KR19980013840A - A device for preventing accumulation of slurry particles (SDA reactors) - Google Patents

Abstract

The present invention relates to a process for removing acidic gases such as hydrogen chloride (HCl), sulfur dioxide (SO 2), hydrogen fluoride (HF) and volatile organic pollutants (VOC) among air pollutants contained in exhaust gases discharged after combustion In which the present invention relates to a semi-annular reactor.

The present invention solves the problems such as deterioration of the removal rate of contaminants caused by deposition and accumulation of the slaked lime slurry particles sprayed from the nozzle and clogging of the inside of the reactor, and ultimately, And a stable operation of the semi-dry type reactor is aimed at.

The essence of the present invention is to apply the principle of the air curtain, and the air shielding film prevents the slurry particles from adhering to and accumulating on the reactor wall surface. Described in detail, once the slurry particles are sprayed through the nozzle, a significant amount of the total spray slurry amount reaches the inner wall of the reactor without being completely dried, which causes accumulation. Therefore, an air film (air curtain) is formed at a proper flow rate and flow rate in the downward direction from the inner wall surface of the reactor to fundamentally block such a phenomenon.

Description

Slurry particle accumulation preventing device

The present invention relates to a process for removing harmful gases such as hydrogen chloride (HCl), sulfur oxide (SO 2), hydrogen fluoride (HF) and volatile organic pollutants (VOC) among air pollutants contained in exhaust gas discharged after combustion. And a slurry particle accumulation preventing device for preventing slurry particles from adhering to the wall surface of the reactor and accumulating the slurry particles using an air blocking membrane in the reactor.

The semi-dry process can be applied to the exhaust gas treatment facilities of incinerators, power plants, and other industrial facilities. It is a process that can treat harmful pollutants with high efficiency without generating wastewater even after exhaust gas treatment, Much research has been conducted to suppress the accumulation of sprayed slurry particles on the inner wall surface of the reactor, which increases the efficiency and becomes a problem during operation.

In general, the semi-dry reaction method is a method in which the slurry slurry particles sprayed from a nozzle are not sufficiently dried and accumulate and accumulate on the inner wall of the semi-cylindrical reactor, thereby greatly reducing the removal rate of contaminants. The reason is that the reaction time between the pollutant gas and the slurry particles is shortened due to the volume change inside the reactor, the second is the increase of the unreacted absorbent, and the third is the accumulation speed And the removal rate of the contaminants is lowered as a result, for example, because the surface of the reactor may be shut down.

DISCLOSURE Technical Problem The present invention has been made to overcome the above problems and to maximize the reaction utilization rate of the slaked lime slurry to achieve a high removal rate of contaminants and to stably operate the semi-dry type reactor. To prevent the phenomenon that the airblock is accumulated. Described in detail, once the slurry slurry particles sprayed through the nozzles reach the inner wall of the reactor without a significant amount of the total spray slurry amount being completely dried, this causes accumulation. Therefore, it has an object to form an air film at an appropriate flow rate and flow rate in the downward direction from the inner wall surface to fundamentally block such phenomenon.

1 is a perspective view of a semitransparent reactor.

2 is a plan view of a semi-annular reactor.

DESCRIPTION OF THE REFERENCE NUMERALS

1: Semi-planar reactor 2: Slurry spray nozzle

3: Exhaust gas introduction duct 4: Air injection tube for air curtain

5: air distribution pipe for air curtain 6: air curtain (air curtain) flow line

7: Air outlet for air curtain

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

1 is a schematic diagram of a semitransparent reactor, in which reference numeral 1 denotes a reactor body, reference numeral 2 denotes a slurry spray nozzle, and reference numeral 3 denotes an inlet duct of exhaust gas discharged after combustion, respectively.

Type reactor 1 in which the exhaust gas introduction duct 3 is formed at the center of the upper surface of the cylindrical semi-dry type reactor 1 and the slurry atomizing nozzle 2 is formed in the introduction duct 3, A plurality of air discharge openings 7 for air curtains are provided so as to coincide with the inner wall surface of the air distribution pipe 5 and the air discharge openings 7 for air curtains are connected to the air distribution pipe 5 for air curtains, Is connected to the air injection tube 4 for the air curtain.

The shape of the air outlet 7 for the air curtain can be a slit shape having a narrow width as seen in the drawing, or an air blowing nozzle or the like can be used. The number of the air discharge openings 7 is formed by slitting the entire circumferential direction of the air distribution pipe 5, that is, by using one or by arranging a plurality of the air distribution pipes 5 appropriately.

When the slurry is sprayed to the exhaust gas flowing through the exhaust gas introducing duct 3 through the slurry spray nozzle 2, a complicated vortex is formed at the lower part thereof, and a part of the spray slurry moves to the wall surface, (6). The air curtain 6 is made of air injected from the air outlet 7 and is made of air sprayed from a discharge port whose entire circumferential slit is formed, You can reach a third or a quarter of the area.

Injecting air into the air distribution pipe 5 is supplied through the circulating air injection pipe 4 at a low pressure using the treated gas in the latter half of the bag filter in the semi-dry type system. The reason for this is that when ambient air at room temperature is injected, the temperature inside the semi-cylindrical reactor is lowered, resulting in lowering the removal efficiency of the contaminants. In addition, the number and arrangement of the air injection pipes 4 are not limited to one direction, and a plurality of injection pipes may be used to suit the facility.

The air injected into the air injection pipe 4 flows through the air distribution pipe 5 and a plurality of air discharge openings 7 connected to the air distribution pipe 5, . Thus, an air film or air curtain is formed so that the slurry particles do not adhere to the inner wall surface of the semitransparent reactor.

The slurry particle accumulation preventing apparatus as described above prevents the accumulation of slurry particles sprayed through the nozzles from reaching the inner wall surface of the reactor in a state in which a considerable amount of the total spray slurry is not completely dried, An air film (air curtain) is formed at an appropriate flow rate and a flow rate, and this effect is fundamentally prevented.

Claims (2)

A semi-dry type reactor (1) for use in a semi-dry type process in which an exhaust gas introducing duct (3) and a slurry atomizing nozzle (2) are provided and the noxious gas contained in the exhaust gas is removed by sprayed slurry fine particles, A plurality of air discharge openings 7 for air curtains are connected to the upper surface of the reactor 1 and an air distribution duct 5 for air curtains is connected to the air discharge openings 7, And an air injection pipe (4) for an air curtain is connected to the distribution pipe (5). The slurry particle accumulation preventing apparatus according to claim 1, wherein the air outlet (7) is formed in a hollow slit shape or a nozzle shape.