JP3408745B2 - Wind tunnel test equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to improvement of a flue gas temperature / humidity control wind tunnel.

[0002]

2. Description of the Related Art As is well known, the air discharged from a cooling tower of a geothermal power plant is generally warmer and more humid than the surrounding atmosphere, so that it is discharged into the atmosphere and vaporized when cooled. May condense into white smoke (this is called visible smoke). This phenomenon is caused by the fact that as the high-temperature, humidified gas is cooled by mixing with the surrounding atmosphere, the relative humidity becomes higher and finally becomes supersaturated.

Visible smoke may cause problems such as visibility problems, but if it is possible to predict the occurrence of visible smoke before such facilities such as cooling towers are constructed, take measures. You can Therefore, the problem of visible smoke may be predicted by wind tunnel experiments using a model.

The conventional wind tunnel test method is as follows.

First, the diffusion of heat is reproduced. At this time, the high temperature gas is not actually released from the model chimney, but the tracer gas at room temperature is mixed to reproduce only the heat diffusion phenomenon. Next, in the same way, reproduce the diffusion phenomenon of the amount of water vapor,
Find the distribution of temperature and water vapor in space. Finally,
From these two amounts, it is determined whether the relative humidity is 100% or more. If the relative humidity is 100% or more, it is determined that the air is oversaturated and becomes visible smoke.

[0006]

However, according to the above-mentioned method, the following two problems can be considered to occur. First, heat is handled just like diffusion of substances, but not only the mixing and diffusion of the gas emitted from the cooling tower with the surrounding atmosphere, but also the transfer of heat to the surrounding atmosphere, It is possible that this phenomenon cannot be reproduced. Similarly to heat, water vapor is treated in the same manner as the diffusion of substances, but there is a problem that the actual decrease in the amount of water vapor in the air, which is supersaturated and condensed, cannot be reproduced.

In the first invention of the present application, a tracer gas is introduced and a heating chamber having a built-in heater for heating the tracer gas is provided, and one end is connected to the heating chamber and the other end is in a wind tunnel measuring chamber on the downstream side of the air flow. Controls the temperature and humidity of the gas emitted from the model chimney by having an extended model chimney and a pipe that is connected in the middle of this model chimney and introduces moisture into the tracer gas inside the model chimney. Then, it aims at providing the wind tunnel experimental apparatus which can reproduce the phenomenon of the amount of water vapor by the water vapor by heat transfer and condensation in a wind tunnel.

In the second invention of the present application, a tracer gas is introduced and a heating chamber with a built-in heater for heating the tracer gas is connected to the heating chamber, and moisture is introduced into the tracer gas. Similar to the first aspect of the present invention, by having a humidifying chamber containing the water and a model chimney having one end connected to the humidifying chamber and the other end extending into the wind tunnel measurement chamber on the downstream side of the airflow. , It is an object of the present invention to provide a wind tunnel experimental apparatus capable of reproducing the phenomenon of the amount of water vapor due to water vapor due to heat transfer and condensation in the wind tunnel.

Further, in the third invention of the present application, a tracer gas is introduced and a humidification chamber containing water for introducing moisture into the tracer gas, a heating chamber connected to the humidification chamber, and one end of which is provided. With the configuration including the model chimney connected to the heating chamber and having the other end extended into the wind tunnel measurement chamber on the downstream side of the air flow, the same as in the first invention,
It is an object of the present invention to provide a wind tunnel experimental device capable of reproducing the phenomenon of the amount of water vapor due to water vapor due to heat transfer and condensation in the wind tunnel.

[0010]

According to a first aspect of the present invention, a tracer gas is introduced into a wind tunnel measuring device for discharging a tracer gas into a wind tunnel measuring chamber in which an air flow is generated, and the tracer gas is added to the tracer gas. A heating chamber with a built-in heater, a model chimney with one end connected to this heating chamber and the other end extending into the wind tunnel measurement chamber on the downstream side of the air flow, and a tracer in the model chimney connected in the middle of this model chimney. It is a wind tunnel experimental device characterized by comprising a pipe for introducing water into gas.

The second invention of the present application is a wind tunnel experimental apparatus for discharging a tracer gas into a wind tunnel measuring chamber in which an air flow is generated to perform geodetic measurement. A chamber, a humidification chamber that is connected to this heating chamber and contains water for introducing water into the tracer gas, and one end is connected to this humidification chamber and the other end is inside the wind tunnel measurement chamber on the downstream side of the air flow. The wind tunnel experimental device is characterized by comprising an extended model chimney.

The third invention of the present application is, in a wind tunnel experimental apparatus for discharging a tracer gas into a wind tunnel measuring chamber in which an air flow is generated and performing measurement, a tracer gas is introduced, and water for introducing water into the tracer gas is introduced. And a heating chamber connected to the heating chamber, and a model chimney having one end connected to the heating chamber and the other end extending into the wind tunnel measurement chamber downstream of the air flow. This is a wind tunnel experimental device.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Each embodiment of the present invention will be described below with reference to the drawings.

Example 1 Reference is made to FIG. Reference numeral 1 in the figure is a wind tunnel measurement room. An air flow 2 is generated in the wind tunnel measurement chamber 1. Below the wind tunnel measurement chamber 1, a heating chamber 4 into which a tracer gas 3 is introduced.
Are arranged. The heating chamber 4 has a built-in heater, and the tracer gas 3 is heated to 60 to 70 degrees. A model chimney 6 is connected to the heating chamber 4 via a pipe 5. Here, the model chimney 6
The other end of is extended into the wind tunnel measurement chamber 1 located on the downstream side of the air flow 2. A pipe 8 for introducing the moisture 7 into the tracer gas 3 passing through the pipe 5 is connected in the middle of the pipe 5. Here, the moisture 7 and the tracer gas 3 are mixed to form water vapor and atomized moisture 10.

In the wind tunnel experimental apparatus having such a configuration, the moisture 7 introduced through the pipe 8 and the tracer gas 3 are mixed to form water vapor. At this time, the humidity is determined by the temperature of the tracer gas 3 and the amount of the introduced moisture. . The heated and humidified tracer gas 3 is discharged from the model chimney 6 into the wind tunnel measurement chamber 1, but is cooled by mixing with the air flow 2 and condensation of water vapor occurs, and the phenomenon of visible smoke 9 is reproduced. In addition, it is preferable that the tracer gas 3 is not supersaturated at the outlet of the chimney model 6 (relative humidity is not more than 100% above atmospheric humidity).

According to the wind tunnel test apparatus of the first embodiment, the heating chamber 4 heats the tracer gas 3 and the tracer gas 3 is humidified by the water 7 introduced through the pipe 8. By heating and humidifying the tracer gas emitted from the model chimney 6 in advance, the visible smoke phenomenon can be reproduced in the wind tunnel measurement chamber 1.

(Embodiment 2) Referring to FIG. Note that FIG.
The same members will be described with the same reference numerals. Reference numeral 1 in the figure is a wind tunnel measurement room. An air flow 2 is generated in the wind tunnel measurement chamber 1. Below the wind tunnel measurement chamber 1, a heating chamber 4 into which the tracer gas 3 is introduced is arranged. The heating chamber 4 has a built-in heater, and the tracer gas 3 is heated to 60 to 70 degrees. To the heating chamber 4, a humidification chamber 12 containing water 11 kept at a temperature slightly lower than that of the heating chamber 4 is connected to the bottom portion. Therefore, the temperature inside the humidification chamber 12 is also substantially equal to the water temperature. Further, the relative humidity in the humidification chamber 12 is maintained at almost 100%. Since the tracer gas 3 having a temperature slightly higher than the temperature in the humidification chamber 12 is introduced into this, the relative humidity is 100%.
It is expected to fall below%. A model chimney 6 is connected to the humidification chamber 12. Here, the model chimney 6
The other end of is extended into the wind tunnel measurement chamber 1 located on the downstream side of the air flow 2. The tracer gas 3 is discharged from the model chimney 6 to the wind tunnel measurement chamber 1, but is cooled by mixing with the air flow 2 to cause condensation of water vapor, and the phenomenon of visible smoke 9 is reproduced.

According to the wind tunnel experimental apparatus according to the second embodiment, the tracer gas 3 is heated by the heating chamber 4 and the water 11
Since the tracer gas 3 is humidified by the humidification chamber 12 that accommodates the tracer gas emitted from the model chimney 6 in advance, the visible smoke phenomenon is generated in the wind tunnel measurement chamber 1 by heating and humidifying the tracer gas. Can be reproduced at. Further, according to the second embodiment, the relative humidity at the outlet of the model chimney 6 can be controlled to be lower than that of the first embodiment.

(Embodiment 3) Referring to FIG. Note that FIG.
The same members will be described with the same reference numerals. Reference numeral 1 in the figure is a wind tunnel measurement room. An air flow 2 is generated in the wind tunnel measurement chamber 1. Below the wind tunnel measurement chamber 1, a humidification chamber 12 in which the tracer gas 3 is introduced and maintained at 50 to 60 degrees is arranged. Water 11 is stored in the bottom of the humidification chamber 12. A heating chamber 4 having a built-in heater is connected to the humidification chamber 12. The heating chamber 4 heats the tracer gas 3 to 60 to 70 degrees. A model chimney 6 is connected to the heating chamber 412. Here, the other end of the model chimney 6 extends into the wind tunnel measurement chamber 1 located on the downstream side of the air flow 2. The tracer gas 3 is discharged from the model chimney 6 to the wind tunnel measurement chamber 1, but is cooled by mixing with the air flow 2 to cause condensation of water vapor, and the phenomenon of visible smoke 9 is reproduced.

According to the wind tunnel test device according to the third embodiment,
Since the tracer gas 3 is humidified by the humidifying chamber 12 containing 11 and the tracer gas 3 is further heated by the heating chamber 4, the tracer gas discharged from the model chimney 6 is warmed and humidified in advance. By doing so, the visible smoke phenomenon can be reproduced in the wind tunnel measurement chamber 1. Also,
In Example 3, the humidification chamber 12 kept at 50 to 60 degrees
Since the tracer gas 3 which has passed through is heated in the heating chamber 4, heat is again applied to the tracer gas 3 cooled in the pipe, and the relative humidity is controlled to be lower than 100% as compared with the second embodiment. Expected to be easier. That is, according to Embodiment 3, it is easier to control the relative humidity at the outlet of the model chimney 6 than in Embodiment 2.

[0021]

As described in detail above, according to the present invention, the temperature and humidity of the gas discharged from the model chimney are controlled to reproduce the phenomenon of the amount of water vapor due to the movement of heat and condensation in the wind tunnel. It is possible to provide a wind tunnel experimental device.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a wind tunnel experiment device according to a first embodiment of the present invention.

FIG. 2 is an explanatory diagram of a wind tunnel experiment device according to a second embodiment of the present invention.

FIG. 3 is an explanatory diagram of a wind tunnel experiment device according to a third embodiment of the present invention.

[Explanation of symbols]

1 ... Wind tunnel measurement room, 2 ... airflow, 3 ... Tracer gas, 4 ... heating chamber, 5,8 ... Piping, 6 ... Model chimney, 7 ... water, 9 ... visible smoke, 10 ... atomized water, 11 ... water, 12 ... Humidification chamber.

─────────────────────────────────────────────────── ─── Continuation of front page (56) Reference JP-A-11-287733 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) G01M 9/04

Claims (3)

(57) [Claims] 1. In a wind tunnel experimental apparatus for discharging a tracer gas into a wind tunnel measuring chamber in which an air flow is generated for measurement, a heating chamber with a built-in heater for introducing a tracer gas and heating the tracer gas is provided at one end. A model chimney connected to the heating chamber and having the other end extending into the wind tunnel measurement chamber on the downstream side of the airflow, and a pipe connected to the model chimney in the middle to introduce water into the tracer gas in the model chimney are provided. A wind tunnel experimental device characterized in that 2. In a wind tunnel experimental apparatus for discharging a tracer gas into a wind tunnel measuring chamber in which an air flow is generated to perform geodesic, a heating chamber with a built-in heater for introducing the tracer gas and heating the tracer gas, and this heating chamber. A humidification chamber connected to the chamber and containing water for introducing water into the tracer gas, and a model chimney having one end connected to the humidification chamber and the other end extending into a wind tunnel measurement chamber downstream of the air flow. And a wind tunnel experimental apparatus. 3. A humidification chamber containing water for introducing tracer gas and introducing water into the tracer gas in a wind tunnel experimental apparatus for discharging the tracer gas into a wind tunnel measuring chamber in which an air flow is generated for measurement. And a heating chamber connected to the humidification chamber, and a model chimney having one end connected to the heating chamber and the other end extending into a wind tunnel measurement chamber downstream of the air flow. Experimental device.