KR100930514B1 - High efficiency hydrochloric acid capture device and method - Google Patents

Abstract

The present invention relates to a high efficiency hydrochloric acid capture device and method. In particular, the present invention provides a housing having a predetermined space therein, a pre-demister for removing coarse water particles and hydrochloric acid particles, and lowering the temperature of the exhaust gas to make the hydrochloric acid component in the vapor state into liquid particles. It consists of a configuration including a low temperature spray unit for increasing the size, and a main demister for removing liquid particles. Accordingly, the hydrochloric acid concentration is to be lowered below the legal limit.

Liquid Flow, Particle Composition, Liquid Particles, Demister, Water Drop

Description

{A device and method for seizing hydrochloric acid with height efficiency}             

1 is a perspective view illustrating a screen collecting state of a conventional hydrochloric acid component particle.

Figure 2 is a side view showing a screen collecting state of the conventional hydrochloric acid component particles.

Figure 3 is a side view showing the screen collection state when forming a liquid flow of conventional hydrochloric acid particles.

Figure 4 is a perspective view of the hydrochloric acid collection device according to the present invention.

5 is a perspective view showing an operating state of the low-temperature spray unit for collecting hydrochloric acid according to the present invention.

Figure 6 is a perspective view of a hydrochloric acid collection device according to the present invention.

* Description of the symbols for the main parts of the drawings *

1 ... Free Demister 4 ... Header

7 ... Main Demister 13 ... Housing

14 Low Temperature Spray Unit 101 Particle Composition

103 Liquid flow 107 Liquid particles

The present invention relates to a high-efficiency hydrochloric acid capture device and method for reducing the hydrochloric acid concentration of the waste gas discharged to the chimney in the cold rolling mill, the present invention, in particular, to remove the housing and the coarse water particles and hydrochloric acid particles having a predetermined space inside The hydrochloric acid concentration value includes a pre-demister, a low temperature spraying unit for lowering the temperature of the exhaust gas to make the hydrochloric acid component in the vapor state into a liquid particle, and increasing the size of the liquid particle, and a main demister for removing the liquid particle. The present invention relates to a high efficiency hydrochloric acid capture device and method that can be lowered below the legal limit.

In general, hydrochloric acid used for strip cleaning in cold rolling and plating processes is hot, so fumes are generated, and iron oxide is separated from iron oxide contained in spent hydrochloric acid and regenerated hydrochloric acid. Inevitably, combustion gas is generated along with the method of separating by combustion.

As described above, the fume and the combustion gas generated during the treatment of hydrochloric acid contain a large amount of hydrochloric acid, which strictly regulates the concentration of hydrochloric acid in the exhaust gas (fog or combustion gas).

Therefore, the situation is finally discharged to the chimney after passing through a scrubber to remove the chlorine component contained in the exhaust gas.

However, the gas passing through the scrubber is insufficient to remove the hydrochloric acid component, the exhaust gas discharged to the chimney immediately after passing the scrubber is 70 ~ 80 ℃ high temperature and contains a large amount of moisture particles and very high humidity Hydrochloric acid concentration is relatively high. In addition, the hot exhaust gas has a lot of water vapor when the exhaust gas is discharged into the chimney causes another environmental problem.

In addition, in order to solve this problem, currently, when installing a TMS (chimney automatic measuring device) in the chimney, when the water particles are included in the measurement, the hydrochloric acid concentration more than the actual concentration appears often exceeds the regulation value.

As described above, in the apparatus for removing hydrochloric acid using a scrubber, as shown in FIGS. 1 to 3, when a general simple filter is applied to remove water particles, a liquid flow 103 is generated to obstruct the flow of waste gas. This greatly lowering phenomenon occurs.

In the case of the simple filter, as the waste gas passes through the filter, the coarse particle component 101 adheres to the filter surface, and the particles gradually grown during this process flow down to the bottom by weight, and the particle component gradually decreases. As it descends, the liquid flow 103 forms a constant flow.

However, the liquid flow 103 blocks pores 102 in the lower part of the filter, and makes it impossible for the waste gas to pass through, thereby preventing the waste gas from passing through the lower part of the filter in which the liquid flow 103 is formed.

As a result, the waste gas passage is narrowed, so that the flow rate 104 is rapidly increased, the flow is high speed, and the particles to be caught in the filter simply pass through the filter, and the removal efficiency of the water particles is significantly reduced.

In addition, a portion of the coarse particles can be removed so that fine particles and water vapor cannot be removed.

Accordingly, it is an object of the present invention to provide a high efficiency hydrochloric acid capture device and method which can make the effect of removing hydrochloric acid below a regulated value and can significantly reduce the concentration of the exhaust gas.

The above objects include a housing having a predetermined space therein and a funnel connected to the bottom, and a pre-demister for removing coarse water particles and hydrochloric acid particles primarily; A low temperature spraying unit which lowers the temperature of the exhaust gas to make the hydrochloric acid component in the vapor state into a liquid particle and then increases the size of the liquid particle; A main demister for removing liquid particles; The pre demister, the low temperature spraying unit, and the main demister can be achieved by the high efficiency hydrochloric acid capture device according to the present invention, characterized in that they are sequentially installed from the inlet to the outlet where the waste gas is sucked into the housing.

The demisters are inclined at 45 °, and the guide plate is attached to the inlet side of the gas in the form of a plate with a filter.

The low temperature spray unit comprises a header connected to the outside and the pipe, a plurality of branch pipes connected downward of the header, and a plurality of nozzles attached to each branch pipe and installed to face the waste gas flow direction.

Alternatively, the objectives as described above include the steps of firstly filtering waste gas into the interior of the housing; Passing the primarily filtered waste gas through the cooling water in the mist state; Cooling the waste gas into a liquid state; It can also be achieved by a high-efficiency hydrochloric acid capture method according to an alternative embodiment of the present invention, characterized in that it comprises the step of removing the hydrochloric acid particles in the liquid state.

In the step of passing the waste gas through the cooling water, the cooling water is sprayed through the nozzle to make a mist state and then sprayed to face the flow of the waste gas.

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

As shown in Figures 4 to 6, the present invention has a pre-demister (1) from the inlet 10 side in which waste gas (fume or combustion gas) is sucked into the outer housing, the cold spray unit 14 in the middle portion ) Is installed, and the main demister 7 is sequentially installed at the outlet 11 side. In addition, the pre-demister (1) is inclined 45 °, in the form of a plate with a built-in filter, the guide plate (3) is attached.

And, the cold spray unit, the header 4 is connected to the upper, the header 4 is connected to the outside and the pipe, several branch pipes 5 are attached to the bottom of the header 4, each branch pipe A plurality of nozzles 6 are attached to 5 in the direction opposite to the waste gas flow direction.

In addition, the said main demister 7 is comprised by the same shape as the said pre-demister 1. On the other hand, the housing 13 is installed so as to surround the above-described pre demister, low temperature spray unit, the main demister, the funnel 12 is installed in the lower portion of the housing 13 to collect the liquid, the funnel Denoted at 12 is a configuration in which a pipe for discharging the collected liquid to the outside is connected.

Referring to the operation of the present invention made of such a configuration as follows.

4 to 6, first, when waste gas flows in through the inlet 10 of the hydrochloric acid collection device, the coarse particles (10, 20 µm or more) are primarily filtered by the pre-demister 1 by a filter action. The particles attached to the filter plates 2 and 8 are removed, and then flow down.

Then, the liquid that grows and flows down is collected in the guide plate 3 before forming the liquid flow 103 and then falls into the lower funnel 12 in the form of water droplets 105.

Here, the role of the guide plate 3 is to prevent the liquid flow is generated.

In addition, installing the filter plate (2) (8) inclinedly may form a liquid flow before reaching the guide plate (3) when very coarse particles are produced. Since the filter plate is inclined, very coarse particles immediately fall into the funnel 12 by its weight before coming down the filter plate, thereby preventing the liquid flow from being generated in the filter plate.

Subsequently, the waste gas passing through the pre-demister passes through the low temperature spraying unit 14, and the operation in the low temperature spraying unit lowers the temperature of the hot waste gas with the low temperature cooling water to below the dew point temperature so that the hydrochloric acid in the gaseous state. The component is brought into the liquid particle 107 state, thereby making the particles larger.

In addition, in the low temperature spraying unit, the low temperature cooling water supplied from the outside is sprayed through the nozzle 6 in a direction opposite to the waste gas flow, and the cooling water sprayed through the nozzle 6 is sprayed very finely to form a mist ( 108), and the waste gas passes through the mist 108, the temperature of the waste gas falls below the dew point temperature.

As a result, the hydrochloric acid component present in the vapor state in the waste gas is changed into the liquid particle 107 state as if dew is formed.

In addition, the hydrochloric acid component changed into the liquid particle 107 state is agglomerated with the surrounding mist 108 particles to increase the size of the particles.

As described above, the process in which the mist and the waste gas are directly contacted and cooled, the hydrochloric acid liquid particles generated by the liquefaction is combined with the mist particles to increase the size of the particles, which can be easily removed from the main demister 7 located next. Can be.

And finally through the main demister (7). The operation of the main demister 7 is the same as the pre-demister, and in detail, the hydrochloric acid liquid particles generated by the liquefaction process in the low temperature spray unit are combined with the surrounding mist particles to increase the size of the main demister. Easily removed by filter plate.

In addition, the liquid flow is prevented from being generated by the guide plate and the inclined filter plate like the pre demister, and the waste gas discharged from the outlet of the hydrochloric acid capture device after passing through the main demister has a low hydrochloric acid concentration below the legal limit. It is in a state.

As described above, according to the present invention, the hydrochloric acid component in the liquid particle form as well as the hydrochloric acid component in the vapor state are removed to remove the hydrochloric acid component of the exhaust gas so that the hydrochloric acid concentration is lowered below the legal limit.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as provided by the following claims. It will be clear to those skilled in the art that they can easily know.

Claims (5)

A housing having a predetermined space therein and having a funnel connected to the bottom thereof; A pre-demister provided inclined in one direction inside the housing and having a guide plate attached to an inflow side of a gas in a plate shape having a filter therein, and primarily removing coarse water particles and hydrochloric acid particles; A low temperature spraying unit which lowers the temperature of the exhaust gas to make the hydrochloric acid component in the vapor state into a liquid particle and then increases the size of the liquid particle; A guide plate is attached to the inlet side of the gas in a plate shape in which the filter is inclined in one direction inside the housing, and includes a main demister for removing liquid particles; The pre-mister, the low-temperature spraying unit, and the main demister are installed sequentially from the inlet toward the outlet from which the waste gas is sucked into the housing. The high efficiency hydrochloric acid capture device of claim 1, wherein the pre- and de-misters are inclined in one direction and are inclined at an inclination angle of 45 °. According to claim 1, wherein the low temperature spray unit includes a header connected to the outside and the pipe, a plurality of branch pipes connected downward of the header, and a plurality of nozzles attached to each branch pipe and installed opposite to the waste gas flow direction High efficiency hydrochloric acid capture device, characterized in that. Firstly filtering the coarse water particles and hydrochloric acid particles through a predistor having a guide plate attached to the gas inlet side in a plate shape in which the waste gas is inclined in one direction by injecting the waste gas into the housing; Passing the first filtered waste gas through the low temperature spraying unit through the cooling water in the mist state to cool the waste gas into a liquid state; And a step of removing hydrochloric acid particles in a liquid state through a main demister provided with a guide plate on a gas inlet side in a plate shape inclined in one direction and having a filter therein. The method of claim 4, wherein the step of passing the waste gas through the cooling water to cool the waste gas into a liquid state, by spraying the cooling water through a nozzle to make a mist state and then sprayed in the opposite direction to the flow of waste gas to cool the waste gas High efficiency hydrochloric acid capture method characterized in that the step of making the state.

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