SU445874A1 - Aerodynamic installation - Google Patents

Description

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The invention relates to installations for the study of soil erosion effects of wind erosion.

Known aerodynamic installations containing horizontal wind tunnel, dust collectors and air velocity meters.

However, it is not possible to estimate the influence of the iol size, soil relief (inclination angle and microgeometry of the floor surface), etc., using a known setup.

In order to study the effect of wind erosion on the soil in the proposed installation, the pipe in the lower part has a window for entering the soil under study and is provided with horizontal slider, which is movable in the horizontal plane. The plant is equipped with a cart with a platform equipped with mechanisms for the vertical movement of the platform for feeding soil into the window. To study the kinematics of the movement of soil particles in the air flow, the upper part of the pipe is made transparent and equipped with additional curtains installed perpendicular to the axis of the air tract.

The drawing shows a schematic diagram of the proposed aerodynamic installation.

The installation is mounted on the foundation I, on which the track 2 is strengthened. The installation has a trolley 3, platform 4, wind tunnel 5 with transparent walls, curtains 6, fan 7, engine 8, thermocouples 9, moisture chambers 10, louver And,

a wall 12 in the form of a plate with grooves and holes; devices 13 for determining the speed of the air flow; dust collectors 14; and recording devices. The bottom of the wind tunnel has a window

curtain overlap for resizing the area. The shutter can be driven manually or with an engine. The plant is equipped with a trolley on which a platform with the studied soil is mounted.

Vertical movement mechanisms are provided to enter the platform with the soil into the pipe window.

The platform is made in the form of a box, the walls of which are removable and can be installed

in the grooves located on the partition, which divides the box into two parts. In the upper part, the soil is poured onto the partition wall, in the lower part there is air space, which is connected to the fan,

creating either pressure or discharge. It is known that the particles are detached by the air flow due to the pressure difference caused by the difference in air movement in the near-wall layer and at the height. In order to evaluate

influence of flow velocity and pressure on

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at the interface between the soil and the air flow (depletion of the separation force), either air support or discharge in the studied soil is artificially created. Pressure or vacuum changes the velocity response of the air stream causing the particle to break (the start of soil erosion).

For the purpose of continuous visual observation, a part of the wind tunnel is made transparent and has two curtains, which are installed with the possibility of mixing perpendicular to the axis of the air flow.

The installation works as follows.

The test material (real soil or soil model) is poured into the platform, where it is prepared according to specified parameters (loosening, hardening, surface profile, moisture content, binder coating, vegetation cover installation, etc.), after which it is installed in a wind tunnel and fixed. The trolley device allows the platform to be moved in vertical and horizontal directions, setting any angle of inclination.

To measure the temperature, thermocouples are installed on the surface of the material at a predetermined depth, as well as in the working chamber, and instruments for determining humidity are placed in the same places. Then they install speed sensors, dust collection devices, check the operation of heating and cooling elements, and sprayers. After

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This includes the fan and the necessary parameters are measured at a given wind speed.

In the process of blowing, you can change the humidity, temperature, air flow rate, the angle of inclination of the plate, etc.

To increase productivity and evaluate multi-factor, there is a second carriage with a platform where material is prepared with desired properties.

Subject invention

1. Aerodynamic installation containing horizontal wind tunnel, penetrating instruments and air flow velocity meters, characterized in that, in order to study the effect of wind erosion on the soil, the pipe in the lower part has a window for entering the studied trap and is movable in a horizontal plane curtains.

2. Installation on n. 1, characterized in that it is equipped with a trolley with a platform equipped with mechanisms for the vertical movement of the platform for feeding soil into the pipe window.

3. Installation on n. 1, characterized in that, in order to study the kinematics of the movement of soil particles in the air stream, the upper part of the pipe is made transparent and equipped with additional curtains perpendicular to the axis of the air stream.