JPH0677669B2 - Exhaust gas treatment method and apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention includes a halogen-containing silicon compound such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ and SiH ₄ and an acid component such as HCl, HF and Cl _2. The present invention relates to an exhaust gas treatment method and an apparatus therefor for treating exhaust gas with high efficiency and without trouble.

(Prior art and its problems) At present, a filling type scrubber or a perforated plate type scrubber is used for an exhaust gas treatment device, but SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ , S
When exhaust gas containing silicon compounds such as iH ₄ is treated, a large amount of dust is generated, and the cleaning liquid and exhaust gas come into gas-liquid contact to form a viscous substance due to a chemical reaction that clogs the equipment and reduces the number of cleanings. There is a drawback in that maintenance is very troublesome and expensive, such as increasing the number or installing a plurality of devices for batch use. Therefore, a jet type scrubber as shown in FIG. 5 was adopted to treat the exhaust gas, but although the problem of clogging was solved, the inner circumference of the exhaust gas introduction pipe (14 ') and the cleaning liquid injection nozzle ( A new problem has arisen that dust and viscous substances are deposited on 16 ') and block the exhaust gas inlet (3') and the cleaning liquid injection nozzle (16 '). This is because the inside of the cleaning chamber (4 ') becomes a negative pressure due to the injection of the high-speed high-pressure cleaning liquid from the high-pressure ejection nozzle (2') on the ceiling, and the spray of the high-speed high-pressure cleaning liquid (1 ') and the cleaning liquid ejection nozzle. This is because the cleaning water (C ') injected from (16') comes into contact with the introduced exhaust gas to cause a reaction, and it is deposited on the protruding portion.

(Object of the Invention) The present invention has been made in view of the above-mentioned conventional examples, and an object thereof is to provide a halogen-containing silicon compound such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ , SiH ₄ or HCl, HF. , Including acid such as Cl ₂
It is an object of the present invention to provide an exhaust gas treatment method and apparatus capable of continuously treating exhaust gas such that a large amount of dust or a viscous substance is generated when the treatment is performed with an alkaline cleaning liquid and the treatment apparatus is clogged.

(Means for Solving Problems) In order to solve the above-mentioned problems, the first method of the present invention, as described in claim (1), ejects an alkaline cleaning liquid (C) at high pressure to form fine water droplets. Has a high-pressure jet nozzle (2) that forms a high-speed jet spray of (1) in the ceiling, and silicon compounds containing halogen such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ , SiH ₄ and HCl, HF, Cl ₂ etc. In a cleaning room (4) of a jet scrubber type exhaust gas treatment device having on its side an exhaust gas introduction port (3) of untreated exhaust gas containing acid content of the exhaust gas, the exhaust gas introduction connected to the exhaust gas introduction port (3) in a downward slope The washing liquid (C) was made to flow down into the pipe (20) in a spiral flow.

The second method is, as described in claim (2), that the cleaning liquid (C) changes its direction intermittently and spirally flows in the exhaust gas introducing pipe (3). It was made to flow down.

Further, in order to achieve the first method, according to claim (3), the high pressure jet nozzle (2) for jetting the alkaline cleaning liquid (C) at a high pressure to form a high speed jet spray of fine water droplets is provided at the ceiling part. And has an exhaust gas inlet (3) on the side of untreated exhaust gas containing halogenated silicon compounds such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ and SiH ₄ and acid components such as HCl, HF and Cl _2. In a cleaning chamber (4) of a jet scrubber type exhaust gas treatment device, an exhaust gas introducing pipe (3) connected to the exhaust gas introducing port (3) is arranged in a downward slope toward the cleaning chamber (4) and the exhaust gas is discharged. Cleaning liquid jet pipe (20) on the side of the introduction pipe (14)
Are connected in the circumferential direction.

In order to achieve the second method, the side surface of the exhaust gas introduction pipe (14) in the exhaust gas treatment device (A) according to claim (3) is adopted. In addition, the cleaning liquid ejection pipes (20a) (2
0b) is connected.

: The technical means is adopted.

(Operation) Since the configuration is as described above, in the first method of the present invention,
The inner peripheral surface of the exhaust gas introducing pipe (14) will be washed away by the spiral cleaning liquid (C), and dust will not be accumulated on the inner peripheral surface of the exhaust gas introducing pipe (14).

Further, in the second method of the present invention, since the cleaning liquid (C) intermittently changes its direction and flows down as a spiral flow, accumulated dust that is difficult to be removed by the spiral flow in one direction is also washed away by the spiral flow in the opposite direction. Therefore, it is possible to obtain a higher cleaning effect.

Further, in the device (A) of the present invention, since the cleaning liquid ejection pipe (20) is connected in the circumferential direction to the side surface of the exhaust gas introduction pipe (14) arranged in a downward slope toward the cleaning chamber (4), There is no protrusion such as the cleaning liquid jet nozzle (16 ') that causes dust accumulation on the inner peripheral surface of the exhaust gas introduction pipe (14), and the exhaust gas introduction pipe (14)
The dust that tends to adhere to the inner peripheral surface of the exhaust pipe is washed away by the spiral flow, and the cleaning liquid ejection pipe (20a) is provided on the side surface of the exhaust gas introduction pipe (14) so that the connection directions thereof are opposite to each other in the peripheral direction. ) (20b) is connected, it is possible to flow down the spiral flow in opposite directions.

(Examples) Hereinafter, the present invention will be described in detail with reference to illustrated examples.

The jet scrubber body (A) is composed of an uppermost washing chamber (4), a throat portion (5) following the washing chamber (4), and a skirt portion (6) following the throat portion (5). The washing chamber (4) has a cylindrical shape, and a high-pressure jet nozzle (2) for jetting the washing liquid (C) at a high pressure to form a high-speed jet spray of fine water droplets (1) is vertically installed on the ceiling surface of the washing chamber (4). An untreated exhaust gas inlet (3) is opened on the side surface of the chamber (4). High pressure jet nozzle (2) spray pressure is 1-5k
g / cm ² (3 kg / cm ² is most suitable), and suction force at the entrance of the exhaust gas introduction hole formed by the high-speed jet spray injected from the high-pressure jet nozzle (2) −30 mmAq to −50
It is about mmAq. Also, the liquid gas ratio = L / G is 3 to 100 kg / k
It is g.

An exhaust gas introducing pipe (14) is connected to the untreated exhaust gas introducing port (3) in a downward slope, and further the exhaust gas introducing pipe (14)
A washing nozzle (16) is installed in the. As shown in FIG. 2, only one cleaning liquid jet pipe (20) is installed in the circumferential direction of the exhaust gas introduction pipe (14), and as shown in FIGS. 3 and 4, the exhaust gas introduction pipe (14). In some cases, two of them are installed symmetrically in the circumferential direction. The number of the latter cleaning liquid ejection pipe is
Add branch numbers (20a) and (20b). In any case, the cleaning liquid (C) becomes a spiral flow and flows down while cleaning the inside of the exhaust gas introduction pipe (14). However, in the case of FIGS. 3 and 4, unlike the case of FIG. 2, the cleaning liquid ejection pipes (20a) (20b) are switched intermittently, and the flow of the spiral cleaning liquid (C) is reversed after a certain period of time. Flow into the washing room (4).

The throat portion (5) provided following the opening of the lower surface of the cleaning chamber (4) has a smaller cross-sectional area than the cleaning chamber (4). The lower portion of the cleaning chamber (4) is formed in a morning glory shape so as to smoothly flow into the throat portion (5). Following the throat portion (5), there is provided a skirt portion (6) whose cross-sectional area gradually increases. Jet scrubber body (A)
A liquid receiving tank (B) that can be connected to the skirt portion (6) is installed below, and contains a cleaning liquid (C). A mist removing device (7) is installed above the liquid receiving tank (B) on the opposite side of the jet scrubber body (A). Inside the mist removing device (7), a baffle layer (17) bent at an angle effective for the flow of exhaust gas is installed, and an air outlet (18) is opened on the ceiling surface. The cleaning liquid supply pipe (19) and the circulation pump (8) are installed in the liquid receiving tank (B), and the circulation pump (8) is a cleaning device (9) for the high pressure jet nozzle (2) and the mist removing device (7). )It is connected to the. Furthermore, the cleaning liquid (C) accumulated inside the liquid receiving tank (B)
A filtration device (not shown) for appropriately overflowing the cleaning liquid (C) that has overflowed is also installed.

The exhaust gas discharged from the manufacturing equipment and treated by the present invention is
_{SiH 2 Cl 2, SiCl 4,} SiF 4, SiH 4 silicon compound containing halogen or the like HCl, HF, include exhaust gas from the semiconductor exhaust gas or glass melting processes, including acid content, such as Cl _2, further other, for example, Blast furnace exhaust gas, cupola exhaust gas, incinerator exhaust gas, kiln exhaust gas, and other substances that contain a large amount of dust (10) are also targeted.

The cleaning liquid (C) for treating exhaust gas is an aqueous solution containing an alkaline component such as potassium hydroxide or sodium hydroxide.
This alkaline cleaning liquid (C) has an alkali concentration of 0.1% to 15%
It uses a pH of 9 to 14. The alkali concentration is appropriately selected depending on the type of untreated exhaust gas.

Then, the untreated exhaust gas sent from the manufacturing process is guided to the cleaning chamber (4) of the jet scrubber body (A) through the untreated exhaust gas introduction port (3). At this time, the exhaust gas reacts with the cleaning liquid (C) to gradually collect dust (10) inside the exhaust gas introduction pipe (14) or in the untreated exhaust gas introduction port (3), but from the cleaning liquid jet pipe (20) Cleaning liquid (C)
Becomes a spiral flow and flows down in the exhaust gas introducing pipe (14), and the inner surface of the exhaust gas introducing pipe (14) is washed and the dust (10) is washed away. In addition, in the case of Figs. 3 and 4, the cleaning liquid jet pipe (20a)
(20b) is intermittently switched and the flow of the spiral cleaning liquid (C) is reversed after a lapse of a certain time to enhance the cleaning effect. In this case, the effect of cleaning the vicinity (M) of the opening of the cleaning liquid jet pipe (20a) or (20b) is high.

In the cleaning chamber (4), the cleaning liquid (C) is ejected from the high-pressure ejection nozzle (2) at high pressure and becomes high-speed jet spray (1) of fine water droplets, which is blown into the throat part (5), and the throat part (5). The flow rate is increased by squeezing with, and the flow rate is gradually reduced at the skirt portion (6) and poured into the liquid receiving tank (B). During this time, the air in the cleaning chamber (4) is entrained in the high-speed jet spray (1) to be a negative pressure, and the above-mentioned exhaust gas is sucked into the high-speed jet spray (1) and is highly efficient. -Liquid contact is achieved and harm is done according to the following reaction formula.

<< Chemical reaction formula >> Hydrolysis reaction formula ... nSiH ₂ Cl ₂ + H ₂ O → (SiOH ₂ ) n + 2nHCl (SiOH ₂ ) n is polysiloxy acid.

3SiF ₄ + H ₂ O → 2H ₂ SiF ₆ + SiO ₂ Here, H ₂ SiF ₆ is hexafluorosilicic acid.

SiF ₄ + 2H ₂ O → SiO ₂ + 4HF The acid content generated by these chemical reactions is neutralized with an alkaline cleaning solution (4).

In addition, the fine dust (10) in the exhaust gas generated by the aforementioned chemical reaction and the dust (10) carried from the production process have extremely high efficiency and come into contact with the water droplets of the high-speed jet spray (1), resulting in extremely high It will be collected efficiently. The water droplets that have collected the dust (10) gradually grow into large water droplets while falling on the skirt portion (6), and are poured into the liquid receiving tank (B) as described above. In the case of a semiconductor exhaust gas containing a substance such as silane, the inert gas is diluted to the lower explosion limit and introduced into the cleaning chamber (4). In this case, the semiconductor exhaust gas is hydrolyzed when it comes into contact with the cleaning liquid (C) to generate a large amount of dust (10), which is collected and removed by the method described above.

Exhaust gas containing an acid such as HCl, HF, Cl _{2 is} also neutralized by vapor-liquid contact as described above by using the cleaning liquid (C) as an alkaline liquid, and then recovered in the liquid receiving tank (B).

Neutralization reaction formula: HF + NaOH → NaF + H ₂ O HCl + NaOH → NaCl + H ₂ O The exhaust gas purified in this way passes through the upper part of the liquid receiving tank (B) and enters the mist removing device (7). Then, while passing through the baffle plate layer (17) while rising in the mist removing device (7), mist in the exhaust gas is separated and then released into the atmosphere.
On the other hand, the circulation pump (8) installed in the liquid receiving tank (B) draws up the cleaning liquid (C) in the liquid receiving tank (B) and supplies it to the high-pressure jet nozzle (2) to circulate the cleaning liquid (C). A part of the cleaning liquid (C) in the liquid receiving tank (B) is taken out of the liquid receiving tank (B) due to overflow, filtered, neutralized, diluted, and discharged to the river when the water quality falls below the standard value. The same amount of new cleaning liquid (C) as the overflowed cleaning liquid (C)
Is supplied to the liquid receiving tank (B), and the concentration of the cleaning liquid (C) in the liquid receiving tank (B) is kept constant. Also, the mist removal device (7) continuously removes the mist, but a small amount of dust (10) remains in the purified exhaust gas,
Since this adheres to the surface of the baffle layer (17), the adhering dust (10) is automatically washed off by the cleaning device (9). The cleaning liquid (C) is supplied from the circulation pump (8) to the cleaning device (9).

(Effect) The first method of the present invention has a high-pressure jet nozzle in the ceiling portion for jetting an alkaline cleaning liquid at high pressure to form a high-speed jet spray of fine water droplets, and SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ , SiH ₄ etc.In the washing room of the jet scrubber type exhaust gas treatment equipment which has the exhaust gas inlet of untreated exhaust gas containing acid such as HCl, HF, Cl ₂ etc. on the side, it slopes down to the exhaust gas inlet Since the cleaning liquid is made to flow down in a spiral flow to the exhaust gas introduction pipe connected to, the inner peripheral surface of the exhaust gas introduction pipe is washed away by the spiral cleaning liquid, and dust is accumulated on the inner peripheral surface of the exhaust gas introduction pipe. There is nothing to do.

Further, in the second method of the present invention, the cleaning liquid intermittently changes its direction so as to flow downward in the exhaust gas introducing pipe as a spiral flow. It will be washed away by the spiral flow, and a higher cleaning effect can be obtained.

Further, in the device of the present invention, since the cleaning liquid jetting pipe is connected in the circumferential direction to the side surface of the exhaust gas introducing pipe which is arranged in a downward slope toward the cleaning chamber, the cause of dust accumulation on the inner peripheral surface of the exhaust gas introducing pipe. There is no projection such as a cleaning nozzle, and the inner peripheral surface of the exhaust gas introducing pipe is not washed away by the spiral flow and dust is not accumulated.

Also, when the cleaning liquid ejection pipe is connected to the side surface of the exhaust gas introduction pipe so that the connection directions are opposite to each other in the circumferential direction, the spiral flow in the opposite direction against the accumulated dust that is difficult to clean in one direction. By flowing down, there is an advantage that this can be washed off and the cleaning effect can be enhanced.

[Brief description of drawings]

FIG. 1 ... Flow chart of the present invention, FIG. 2 ... Cross-sectional view of first embodiment of cleaning chamber of the present invention, FIG. 3 ... Cross-sectional view of second embodiment of cleaning chamber of the present invention, FIG. 4 ... Cross-sectional view of the exhaust gas introducing pipe including the cleaning liquid jet pipe of FIG. 3 FIG. 5 ... Cross-sectional view of the conventional cleaning chamber. (A) …… Jet scrubber body, (B) …… Liquid receiving tank, (C) …… Cleaning liquid, (1) …… High speed jet spraying, (2) …… High pressure jet nozzle, (3) …… Untreated exhaust gas Inlet, (4) …… washing room, (5) …… throat part, (6) …… skirt part, (7) …… mist removing device, (8) …… circulation pump, (9) …… washing Device, (10) …… Dust, (11) …… Perforated plate, (12) …… Overflow tube, (13) …… Water supply nozzle, (14) …… Exhaust gas introduction pipe, (15) …… Velet hole, (16) …… Cleaning nozzle, (17) …… Baffle layer, (18) …… Air outlet, (19) …… Cleaning liquid supply pipe, (20) …… Cleaning liquid spouting pipe

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI technical display location B01D 53/34 D

Claims (4)

[Claims] 1. A silicon containing halogen, such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ and SiH ₄ , which has a high-pressure jet nozzle in the ceiling portion for jetting an alkaline cleaning liquid at high pressure to form a high-speed jet spray of fine water droplets. In the cleaning room of the jet scrubber type exhaust gas treatment equipment that has the exhaust gas inlet of the untreated exhaust gas containing compounds and acid components such as HCl, HF, Cl ₂ on the side, the exhaust gas inlet connected to the exhaust gas inlet in a downward slope A method for treating exhaust gas, characterized in that the cleaning liquid is caused to flow down into the pipe in a spiral flow. 2. The exhaust gas treatment device according to claim 1,
An exhaust gas treatment method characterized in that the cleaning liquid intermittently changes its direction to flow downward in a spiral flow in the exhaust gas introduction pipe. 3. A silicon containing halogen, such as SiH ₂ Cl ₂ , SiCl ₄ , SiF ₄ , SiH ₄ , which has a high-pressure jet nozzle in a ceiling portion for jetting an alkaline cleaning liquid at high pressure to form a high-speed jet spray of fine water droplets. In a cleaning room of a jet scrubber type exhaust gas treatment device having an exhaust gas introduction port of untreated exhaust gas containing acid components such as compounds, HCl, HF, Cl _2, etc., the exhaust gas introduction pipe connected to the exhaust gas introduction port is An exhaust gas treatment device, characterized in that it is arranged at a downward slope toward a cleaning chamber and that a cleaning jet pipe is circumferentially connected to a side surface of an exhaust gas introduction pipe. 4. The exhaust gas treatment device according to claim 3,
An exhaust gas treatment device, characterized in that a cleaning liquid jet pipe is connected to the side surface of the exhaust gas introduction pipe so that the connection directions thereof are opposite to each other in the circumferential direction.