KR100216901B1 - Apparatus for flyash - Google Patents

Abstract

The present invention relates to a coal ash recovery apparatus for recovering unburned carbon contained in the coal ash discharged from the boiler system for burning coal.

이하의 순수 플라이 애쉬 분말을 침전 집진시켜주는 사이클론 집진장치(15)와; 상기 집진장치를 통과한 공기가 포함한 잔류 플라이 애쉬를 대표입경 2

이하의 미세분말로 정제하는 백 필터(16)와; 상기 집진장치와 백 필터를 거쳐 정제된 순수 플라이 애쉬를 토출공기를 통해 석탄회저장통으로 이송시키는 이송장치와; 상기 분류기를 통해 분리된 미연탄소를 저장 배출시키는 폐분배출기(20)와; 상기 집진장치와 백 필터의 토출부에 설치되어 집진 된 순수 플라이 애쉬분말을 이송공정에 토출시키는 더블버퍼(담파)(17)를 포함하여 구성됨을 특징으로 하는 석탄회 회수장치.In the coal ash recovery device, a sorter (14) for receiving a predetermined amount of fly ash from the raw material supply device to disperse it through an air suction method to separate the unburned carbon and pure fly ash; Representative particle 4 by introducing the fly ash that passed through the classifier

Cyclone dust collecting device 15 for precipitating the pure fly ash powder of the following; Representative particle diameter of the residual fly ash containing the air passing through the dust collector 2

A bag filter 16 for purifying with the following fine powder; A transfer device for transferring the purified pure fly ash through the dust collector and the bag filter to a coal ash storage tank through discharged air; A waste fraction discharger 20 for storing and discharging unburned carbon separated through the sorter; And a double buffer (damping wave) 17 installed in the dust collecting device and the discharge part of the bag filter to discharge the collected pure fly ash powder in a transfer process.

Description

Fly Ash Recovery Device

The present invention relates to a coal ash recovery apparatus for recovering unburned carbon contained in the coal ash discharged from the boiler system for burning coal.

Fly Ash is a by-product that remains in the form of spherical fine powder after coal (anthracite and bituminous coal) is burned in a coal-fired power plant. Such fly ash has been generally landfilled but its treatment is gradually As it became difficult, the developed countries have been actively researching and developing recycling technologies as part of coal ash disposal measures since the 1950s.As a result, fly ash is used in concrete to improve the properties of concrete and to efficiently use industrial by-products. It was used.

In Korea, a significant amount of coal ash was disposed of in coastal landfills before the 1980s, but recently, ready-mixed fly ash is used by ready-mixed fly ash from the viewpoint of quality improvement, economic construction as an alternative to cement, and recycling industrial waste. .

Therefore, a device for screening materials contained in fly ash has been developed. The fly ash, which is a mixture of unburned carbon, carbon, and other materials, as shown in FIG. The blower fan 3 attached to one side of the transfer pipe 2 stored in the ash storage tank 1 and communicating with the discharge port of the storage tank is operated so that the high-pressure primary discharge air is discharged into the transfer pipe. As it goes, it is transported to the sorter with the fly ash in the storage tank.

Then, the fly ash flowed into the classifier 4 flows back from the high-pressure air flow due to the supply of the secondary discharge air, and unburned carbon or carbon is dropped into the waste powder storage tank 5, and the purified fly ash is again a dust collector. The fly ash refined by introducing the mixed air from the conduit provided into the cyclone 6 and extending in a tangential direction to the fuselage, for example, and giving a swirling motion to the mixed air downward. The air collected at this time is composed of a series of waste cycles which are again conveyed to the other side of the brower fan, and after removing the unburned carbon of the fly ash, the purified fly ash is stored in the output storage unit 7.

The existing method having the above configuration is a closed circuit method and adopts a feeding method, so that the sorting efficiency is lowered because a certain amount of fine and refined water is circulated continuously in the air, and the raw material dispersion area in the classifier is small. As the raw material is sorted by the secondary discharge pressure and the air volume, the secondary air volume and the wind pressure change relatively according to the change of the raw material supply volume, the primary discharge air volume and the wind pressure, thereby reducing the sorting efficiency. Not only was it impossible to control the discharge air volume, but the fly ash unrefined carbon refining rate was considerably higher than 5% of the ignition loss prescribed in KS L5405, which has been difficult to be used in cement or other materials as a raw material through fly ash.

In order to solve the above problems, the present invention substantially improves the structure of the classifier that removes unburned carbon contained in the fly ash, so that the dispersion of the vortex form in all directions when the fly ash is dispersed by the suction state of the blower fan. As a result, the unburned carbon can be separated smoothly due to the increase of the injection efficiency and discharged through several cyclones to separate the fly ash fraction and air to capture all the pure powder fractions. Low ash content improves screening efficiency, and unburned carbon refining rate is lower than 5% of ignition loss prescribed in KS L5405, which improves the quality of raw materials for cement or other materials. It is an object to provide a carbon removal device.

1 is a conventional coal ash recovery process.

Figure 2 is a detailed view of the coal ash recovery device of the present invention.

* Explanation of symbols for main parts of the drawings

11: storage tank 13: storage hopper

14: classifier 15: cyclone dust collector

16: bag filter 17: double buffer (damping wave)

18: blower fan 19: coal ash storage bin

20: waste powder container

In order to achieve the above object, the present invention is provided with a predetermined amount of fly ash from the raw material supply process is divided by the air suction method to separate the unburned carbon and pure fly ash;

이하의 순수 플라이 애쉬 분말을 침전 집진시켜주는 집진장치와;Representative particle size by introducing fly ash that passed through classifier

A dust collecting device for precipitating and collecting the following pure fly ash powder;

이하의 미세분말로 정제하는 백 필터와;Representative particle diameter of the residual fly ash containing the air passing through the dust collector 2

A bag filter for purifying with the following fine powder;

A transfer device for transferring the purified pure fly ash through the dust collector and the bag filter to a coal ash storage tank through discharged air;

A waste fraction discharger for storing and discharging unburned carbon separated through the sorter;

A double buffer (damping wave) installed in the discharge unit of the dust collector and the bag filter to discharge the collected pure fly ash powder in a transfer process;

And the like.

Further, in the present invention, in order to purify the fly ash of high purity during the waste powder discharging process, a sorter, a dust collecting device, and a transfer device are installed again one by one (one more) to collect a small amount of fly ash contained in the waste powder. Have different features.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Attached FIG. 2 shows a detailed view of the coal ash recovery apparatus according to the present invention.

That is, the fly ash raw material transferred from the thermal power plant is stored in the storage tank 11, and a predetermined amount of the raw material is placed up through the back elevator 12 and stored in the storage hopper 13 to the classifier described later. The raw material feeder is installed to feed the raw materials.

A classification process for separating a predetermined amount of fly ash raw material into unburned carbon and pure fly ash is provided, and the fly ash refining process is performed through the classifier 14 filed in Patent Application No. 12233.

The sorter 14 has a plurality of guide bens are fixedly formed in the air inlet, the impingement plate is formed by being connected to the input pipe for supplying raw materials,

As the rotor directly connected to the rotating shaft of the motor rotates at a high speed inside the guide ben, coarse particles having large particles are dropped downward and sent to a waste powder discharge process to be described later, and the refinery is composed of several cyclones. Transfer it.

As such, the fraction separated through the classifier is moved to a dust collector, and the dust collector introduces the fraction from a conduit extending in a tangential direction with respect to the fuselage.

By rotating the air through a blower to the bag filter to be described later, only the pure water is collected and precipitated to form a plurality of cyclones (15) stored in the double buffer (damping wave) 17 formed in the rear.

Then, the air discharged through the cyclone, which is the dust collector, is moved to the bag filter again. This bag filter has several filters 16 installed in an upright state and filters out a small amount of fine powder contained in the air. Only pure air is discharged and traces of fines are stored on the lower double buffer 17.

A blower fan 18 is installed at one side of the bag filter to generate wind to obtain a blowing state.

The transfer device for transferring the coal fly ash storage container 19 through the discharge air to the purified pure fly ash through the dust collecting process and the bag filter process is installed.

The conveying device is attached to a dedicated blower fan to one side in the form of a pipe having a predetermined length, the upper buffer is connected to the double buffer for storing the dust connected through the dust collector and the bag filter and discharge it, the double buffer ( Peel discharged from Dampa) is transferred to a coal ash storage tank that stores high-purity refined matters by blowing a dedicated blower fan.

After the separation of the fly ash contained in the ash as described above, the crude powder is moved to the waste discharger is installed in connection with the lower part of the sorter, the waste powder storage bin (20) constituting the waste discharger is a small amount containing the waste in the lower portion It is a coal ash recovery device provided with a dust collector, a bag filter, and a conveying device for re-filtering refined fractions.

이하의 입자크기까지도 석탄회를 선별회수하여 사용할 수 있으며, 소망하는 폐분의 잔류 정분을 대부분 제거하여 결국에는 순수한 페분만을 매립하게 되어 플라이 애쉬의 매입량 감소로 인한 원가를 절감하는 효과가 있습니다.As described above, the present invention is not only easy to separate the pressure unburned carbon in the process because the new air is always forced smoothly by the rotation of the air intake rotor of the classifier 14, at least depending on the size of the particles in the bag filter process, 4

Coal ash can be recovered and used even for the following particle sizes, and most of the residual fractions of the desired waste are removed and eventually only the pure waste is reclaimed.

Claims (2)

In the coal ash recovery device, a sorter (14) for receiving a predetermined amount of fly ash from the raw material supply device to disperse it through an air suction method to separate the unburned carbon and pure fly ash; Representative particle 4 by introducing the fly ash that passed through the classifier

Cyclone dust collecting device 15 for precipitating the pure fly ash powder of the following; Representative particle diameter of the residual fly ash containing the air passing through the dust collector 2

A bag filter 16 for purifying with the following fine powder; A transfer device for transferring the purified pure fly ash through the dust collector and the bag filter to a coal ash storage tank through discharged air; A waste fraction discharger 20 for storing and discharging unburned carbon separated through the sorter; And a double buffer (damping wave) 17 for discharging the pure fly ash powder collected in the discharging unit of the dust collecting device 14 and the bag filter 16 in a transfer process. The coal ash recovery apparatus according to claim 1, wherein the coal ash recovery apparatus is sequentially installed (one more) in order to purify the fly ash of high purity in the waste dust discharger.

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