JP2011161148A - Method for atomizing liquid containing deodorant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for efficiently atomizing liquid containing deodorant, especially a vaporizing method, and to provide a method for deodorizing an exhaust gas which is capable of highly efficiently bringing it into contact with the exhaust gas, when vaporizing and introducing plant essential oil as a deodorant, reducing a consumption amount, and facilitating maintenance thereof. <P>SOLUTION: When liquid containing deodorant is sprayed from an atomizing nozzle emission port provided in a chamber wall surface or an adjacency thereof and the sprayed deodorant is exhausted from the upper part of a chamber, hot air is introduced into the chamber from the chamber bottom along the chamber wall surface, and the liquid containing the deodorant is sprayed upward in the atomizing nozzle emission port at an angle inclined horizontally to the chamber center direction to form a substantially upward spiral flow along with the hot air. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a method for atomizing a liquid containing a deodorizing agent and a method for deodorizing exhaust gas using the same.

  Exhaust gas generated from kitchen equipment, various manufacturing factories, painting factories, printing factories, waste incineration factories, etc. often needs to be deodorized due to improvement of the working environment and countermeasures to the surroundings. For example, with regard to exhaust gas generated from kitchen equipment, in the case of generating gas with strong odor, including steam and dust containing fats and oils, such as eating facilities such as various restaurants, kitchen equipment at home, etc. There is a need for deodorization of exhaust gas. Therefore, various methods are performed, for example, a cleaning agent and a deodorizing agent are diluted and sprayed in a hood, a duct, or the like.

  However, with this method, it is difficult to make contact with odorous components with high efficiency, and moisture adheres to the duct, which may cause corrosion of the devices.

  The present invention provides an efficient atomizing method for a liquid containing a deodorizing agent, particularly a vaporizing method, which can perform contact with an odorous component with high efficiency and has no moisture adhesion in the duct. Provide a deodorizing method.

The present invention provides the following inventions in order to solve the above problems.
(1) When a liquid containing a deodorizing agent is sprayed from an atomizing nozzle outlet provided on or near the chamber wall surface, and then the sprayed deodorant is discharged from above the chamber, hot air is discharged from the bottom of the chamber to the chamber wall surface. The liquid containing the deodorizing agent is sprayed upward and at an angle inclined in the horizontal direction with respect to the chamber center direction along with the warm air. A method for atomizing a liquid containing a deodorant, characterized in that it forms a substantially upward spiral flow.
(2) The atomizing method according to the above (1), wherein the deodorizer is a plant essential oil.
(3) Hot air is introduced from the central opening at the bottom of the chamber along the surface of the reverse cone type rectifying member, or introduced into the chamber along the wall of the chamber from a plurality of openings provided along the wall of the bottom of the chamber The atomizing method according to (1) or (2) above.
(4) Any of the above (1) to (3), wherein the liquid containing the deodorant is sprayed at an elevation angle of 45 to 75 degrees and at an angle of 5 to 60 degrees inclined in the horizontal direction with respect to the chamber center direction. The atomizing method described in 1.
(5) The atomizing method according to any one of (1) to (4), wherein the warm air has a temperature higher by 20 ° C. or more than the outside air temperature.
(6) Introducing the deodorizer discharged from above the chamber by the atomizing method according to any one of (1) to (5) above into an exhaust duct for sending the exhaust gas that has been sucked into the exhaust port. Exhaust gas deodorization method, characterized by deodorizing exhaust gas by
(7) The exhaust gas deodorization method according to (6), wherein the exhaust gas is exhaust gas generated from a kitchen device, a manufacturing factory, a painting factory, a printing factory, or a waste incineration factory.
(8) In the above (6) or (7), after the exhaust gas is brought into contact with the deodorant in the exhaust duct, the exhaust gas is exhausted upward from the discharge port of the exhaust cylinder at a high speed of 15 m / second or more by the exhaust fan. The method for deodorizing the exhaust gas as described.
(9) The exhaust gas deodorization method according to (8), wherein the length of the exhaust pipe is 1.5 to 10 m and the diameter is 0.2 to 2 m.
(10) The exhaust gas deodorization method according to any one of (8) and (9), wherein the exhaust gas is discharged at a high speed of 25 to 40 m / sec.
(11) The exhaust gas deodorization method according to any one of (8) to (10), wherein an exhaust gas blowing angle is 3 to 10 degrees.
(12) In the chamber, (A) a liquid containing a deodorizing agent is directed upward and sprayed at an angle inclined in the horizontal direction with respect to the chamber center direction, provided on or near the chamber wall surface, Atomizing nozzle outlet; (B) A hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) A hot air inlet provided above the hot air inlet along the inverted conical surface A rectifying member for introducing hot air into the chamber, and (D) a deodorant discharge port provided above the chamber for discharging the deodorant, which substantially forms a rising spiral flow with the hot air. A liquid atomizing device containing a deodorizing agent.
(13) In the chamber, (A) a liquid containing a deodorizing agent is directed upward and sprayed at an angle inclined in the horizontal direction with respect to the chamber center direction, provided on or near the chamber wall surface, Atomizing nozzle outlet; (B) A hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) A hot air inlet provided above the hot air inlet along the inverted conical surface A rectifying member for introducing hot air into the chamber; and (D) a deodorant outlet provided above the chamber for discharging the deodorant, which substantially forms an upward spiral flow with the hot air; and ( E) An exhaust gas deodorizing apparatus comprising: a pipe connection part for introducing exhausted deodorant into an exhaust duct part for sending the exhausted exhaust gas to an exhaust port to deodorize the exhaust gas.
(14) Further, an exhaust pipe having a length of 1.5 to 10 m and a diameter of 0.2 to 2 m is provided for exhausting the deodorized exhaust gas upward at a high speed of 15 m / second or more by an exhaust fan. The exhaust gas deodorization apparatus according to (13) above.

  According to the present invention, it is possible to provide an efficient atomizing method of a liquid containing a deodorant, particularly a vaporization method, and particularly when a plant essential oil is vaporized and introduced as a deodorant, it can be contacted with exhaust gas with high efficiency. Therefore, it is possible to provide a method for deodorizing exhaust gas that consumes little and is easy to maintain.

The schematic diagram which shows an example of the atomizing method of this invention. The schematic diagram which shows the deodorizing apparatus of the exhaust gas of this invention.

  In the method for atomizing a liquid containing a deodorizer according to the present invention, a liquid containing a deodorizer is sprayed from an atomizing nozzle discharge port provided at or near the chamber wall surface, and then the sprayed deodorizer is discharged from above the chamber. In this case, hot air is introduced into the chamber along the wall of the chamber from the bottom of the chamber, and the liquid containing the deodorizer is directed upward and horizontally with respect to the center of the chamber at the atomizing nozzle outlet. Sprayed at an inclined angle to form a substantially upward spiral flow with warm air.

  The deodorant (that is, deodorant) is selected from known deodorants such as natural systems such as plant essential oils, organic chelates such as metal chelates and cyclodextrins, and inorganic systems. Preferably, however, plant essential oils are used. Plant essential oils are obtained from bark, leaves, flowers, pericarp, roots, whole grass, etc., but those obtained from bark and leaves are preferred, for example, todomatsu, cypress, cedar, hiba, camphor, shikimi, eucalyptus, orange It is obtained using leaves, bark, etc. as raw materials. The production method is not particularly limited, and is generally based on a steam distillation method for evaporating an aromatic component with water vapor, a solvent extraction method using a solvent such as alcohol, or a pressing method using a roller or the like. For example, in the steam distillation method, steam containing an aromatic component is cooled by a cooler, and essential oil can be obtained as a supernatant of the resulting liquid.

  The deodorizer is used by diluting the stock solution appropriately with a liquid such as water, usually about 2 to 20 times. For example, when using plant essential oil, it is preferable to use a surfactant as an emulsifier together with water.

  When spraying a liquid containing such a deodorizing agent from an atomizing nozzle discharge port provided in or near the chamber wall surface, the atomizing nozzle is not particularly limited. For example, a two-fluid type of liquid flow and gas flow is used. Preferably used. The atomizing nozzle is preferably provided at two or more locations, for example, about 3 to 6 locations.

  In the present invention, the spray of the liquid containing the deodorant is performed upward, preferably at an elevation angle of 45 to 75 degrees. Further, the liquid containing the deodorizing agent is sprayed at an angle of 5 to 60 degrees inclined in the horizontal direction with respect to the chamber center direction. By spraying in this way, a rising spiral flow can be formed substantially together with the warm air introduced from the bottom of the chamber.

  The warm air preferably has a temperature that is 20 ° C. or more higher than the outside air temperature. Hot air is introduced from the central opening at the bottom of the chamber along the surface of the rectifying member of the inverted cone shape, or is introduced into the chamber along the wall of the chamber from a plurality of openings provided along the wall of the bottom of the chamber. Is preferred. When a plurality of openings are provided along the wall surface of the chamber bottom, when the chamber bottom is circular, for example, eight or more openings are provided on the circumference near the wall surface of the chamber bottom, and hot air is supplied from the opening to the chamber wall surface. Introduced multi-point along.

  In the exhaust gas deodorization method of the present invention, the deodorizer exhausted from above the chamber by the above-described atomizing method is introduced into the exhaust duct portion for sending the exhaust gas that has been sucked into the exhaust port. Deodorize. The exhaust duct is a duct that forms a flow path for sending generated exhaust gas to the lower part of the exhaust cylinder, and its shape and size are not particularly limited, and can be designed according to the amount of exhaust gas generated.

  When the deodorizing agent is a plant essential oil, the vaporized plant essential oil is a chemical reaction, masking or so-called mutual interference because the deodorizing agent discharged from above the chamber comes into contact with the odorous component in the exhaust gas in the exhaust duct. Can neutralize odor components.

  Exhaust gas includes, for example, exhaust gas generated from kitchen equipment, but is not particularly limited, and includes various manufacturing factories, painting factories, printing factories, waste incineration factories, and the like.

  Further, in the present invention, after the exhaust gas is brought into contact with the deodorant in the exhaust duct, it is preferable that the exhaust gas is exhausted upward from the discharge port of the exhaust cylinder at a high speed of 15 m / second or more by the exhaust fan. .

  The deodorizer is contacted with exhaust gas in the exhaust duct, and further, after exhaust gas is exhausted from the exhaust outlet of the exhaust stack, it is in contact with the exhaust gas and has the effect of treating air pollutants as if it were in a high chimney. Can continue. That is, in FIG. 2, which will be described later, the time for moving Xm is the contact time, and a large reaction chamber of an inverted cone having a height of Xm is formed.

  A dust collection filter can be provided as appropriate in the exhaust duct in order to remove dust.

  In the present invention, the exhaust gas is exhausted upward from the discharge port of the exhaust pipe at a high speed. As described above, the exhaust gas is accelerated by 15 m / second or more by the exhaust fan. This is because adjusting the speed by restricting the cross-sectional area of the discharge port of the exhaust pipe has a large risk of turbulent flow and makes it difficult to discharge upward, preferably in the vertical direction. The type of exhaust fan is not particularly limited. The exhaust gas discharge speed is preferably 20 m / second or more, more preferably 25 to 40 m / second. Exceeding 40m / sec is not practical in terms of exhaust fan capability. The discharge speed can be appropriately determined from the above range in consideration of operating conditions such as the amount of exhaust gas. When there is a horizontal wind near the discharge port of the exhaust pipe, the above high speed is also effective in preventing downwash in which the exhaust gas is directed downward.

  The exhaust angle of the exhaust gas is 3 to 10 degrees, preferably 5 to 8 degrees.

  The length of the exhaust pipe is 1.5 to 10 m, preferably 1.8 to 5 m. If the length is less than 1.5 m, the function of the exhaust pipe is difficult to be achieved, and if it exceeds 10 m, the effect of the present invention is hardly achieved from the viewpoint of cost. . On the other hand, the diameter of the exhaust pipe is 0.2 to 2 m, preferably 0.8 to 1.2 m. If it is less than 0.2 m, it becomes a whistle and a sound is generated, which is inconvenient. If it exceeds 2 m, the wind speed decreases and a desired wind speed cannot be obtained. The structure of the exhaust pipe is not particularly limited. For example, a damper for adjusting the air flow may be provided between the connection part of the exhaust duct and the discharge port for exhausting the exhaust gas upward in accordance with fluctuations in the operation of the exhaust gas generation factory. it can.

  According to the present invention, the cost is significantly reduced by using a short exhaust pipe, and the exhaust gas is discharged with an effect comparable to that of a high chimney, that is, a dilution effect and a long contact time with a treatment agent for air pollutants. It is possible to provide a method for discharging exhaust gas that can be discharged.

  When the discharge speed is 30 m / sec, the exhaust gas is diffused in an inverted cone shape about 1800 times at an arrival distance of 30 m, and when the discharge speed is 25 m / sec, the exhaust gas is diffused in an inverse cone shape at an arrival distance of 25 m Is done.

  The method for atomizing a liquid containing the deodorizer of the present invention is carried out using the following atomizing apparatus. That is, the atomizing apparatus of the present invention is a chamber wall or spray for spraying a liquid containing (A) a deodorizing agent upward and at an angle inclined in a horizontal direction with respect to the chamber center direction. An atomizing nozzle outlet provided in the vicinity thereof; (B) a hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) provided above the hot air inlet; A rectifying member for introducing warm air into the chamber along the inverted conical surface: and (D) provided above the chamber for discharging the deodorant, which substantially forms a rising spiral flow with the warm air. A deodorizer outlet.

  In the atomizing nozzle discharge port provided in the chamber wall surface or in the vicinity thereof, the atomizing nozzle is not particularly limited. For example, a two-fluid type of liquid flow and gas flow is preferably used. The atomizing nozzle is preferably provided at two or more locations, for example, about 3 to 6 locations. Spraying of the liquid containing the deodorant is performed upward, preferably at an elevation angle of 45 to 75 degrees. Further, the liquid containing the deodorizing agent is sprayed at an angle of 5 to 60 degrees inclined in the horizontal direction with respect to the chamber center direction. By spraying in this way, an upward spiral flow can be formed substantially together with the hot air introduced from the hot air introduction hole at the bottom of the chamber. The warm air preferably has a temperature that is 20 ° C. or more higher than the outside air temperature. The warm air is provided above the warm air inlet and is introduced along a rectifying member for introducing the warm air into the chamber along the inverted conical surface.

  The exhaust gas deodorization method of the present invention is carried out using the following exhaust gas deodorization apparatus. That is, the exhaust gas deodorization apparatus of the present invention is a chamber for spraying a liquid containing (A) a deodorizing agent upward in the chamber and at an angle inclined in a horizontal direction with respect to the chamber center direction. Atomizing nozzle outlet provided on or near the wall; (B) Hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) Provided above the hot air inlet A rectifying member for introducing hot air into the chamber along the inverted conical surface; and (D) forming a substantially upward spiral flow with the hot air, above the chamber to discharge the deodorant A deodorant discharge port provided; and (E) a pipe connection portion for introducing the discharged deodorant into the exhaust duct portion for sending the exhausted exhaust gas to the exhaust port to deodorize the exhaust gas; Ete made.

  The deodorizer is exhausted from the upper part of the chamber through the deodorizer outlet provided at the upper part of the chamber, and then introduced into the exhaust duct part through a pipe connection part for introducing into the exhaust duct part to deodorize the exhaust gas. Deodorize exhaust gas in contact with gas. The exhaust duct is a duct that forms a flow path for sending generated exhaust gas to the lower part of the exhaust cylinder, and its shape and size are not particularly limited, and can be designed according to the amount of exhaust gas generated.

  When the deodorizing agent is a plant essential oil, the vaporized plant essential oil is a chemical reaction, masking or so-called mutual interference because the deodorizing agent discharged from above the chamber comes into contact with the odorous component in the exhaust gas in the exhaust duct. Can neutralize odor components.

  Further, in the present invention, after the exhaust gas is brought into contact with the deodorant in the exhaust duct, it is preferable that the exhaust gas is exhausted upward from the discharge port of the exhaust cylinder at a high speed of 15 m / second or more by the exhaust fan. . For this purpose, the exhaust gas deodorization apparatus of the present invention preferably comprises an exhaust pipe having a length of 1.5 to 10 m and a diameter of 0.2 to 2 m.

  The deodorizer is contacted with exhaust gas in the exhaust duct, and further, after exhaust gas is exhausted from the exhaust outlet of the exhaust stack, it is in contact with the exhaust gas and has the effect of treating air pollutants as if it were in a high chimney. Can continue. That is, in FIG. 2, which will be described later, the time for moving Xm is the contact time, and a large reaction chamber of an inverted cone having a height of Xm is formed.

  A dust collection filter can be provided as appropriate in the exhaust duct in order to remove dust.

  As described above, in the preferred embodiment of the present invention, the exhaust gas is discharged upward from the discharge port of the exhaust pipe at a high speed. As described above, the exhaust gas is accelerated by 15 m / sec or more by the exhaust fan. This is because adjusting the speed by restricting the cross-sectional area of the discharge port of the exhaust pipe has a large risk of turbulent flow and makes it difficult to discharge upward, preferably in the vertical direction. The type of exhaust fan is not particularly limited. The exhaust gas discharge speed is preferably 20 m / second or more, more preferably 25 to 40 m / second. Exceeding 40m / sec is not practical in terms of exhaust fan capability. The discharge speed can be appropriately determined from the above range in consideration of operating conditions such as the amount of exhaust gas. When there is a horizontal wind near the discharge port of the exhaust pipe, the above high speed is also effective in preventing downwash in which the exhaust gas is directed downward.

  The exhaust angle of the exhaust gas is 3 to 10 degrees, preferably 5 to 8 degrees.

  The length of the exhaust pipe is 1.5 to 10 m, preferably 1.8 to 5 m. If the length is less than 1.5 m, the function of the exhaust pipe is difficult to be achieved, and if it exceeds 10 m, the effect of the present invention is hardly achieved from the viewpoint of cost. . On the other hand, the diameter of the exhaust pipe is 0.2 to 2 m, preferably 0.8 to 1.2 m. If it is less than 0.2 m, it becomes a whistle and a sound is generated, which is inconvenient. If it exceeds 2 m, the wind speed decreases and a desired wind speed cannot be obtained. The structure of the exhaust pipe is not particularly limited. For example, a damper for adjusting the air flow may be provided between the connection part of the exhaust duct and the discharge port for exhausting the exhaust gas upward in accordance with fluctuations in the operation of the exhaust gas generation factory. it can.

Example 1
In FIG. 1 which shows a schematic diagram showing an example of the atomizing method of the present invention, 1 is a chamber, 2 is a rectifying member, 3 is a hot air inlet, 4 is an atomizing nozzle outlet (3 locations), and 5 is a deodorizing agent. Indicates the outlet. Hot air (about 40 ° C.) was introduced into the chamber along the inverted conical surface of the rectifying member 2 at a rate of about 10 m / min from the hot air inlet 3. On the other hand, the plant essential oil diluted with water (plant essential oil 1: water 5) is directed upward (elevation angle 60 degrees) from the two-fluid atomizing nozzle outlet 4 at 750 mL / min and with respect to the chamber center direction. Spraying was performed at an angle of 22 degrees inclined in the horizontal direction. As a result, most of the spray particles were vaporized and discharged from the discharge port while forming a substantially upward spiral flow with the warm air.

Example 2
FIG. 2 is a schematic diagram showing an exhaust gas deodorizing apparatus according to the present invention, wherein 6 is an exhaust duct portion, 7 is an exhaust fan, 8 is an exhaust pipe, and 9 is a pipe connection portion. Exhaust gas was exhausted from the fryer part of the kitchen facility, sucked in the hood part, and introduced into the exhaust duct part 6 provided with a filter at the entrance. The vaporized vegetable essential oil obtained in Example 1 was introduced into the exhaust duct section 6.

  The deodorant discharge port 5 and the exhaust duct portion 6 are electrically connected by a pipe connection portion 9, and the vegetable essential oil evaporated through the pipe connection portion 9 was introduced (introduction amount: about 8 mL / hour). In the exhaust duct portion 6, the odor component molecules were mixed with the vaporized vegetable essential oil and the blower, and neutralization decomposition was promoted, and a remarkable deodorizing effect was obtained.

  Next, the exhaust fan 7 was discharged at a blowing angle of 7.5 degrees from the exhaust tube 8 and a blowing surface speed of 29 m / sec. The exhaust cylinder 8 had a length of 3.0 m and a diameter of 1.05 m. The odor concentration was 5000 immediately after being introduced into the exhaust duct 6, 3200 before the exhaust fan 7, and 130 after approximately 0.5 seconds after discharge. When one end of a 30m long red tape was fastened near the discharge port of the exhaust tube 8 and the other end was a free end, it was confirmed that the tape stood cleanly over X = 30m and exhaust gas was discharged vertically. It was.

  According to the present invention, it is possible to provide an efficient atomizing method of a liquid containing a deodorant, particularly a vaporization method, and particularly when a plant essential oil is vaporized and introduced as a deodorant, it can be contacted with exhaust gas with high efficiency. Therefore, it is possible to provide a method for deodorizing exhaust gas that consumes little and is easy to maintain.

DESCRIPTION OF SYMBOLS 1 Chamber 2 Rectification member 3 Hot air introduction port 4 Atomizing nozzle discharge port 5 Deodorant discharge port 6 Exhaust duct part 7 Exhaust fan 8 Exhaust pipe 9 Piping connection part

Claims (14)

  When the liquid containing the deodorizer is sprayed from the outlet of the atomizing nozzle provided on or near the chamber wall surface, and then the sprayed deodorant is discharged from the upper side of the chamber, hot air is blown from the bottom of the chamber along the chamber wall surface. The liquid introduced into the chamber and containing the deodorant at the atomizing nozzle outlet is sprayed upward and at an angle inclined in the horizontal direction with respect to the chamber center direction, and substantially with hot air. A method for atomizing a liquid containing a deodorant, characterized in that it forms a rising spiral flow.   The atomizing method according to claim 1, wherein the deodorizer is a plant essential oil.   The warm air is introduced from the central opening at the bottom of the chamber along the surface of the rectifying member of the inverted cone shape, or introduced into the chamber along the wall of the chamber from a plurality of openings provided along the wall of the bottom of the chamber. Item 3. The atomizing method according to Item 1 or 2.   The atomizing method according to any one of claims 1 to 3, wherein the liquid containing the deodorant is sprayed at an elevation angle of 45 to 75 degrees and at an angle of 5 to 60 degrees inclined in a horizontal direction with respect to the chamber center direction. .   The atomizing method according to claim 1, wherein the warm air has a temperature that is 20 ° C. or more higher than the outside air temperature.   The deodorizer exhausted from above the chamber by the atomizing method according to any one of claims 1 to 5 is introduced into an exhaust duct portion for sending the exhaust gas sucked into the exhaust port, thereby deodorizing the exhaust gas. A method for deodorizing exhaust gas, comprising:   The exhaust gas deodorization method according to claim 6, wherein the exhaust gas is exhaust gas generated from a kitchen device, a manufacturing factory, a painting factory, a printing factory, or a waste incineration factory.   The exhaust gas deodorization according to claim 6 or 7, wherein after exhaust gas is brought into contact with a deodorizing agent in the exhaust duct, the exhaust gas is exhausted upward from a discharge port of the exhaust cylinder at a high speed of 15 m / sec or more by an exhaust fan. Method.   The exhaust gas deodorization method according to claim 8, wherein the length of the exhaust pipe is 1.5 to 10 m and the diameter is 0.2 to 2 m.   The exhaust gas deodorization method according to claim 8 or 9, wherein the exhaust gas is discharged at a high speed of 25 to 40 m / sec.   The method for deodorizing exhaust gas according to any one of claims 8 to 10, wherein an exhaust gas blowing angle is 3 to 10 degrees.   An atomizing nozzle provided on or near the chamber wall surface for spraying a liquid containing (A) a deodorizing agent upward in the chamber at an angle inclined in a horizontal direction with respect to the chamber center direction. (B) A hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) a hot air provided above the hot air inlet and along the inverted conical surface. A rectifying member for introducing the deodorant into the chamber, and (D) a deodorant discharge port provided above the chamber for discharging the deodorant, which substantially forms a rising spiral flow with the warm air. A liquid atomizing device containing a deodorant characterized by the above.   An atomizing nozzle provided on or near the chamber wall surface for spraying a liquid containing (A) a deodorizing agent upward in the chamber at an angle inclined in a horizontal direction with respect to the chamber center direction. (B) A hot air inlet provided at the bottom of the chamber for introducing hot air into the chamber; (C) a hot air provided above the hot air inlet and along the inverted conical surface. A rectifying member for introducing the deodorant into the chamber; and (D) a deodorant discharge port provided above the chamber for discharging the deodorant, which forms a substantially upward spiral flow with the warm air; and (E) discharge An exhaust gas deodorizing apparatus comprising: a pipe connection portion for introducing the deodorant into the exhaust duct portion for sending the exhaust gas taken into the exhaust port to deodorize the exhaust gas.   14. An exhaust pipe having a length of 1.5 to 10 m and a diameter of 0.2 to 2 m for exhausting the deodorized exhaust gas upward at a high speed of 15 m / second or more by an exhaust fan. An exhaust gas deodorizing apparatus according to claim 1.

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