KR200290636Y1 - system for processing burned-exhausting fumes using a integral unit of semi dry reactor and bag filter - Google Patents

Abstract

The present invention relates to a combustion exhaust gas treatment system in which a semi-dry reaction tower and a bag filter are integrated, and utilizes the high temperature combustion exhaust gas discharged from an incinerator as waste heat in a waste heat boiler to cool the treated exhaust exhaust gas in an integrated semi-dry reaction. After passing through the tower and the bag filter unit 100, and then to the combustion exhaust gas treatment system for discharging the combustion exhaust gas filtered and discharged from the integrated semi-dry reaction tower and bag filter unit 100 to the atmosphere through the chimney by a blower. It is.

Description

System for processing burned-exhausting fumes using a integral unit of semi dry reactor and bag filter}

The present invention is for the removal of acidic gases and harmful gases such as SOx, HCl, HF, H ₂ S, dioxins, heavy metals, dusts, etc. The present invention relates to a combustion exhaust gas treatment system integrating a semi-dry reaction tower and a bag filter.

Existing combustion exhaust gas treatment system, as shown in Figure 1, by utilizing the combustion exhaust gas discharged from the incinerator (1) as waste heat in the waste heat boiler (2) to cool the high-temperature combustion exhaust gas to collect gaseous dioxin in the bag filter Made of particulate dioxins that can be cooled, and then the cooled combustion exhaust gas passes through a semi-dry reaction tower (3) in which the hydrated lime suspension is finely sprayed with compressed air, so that the main pollutants in the combustion exhaust gas are acid gases, heavy metals, Before the SOx, HCl, HF, H ₂ S, other harmful gases, and the like, the exhaust gas from which the contaminants have been removed are supplied to the bag filter 5, between the semi-dry reaction tower 3 and the bag filter 5. An activated carbon injector 4 connected to a duct disposed in the chamber and injecting activated carbon (ACTIVATED CARBON), makes contact with the activated carbon in the duct and causes them to react, thereby removing the contaminants from the combustion exhaust. Toxic organic compounds such as dioxins, FURAN, heavy metals, etc. contained in the gas are removed, and the combustion exhaust gas from which the toxic organic compounds are removed passes through the bag filter 5, thereby generating The dry reaction product, dust, and particulate matter such as dioxins and heavy metals are removed to allow combustion exhaust gas, which is cleaned by the blower 6 to the chimney 7, to be discharged to the atmosphere.

In FIG. 1, an activated carbon injector 4 is disposed between the semi-dry reaction tower 3 and the bag filter 5 to remove toxic organic compound substances contained in the combustion exhaust gas by contacting activated carbon with the combustion exhaust gas. The activated carbon injector 4 may be disposed between the waste heat boiler 2 and the semi-dry reaction tower 3, or may be disposed downstream in the reaction reactor 3, and The slaked lime suspension liquid in the reaction tower 3 is coalesced with the injection nozzle provided to finely spray the compressed air together with the slaked lime suspension liquid, the compressed air, and the activated carbon in the semi-dry reaction tower 3 by the spray nozzle. It can be done.

When the reaction product generated by reaction with the noxious gas in the semi-dry reaction tower is not sufficiently dried, it tends to accumulate on the inner wall of the semi-dry reaction tower, and if the amount of slaked lime slurry sprayed through the nozzle is increased to increase the removal efficiency, As the temperature of the exhaust gas flowing into the filter is lowered, moisture is condensed and clogging occurs in the fine gap of the filter bag. In order to prevent this, the automatic valve controlling the amount of slaked lime slurry should be configured to be controlled in proportion to the outlet temperature of the semi-dry reaction tower, and the insulation construction and heating system should be installed to prevent condensation which may occur when the operation is stopped. It should also be installed and the regularly fixed slaked lime slurry should be removed.

Accordingly, the conventional combustion exhaust gas treatment system has a large installation area and a heat tracing system (heat suppression to the air (temperature) released to the air) to prevent the corrosion caused by the condensation of the equipment and the increase in the installation and manufacturing costs. To minimize the heat loss in the pipe or tank, and to maintain the temperature of the fluid and to prevent freezing, etc.) and to increase the power cost due to the installation of each driving system.

The present invention is devised to solve the above problems, by integrating the semi-dry reaction tower and the bag filter can greatly reduce the installation area and installation and manufacturing cost, and can reduce the power cost by unifying separate heat tracing system and driving system, respectively. It is an object of the present invention to provide a combustion exhaust gas treatment system in which a semi-dry reaction tower and a bag filter are integrated to enable installation of economical equipment as a whole.

1 is a process diagram of a conventional combustion exhaust gas treatment system,

2 is a front view of an integrated semi-dry reaction tower and a bag filter unit according to an embodiment of the present invention;

3 is a plan view of the integrated semi-dry reaction tower and bag filter unit of FIG.

<Brief description of symbols for the main parts of the drawings>

1: incinerator 2: waste heat boiler

3: Semi Dry Reactor 4: Activated Carbon Injector

5: bag filter 6: blower

7: chimney 8: combustion exhaust gas inlet pipe

9: combustion exhaust gas outlet pipe 10: bag house

11: filter bag 12: spray nozzle

13: clean gas chamber 14: rotary valve

15: dust box

In order to achieve the above object, the present invention utilizes a high temperature combustion exhaust gas discharged from an incinerator as waste heat in a waste heat boiler and cools it by passing the cooled treatment exhaust gas through an integrated semi-dry reaction tower and a bag filter unit. In the combustion exhaust gas treatment system which discharges the combustion exhaust gas filtered and discharged from the integrated semi-dry reaction tower and the bag filter unit to the atmosphere through a chimney by a blower, wherein the integrated semi-dry reaction tower and the bag filter unit are mounted on the base frame. The fixed supported cross section comprises a circular hopper shaped bag house; The bag house is a cyclone-type semi-dry reaction tower with a part embedded in the center of the upper half of the bag house and the other part penetrating through the upper part of the bag house, and having an open bottom. It is integrally provided in the state coaxial with a center vertical axis line; The semi-dry reaction column has an inlet pipe having one side connected to the combustion exhaust gas outlet side of the waste heat boiler, the other end connected to the combustion exhaust gas inlet side of the upper end of the reaction tower, and a central portion of the upper side of the reaction tower. And a spray nozzle which penetrates and is mounted on the reaction tower and injects at least one of slaked lime suspension liquid and activated carbon into the combustion exhaust gas and reacts with the combustion exhaust gas while the central vertical axis is coaxial with the central vertical axis. Doing; At the top of the bag house and on the outer circumference of the semi-dry reaction tower, a ring-shaped clean gas chamber is partitioned so as not to communicate with the semi-dry reaction tower and the bag house, and is fixed integrally with the semi-dry reaction tower and the bag house. There is; The clean gas chamber has a plurality of through holes formed on the bottom thereof at predetermined intervals in a circumferential direction and a radial direction, and the plurality of through holes have a plurality of filter bags corresponding to the plurality of through holes. The plurality of filter bags are fixed to the bottom surface of the clean gas chamber through an open end; The filter bag extends in a direction parallel to the central vertical axis and extends to a position where the closed end is less than the level of the lower end of the semi-dry reaction column; The bag house is connected at its lower end to one end of the discharge pipe in which the rotary valve is interposed, and the other end of the discharge pipe is connected to the dust box; The clean gas chamber is provided with an outlet pipe whose one end is connected to the outlet side of the clean gas chamber and the other end is connected to the inlet side of the blower.

Hereinafter, an embodiment of a combustion exhaust gas treatment system incorporating a semi-dry reaction tower and a bag filter according to the present invention will be described with reference to FIGS. 2 and 3.

The combustion exhaust gas treatment system of the present embodiment uses the high temperature combustion exhaust gas discharged from the incinerator not shown in FIGS. 2 and 3 as the waste heat in the waste heat boiler not shown in FIGS. After passing the combustion exhaust gas through the integrated semi-dry reaction tower and the bag filter unit 100, the combustion exhaust gas filtered and discharged from the integrated semi-dry reaction tower and the bag filter unit 100 is not shown in FIGS. 2 and 3. Blower is discharged to the atmosphere through a chimney not shown in FIGS. 2 and 3.

Here, incinerators, waste heat boilers, blowers, and chimneys not shown in FIGS. 2 and 3 have the same configuration as those provided in the conventional combustion exhaust gas treatment system shown in FIG. 1, and are omitted from FIGS. 2 and 3. In the following description, detailed description is omitted.

The integrated semi-dry reaction tower and the bag filter unit 100 includes a hopper-shaped bag house 10 having a circular cross section fixed to a base frame (not shown), as shown in FIGS. 2 and 3. Doing.

The bag house 10 has a cyclone-type semi-dry reaction tower 3 having a part embedded in the center of the upper half of the bag house 10 and the other part of which is sheathed through the top of the bag house 10, The central vertical axis is coaxial with the central vertical axis of the bag house 10, and is provided integrally.

The semi-dry reaction tower 3 has one side connected to the combustion exhaust gas outlet side of the waste heat boiler, and the other side connected to one side of the combustion exhaust gas inlet side of the upper end of the reaction tower 3, and discharges the combustion exhaust gas discharged from the waste heat boiler. An inlet tube 8 that flows into the semi-dry reaction tower 3, and is mounted to the reaction tower 3 through a central portion of the upper surface of the reaction tower 3, thereby The injection nozzle 12 which injects the slaked lime suspension liquid into the combustion exhaust gas which flows into the said reaction tower 3 via the reaction, and makes the combustion exhaust gas and the slaked lime suspension liquid react, and the center vertical axis line is coaxial with the said center vertical axis line, Equipped.

In addition, the semi-dry reaction tower 3 is open at its lower end to discharge combustion exhaust gas introduced through the inlet pipe 8, so that the semi-dry reaction tower 3 is connected to the inside of the bag house 10. Communicating.

At the top of the bag house 10 and on the outer circumference of the semi-dry reaction tower 3, a ring-shaped clean gas chamber 13 is partitioned so as not to communicate with the semi-dry reaction tower 3 and the bag house 10. It is fixed to the semi-dry reaction tower 3 and the bag house 10 integrally.

The clean gas chamber 13 has a plurality of through holes (not shown) formed on the bottom thereof at predetermined intervals in the circumferential direction and the radial direction, and the plurality of through holes correspond to the plurality of through holes. Open side ends of the plurality of filter bags 11 penetrate, and the plurality of filter bags 11 are fixed to the bottom surface of the clean gas chamber 13.

The filter bag 11 extends in a direction parallel to the central vertical axis, and extends to a position where the closed end thereof falls short of the level of the lower end of the semi-dry reaction tower 3.

In addition, the bag house 10 discharges dry reaction products, dust, and particulate matter such as dioxins and heavy metals in the combustion exhaust gas that do not pass through the filter bag 11 to the dust box 15 in a natural dropping manner. The lower end is connected to one end of the discharge pipe in which the rotary valve 14 is interposed, and the other end of the discharge pipe is connected to the dust box 15, so that the inner space of the bag house 10 is The dust box 15 and the rotary valve 14 can be selectively communicated with each other.

In addition, one end of the clean gas chamber 13 is connected to the outlet side of the clean gas chamber 13 in order to discharge the clean combustion exhaust gas filtered by the filter bag 11 to the blower side disposed downstream. The other end is provided with the outlet pipe 9 connected to the inlet side of the blower.

Combustion exhaust gas treatment system 100 integrating the semi-dry reaction tower and the bag filter, the activated carbon injector (not shown) and the waste heat boiler to remove the toxic organic compounds contained in the combustion exhaust gas by contacting the activated carbon to the combustion exhaust gas It may be disposed between the semi-dry reaction tower (3), or may be disposed downstream in the reaction reaction tower (3), it is provided in the reaction reaction tower (3) to be finely sprayed with the lime air suspension liquid compressed air It is also possible to coalesce with the present injection nozzle to cause the slaked lime suspension, compressed air, and activated carbon to be injected together in the semi-dry reaction tower 3 by the injection nozzle.

The combustion exhaust gas treatment system 100 integrating the semi-dry reaction tower and the bag filter configured as in the above-mentioned embodiment introduces the combustion exhaust gas discharged from the waste heat boiler into the semi-dry reaction tower 3 via the inlet pipe 8. Reacts with the introduced flue-gas and the slaked lime slurry sprayed through the spray nozzle 12 installed on the semi-dry reaction tower 3 to treat harmful gases, acid gases and various other particulate matters, and dry granules formed as reactants. The substances are collected by the rotary valve 14 and collected in the lower dust box 15 by gravity.

The treated combustion exhaust gas is collected through the filter bag 11, and particulate matter is collected and stored in the lower dust box 15.

The clean combustion exhaust gas from which noxious gases and particulate matters are removed is discharged through the chimney through the blower through the outlet pipe 9 connected to the clean gas chamber 13 through the clean gas chamber 13.

The combustion exhaust gas treatment system integrating the semi-dry reaction tower and the bag filter configured as described above can greatly reduce the installation area of the incineration plant, and thus reduce the installation and manufacturing costs. In addition, the combustion exhaust gas treatment system integrating the semi-dry reaction tower and the bag filter of the present invention is possible to unify the construction of the insulation and heating system of each of the semi-dry reaction tower and the bag filter, thereby reducing operating costs and power costs.

Claims (2)

The high temperature combustion exhaust gas discharged from the incinerator is cooled by utilizing the waste heat boiler as waste heat, and the cooled exhaust gas is passed through the integrated semi-dry reaction tower and the bag filter unit 100, and then the integrated semi-dry reaction tower and In the combustion exhaust gas treatment system for exhausting the combustion exhaust gas filtered and discharged from the bag filter unit 100 to the atmosphere through the chimney by a blower, The integrated semi-dry reaction tower and the bag filter unit 100 include a hopper shaped bag house 10 having a circular cross section fixed to the base frame; The bag house 10 is a cyclone-type semi-dry reaction tower (3) in which a part is built in the center of the upper half of the bag house 10 and the other part is penetrated through the upper part of the bag house 10 so that the bottom is opened. ) Is integrally provided with the central vertical axis coaxial with the central vertical axis of the bag house 10; The semi-dry reaction column 3 has an inlet pipe 8 having one side connected to the combustion exhaust gas outlet side of the waste heat boiler and the other side connected to the combustion exhaust gas inlet side of the upper end of the reaction column 3. And an injection nozzle 12 mounted through the central portion of the upper surface of the reaction tower 3 and mounted to the reaction tower 3 to inject at least one of slaked lime suspension and activated carbon into the combustion exhaust gas to react with the combustion exhaust gas. ), With its center vertical axis coaxial with the center vertical axis; At the top of the bag house 10 and on the outer circumference of the semi-dry reaction tower 3, a ring-shaped clean gas chamber 13 is partitioned so as not to communicate with the semi-dry reaction tower 3 and the bag house 10. It is fixed to the semi-dry reaction tower (3) and the bag house (10) integrally; The clean gas chamber 13 has a plurality of through holes formed on the bottom thereof at predetermined intervals in a circumferential direction and a radial direction, and the plurality of through holes have a plurality of corresponding numbers with the plurality of through holes. The plurality of filter bags (11) are fixed to the bottom surface of the clean gas chamber (13) through the open side end of the filter bag (11); The filter bag 11 extends in a direction parallel to the central vertical axis and extends to a position where the closed end thereof falls short of the level of the lower end of the semi-dry reaction tower 3; The bag house 10 has a lower end connected to one end of the discharge pipe in which the rotary valve 14 is interposed, and the other end of the discharge pipe is connected to the dust box 15; The semi-dry reaction column is characterized in that the clean gas chamber 13 has an outlet pipe 9 having one end connected to the outlet side of the clean gas chamber 13 and the other end connected to the inlet side of the blower. Combustion exhaust gas treatment system that integrates the back filter. The combustion exhaust gas treatment system (100) according to claim 1, wherein an activated carbon injector is disposed between the waste heat boiler and the semi-dry reaction tower (3), or in the reaction reactor (3). A combustion exhaust gas treatment system incorporating a semi-dry reaction tower and a bag filter, which are disposed downstream.