KR20120121987A - method of seeding particle uniformly into towing tank in application of particle image velocimetry - Google Patents

Abstract

PURPOSE: A method for uniformly spraying particles within a towing tank when using a particle image current meter is provided to uniformly distribute particles at a desired concentration and to conveniently maintain and repair a device by forming the device in modules. CONSTITUTION: A method for uniformly spraying particles within a towing tank when using a particle image current meter is as follows: A mixing tank(1) manufactures a mixture of particles and water. The mixture is supplied to a spraying nozzle(2). The spraying nozzle sprays the mixture of the particles and water supplied from the mixing tank to the inside of a towing tank. A flow disturbing net(3) is arranged in the rear part of the spraying nozzle, thereby disturbing the mixture of the particles and water being sprayed from the spraying nozzle by passing the same through a body of a lattice structure. [Reference numerals] (AA) Up; (BB) Front; (CC) Rear; (DD) Down; (EE) Water level; (FF) Towing carriage moving direction

Description

Method of seeding particle uniformly into towing tank in application of particle image velocimetry}

The present invention relates to a method of uniformly injecting particles into a towing tank while moving with a towing tank mounted on a towing tank when using a particle image flow meter.

Particle image velocimetry is a qualitative flow visualization method that has recently been in the spotlight, such as laser doppler velocimetry, hot-wire anemometry, and pitot tube, which are point-wise measurements. Unlike the (pitot tube), there is an advantage that the spatial structure of the flow can be grasped at a time by whole-field measurement.

The particle image flowmeter system stores a light source for illuminating a specific area to be measured in a flow field, particles having characteristics of scattering and well following the flow, one or more cameras that capture particle images, and captured particle images. And an analysis program that obtains the velocity field through image processing, and a computer on which the analysis program is run.

For accurate velocity field calculation, it is important to uniformly distribute the particles at appropriate concentrations in the measurement field in the flow field.

In the case of cavitation tunnel, circulating water tank, and wind tunnel, it is possible to distribute the particles in the whole fluid field because the amount of the total fluid is not high. There is no particular problem.

However, in the towing tank, the total amount of the fluid is so large that the particles are distributed only in a specific area. As the number of towing trains increases, the concentration of particles in the measurement area gradually decreases due to flow disturbance. In addition, as the density difference between the particles and water is different, the particle concentration in the measurement area decreases over time after particle injection. Therefore, in the towing tank, how uniformly the particles are dispersed in the initial stage is relatively important compared to the cavitation tunnel, the circulating tank, and the wind tunnel.

The present invention has been proposed to solve the above problems, a method for increasing the reliability of the measurement results by dispersing the particles to a uniform concentration initially in measuring the flow using a particle image flow meter in the towing tank It aims to provide.

According to an aspect of the present invention,

A method of uniformly injecting particles into the towing tank while moving with the towing tank mounted on the towing tank when using the particle image flow meter.

Mixing tank to produce a mixture of particles and water and supplying to the injection nozzle;

Spraying the nozzle with a mixture of particles and water supplied from the mixing tank into a towing tank;

A flow disturbing mesh is positioned behind the injection nozzle to disturb the mixture of particles and water sprayed from the injection nozzle through a body of a lattice structure;

When using a particle image flow meter including a method to uniformly spray the particles in the towing tank.

According to the present invention, the following advantageous effects can be obtained. First, it is possible to uniformly distribute the particles to the desired concentration when using the particle image flow meter in the towing tank. Secondly, the device is modular and easy to maintain. Third, it is possible to easily respond to the changing experimental conditions by adjusting the position and quantity of the injection nozzle, the number of the network for the flow disturbance.

1 is a configuration of a particle injector according to an embodiment of the present invention.
2 is a configuration of a spray nozzle according to an embodiment of the present invention.
Figure 3 is a configuration of the flow disturbance net in accordance with an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

An object of the present invention is to provide a method for increasing the reliability of the measurement results by dispersing particles at a uniform concentration initially in measuring flow using a particle image flow meter in a towing tank. The present invention for the mixing tank (1) to prepare a mixture of particles and water and supplying to the injection nozzle (2); Injecting a mixture of particles and water supplied from the mixing tank 1 into the towing tank by the spray nozzle 2; And a flow disturbing mesh 3 positioned behind the injection nozzle 2 to disturb the mixture of particles and water sprayed from the injection nozzle 2 through the body of the lattice structure.

The present invention is a device comprising a mixing tank (1), injection nozzle (2), flow disturbance net (3), fixed fixture (4) and flow regulator (hereinafter referred to as 'particle injection device') It is implemented in 1 shows a configuration of a particle injector according to an embodiment of the present invention. The present invention is mounted on the towing tank (7) and moves together with the towing tank (7) while uniformly injecting particles into the towing tank. Hereinafter, the present invention will be described in detail with a focus on the functions and functions of the mixing tank 1, the injection nozzle 2, the flow disturbance net 3, the fixed fixture 4 and the flow regulator 5.

1. Mixing Tank

The mixing tank 1 produces a mixture of particles and water and supplies it to the injection nozzle 2.

In the towing tank experiment, the experimenter puts the particles and water into the mixing tank (1) and mixes them to make a mixture. The mixing tank 1 stores the mixture of particles and water thus prepared and supplies the mixture of particles and water to the injection nozzle 2 at the moment required for the experiment. The mixing tank 1 is connected to the injection nozzle 2 by a hose 8 as shown in FIG.

Since the mixing tank 1 may be a little bulky and heavy, it is more stable to be mounted on the towing tank 7 as shown in FIG. 1.

2. Injection nozzle

The injection nozzle 2 injects a mixture of particles and water supplied from the mixing tank 1 into the towing tank.

As shown in FIG. 1, the injection nozzle 2 is mounted below the towing tank 7 by the fixing jig 4, and is locked below the surface of the towing tank during the experiment.

In the present invention, it is preferable that the plurality of injection nozzles 2 are arranged in a lattice shape at regular intervals as shown in FIG. This is to ensure that the particles are evenly sprayed over the desired measurement area at one time in the towing tank experiment.

3. Flow disturbance net

The flow disturbing mesh 3 is located behind the spray nozzle 2 and disturbs the mixture of particles and water sprayed from the spray nozzle 2 through the body of the lattice structure.

The flow disturbance net 3 is mounted to the rear of the injection nozzle 2 under the towing tank 7 by the fixing jig 4 as shown in FIG. 1, and the towing tank together with the injection nozzle 2 during the experiment. Will be locked down to sleep. 3 shows the lattice structure body of the flow disturbing net 3.

Immediately after the mixture of particles and water is injected from the injection nozzle 2, the particle concentration in the towing tank is not uniform because it is still sufficiently mixed with the water in the towing tank. Therefore, it is necessary to ensure a uniform particle concentration state in the towing tank by rapidly mixing the mixture of the particles and water injected from the injection nozzle 2 with the water of the towing tank quickly.

In the case of the present invention, the mixture of particles and water injected from the injection nozzle 2 is passed directly through the lattice structure of the flow disturbance net 3, in which the mixture of particles and water is rapidly mixed with the water of the towing tank. Thus, the particle concentration in the towing tank behind the flow disturbance net 3 is in a uniform state.

Meanwhile, one flow disturbance net 3 may be provided, but more preferably, a plurality of flow disturbance nets 3 overlap each other at predetermined intervals. Because a plurality of flow disturbance meshes 3 are installed to overlap at a predetermined interval, the flow of particles and water sprayed from the spray nozzles 2 repeatedly passes through the plurality of flow disturbance meshes 3. This is because disturbances are accelerated further and a uniform state of particle concentration in the towing tank can be obtained in a shorter time. 1 shows a state in which two flow disturbance nets 3 are installed to overlap.

4. Fixture

Fixing fixture 4 serves as a kind of frame structure to mount the spray nozzle (2) and the flow disturbance net (3) under the towing tank (7).

As shown in FIG. 1 and FIG. 2, the fixing jig 4 is provided with a plurality of fixing rods 6 in the vertical direction for attaching the injection nozzle 2 in the vertical direction.

In this case, the injection nozzle 2 is attached to the fixing fixture 4 in such a manner that the entire nozzle module is fitted to the fixing rod 6. Therefore, according to the present invention, it is easy to add a new spray nozzle 2 or remove the existing spray nozzle 2 to the fixed rod 6 in response to changing experimental conditions. In addition, since the fixed rod 6 is provided in the vertical direction, the experimenter can easily adjust the vertical position of the spray nozzle 2 by selecting the position of the fixed rod 6 on which the spray nozzle 2 is to be installed. In this case, it is easy to cope with the case where the depth of the measurement area in the towing tank changes.

5. Flow regulator

The flow controller 5 controls the flow rate of the mixture of the particles and water supplied from the mixing tank 1 and supplies it to the injection nozzle 2.

The flow regulator 5 is installed between the mixing tank 1 and the injection nozzle 2, as shown in Figure 1 to adjust the flow rate of the mixture of particles and water supplied to the injection nozzle (2). Therefore, the experimenter can easily adjust the pressure or the amount of the mixture of the particles and water injected from the injection nozzle 2 by the action of the flow regulator 5 in accordance with the changing experimental conditions.

As described above, according to the present invention, the following advantageous effects can be obtained. First, it is possible to uniformly distribute the particles to the desired concentration when using the particle image flow meter in the towing tank. Secondly, the device is modular and easy to maintain. Third, it is possible to easily cope with the changing experimental conditions by adjusting the position and quantity of the injection nozzle (2), the number of the flow disturbance net (3).

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1: Mixing tank 2: Injection nozzle
3: flow disturbance net 4: fixed fixture
5: flow regulator 6: fixed rod
7: towing tank 8: hose

Claims (6)

A method of uniformly injecting particles into the towing tank while moving with the towing tank mounted on the towing tank when using the particle image flow meter.
Mixing tank to produce a mixture of particles and water and supplying to the injection nozzle;
Spraying the nozzle with a mixture of particles and water supplied from the mixing tank into a towing tank;
A flow disturbing mesh is positioned behind the injection nozzle to disturb the mixture of particles and water sprayed from the injection nozzle through a body of a lattice structure;
Method for uniformly spraying particles in the towing tank when using a particle image flow meter comprising a. The method of claim 1,
Supplying a flow rate controller to the injection nozzle by adjusting a flow rate of the mixture of particles and water supplied from the mixing tank;
Method for uniformly spraying the particles in the towing tank when using the particle image flow meter, characterized in that it further comprises. The method of claim 1,
The spray nozzle and the flow disturbance net is a method for injecting particles uniformly in the towing tank when using a particle image flow meter, characterized in that mounted under the towing tank by a fixed jig. The method of claim 1,
The spray nozzle is a method for uniformly spraying the particles in the towing tank when using a particle image flowmeter, characterized in that the plurality is arranged in a grid shape at regular intervals. The method of claim 1,
The flow disturbance net is a method for uniformly injecting particles in the towing tank when using a particle image flowmeter, characterized in that one is installed or a plurality of overlapping. The method of claim 3, wherein
The fixing jig is a method for uniformly injecting particles in the towing tank when using a particle image flowmeter, characterized in that it comprises a plurality of horizontal rods in the vertical direction for attaching the injection nozzle.

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