 4 is a configuration diagram of a conventional apparatus for collecting specific components in exhaust gas.

FIG. 5 is a configuration diagram of another conventional apparatus for collecting specific components in exhaust gas.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Water-cooled dry cooling tower 12 Dry electric dust collector 13, 18 Inlet duct 14, 19 Outlet duct 15 Spray nozzle 16 Suction nozzle 17 Discharger 20 Dust collecting part 21 Discharge part 22 Insulator protection fan 23 Insulator protection heater 24 Hopper heater 25 External heat insulation G exhaust gas

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[Procedure amendment]

[Submission Date] April 19, 2002 (2002.4.1
9)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Name of device] Device for collecting specific components in exhaust gas

[Utility model registration claims]

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an apparatus for collecting specific components in exhaust gas according to the present invention.

FIG. 2 is a configuration diagram of a water-cooling / drying type cooling tower used in the recovery apparatus of the present invention.

FIG. 3 is a configuration diagram of the dry electric precipitator used in the recovery device of the present invention.

FIG. 4 is a configuration diagram of a conventional apparatus for collecting specific components in exhaust gas.

FIG. 5 is a configuration diagram of another conventional apparatus for collecting specific components in exhaust gas.

[Description of Signs] 11 Water-cooling / drying type cooling tower 12 Dry electric dust collector 13, 18 Inlet duct 14, 19 Outlet duct 15 Spray nozzle 16 Suction nozzle 17 Discharger 20 Dust collector 21 Discharge part 22 Insulator protection fan 23 Insulator protection heater 24 Hopper heater 25 External insulation G Exhaust gas

[Procedure amendment]

[Submission date] May 14, 2002 (2002.5.1)
4)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Name of device] Device for collecting specific components in exhaust gas

[Utility model registration claims]

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an apparatus for collecting specific components in exhaust gas according to the present invention.

FIG. 2 is a configuration diagram of a water-cooling / drying type cooling tower used in the recovery apparatus of the present invention.

FIG. 3 is a configuration diagram of the dry electric precipitator used in the recovery device of the present invention.

FIG. 4 is a configuration diagram of a conventional apparatus for collecting specific components in exhaust gas.

FIG. 5 is a configuration diagram of another conventional apparatus for collecting specific components in exhaust gas.

[Description of Signs] 11 Water-cooling / drying type cooling tower 12 Dry electric dust collector 13, 18 Inlet duct 14, 19 Outlet duct 15 Spray nozzle 16 Suction nozzle 17 Discharger 20 Dust collector 21 Discharge part 22 Insulator protection fan 23 Insulator protection heater 24 Hopper heater 25 External insulation G Exhaust gas

Claims (3)

[Utility model registration claims] 1. Exhaust gas containing boric acids and arsenic oxides is
A method for recovering specific components in exhaust gas, comprising cooling to 0 ° C. or lower, depositing gaseous boric acid and arsenic oxide as a solid, and recovering boric acid and arsenic oxide from the exhaust gas in a dry state. 2. A specific component recovery device for exhaust gas, wherein the exhaust gas is cooled by a cooling tower to precipitate a gaseous specific component as a solid, and the specific component is collected by a dust collector. An apparatus for recovering specific components in exhaust gas, comprising: a water-cooled drying-type cooling tower that cools exhaust gas containing boric acids and arsenic oxides to 70 ° C. or lower by using a combined cooling means. 3. A specific component recovery device for exhaust gas, wherein the exhaust gas is cooled by a cooling tower to precipitate a gaseous specific component as a solid, and the specific component is collected by a dust collector. An air temperature exceeding the dew point and 70 ° C. or less, and a heater for heating the hopper having a heater capacity of 0.07 ± 0.005 kW / m ² per unit surface area of the device, and boric acids and arsenic oxides are removed. An apparatus for recovering a specific component in exhaust gas, comprising a dry electric precipitator for recovery.