RU2388061C1 - Method of simulating disasters caused by meteorites - Google Patents

Abstract

FIELD: physics; geophysics. ^ SUBSTANCE: invention relates to techniques of simulating physical processes and natural phenomena. The invention enables small-scale simulation of already occurred and possible disasters when meteorites which destroy the Earth's atmosphere fall. The method involves putting an object model into a reservoir filled with water. A vessel with flexible walls and tapered spout is filled to its brim with coloured water and the opening is closed. The vessel is dropped into water with the spout down. The vessel is directed by the spout towards the object model. The opening is opened and the walls of the vessel are pressed. A circular vortex then forms in the water, which is visible owing to the coloured water in the vessel. This vortex simulates the transformed aerodynamic trail from the meteorite. The effect of the circular vortex on the object mode (including on aeroplane models placed in the water in the reservoir) is captured on video. ^ EFFECT: possibility of clear evaluation of damage from disasters caused by meteorites, and determination of possible means of protection, including for aviation, possibility of meeting meteorites of which is higher than for objects on Earth. ^ 1 dwg

Description

A method for modeling disasters caused by meteorites falls refers to the technique of modeling physical processes and natural phenomena.

Modeling using technical devices is carried out in aviation by blowing aircraft models in wind tunnels; in shipbuilding, such a modeling method as dragging ship models in the hydro-channel is known.

The closest prototype of the proposed modeling method is the method of reproducing the Tunguska catastrophe described in the book by V. A. Bronshtan "Tunguska meteorite", published in 2000. In a sheet of plywood stick pieces of soft wire, designed to serve as models of trees. An explosive charge is suspended above this model and undermined. The bent wires depict fallen trees, which imitates a picture of a logging tree caused by the Tunguska meteorite.

The proposed method coincides with the prototype for its intended purpose - the reproduction of disasters that have occurred and those that may occur. Disasters are simulated, caused by meteorites that are completely destroyed even when moving in the Earth’s atmosphere until the formation of a dust cloud. Iron and stone meteorites are not among them.

The second similarity is that both methods use object models, whether it is a terrain model, a model of a building, soil cover, etc.

Otherwise, the proposed modeling method differs from the prototype due to the fact that the prototype reproduces catastrophes resulting from explosions of meteorites with the formation of a shock wave of destructive force, while the proposed modeling method is a response to a new hypothesis suggesting that the ring vortex causes the main destruction mountain-shaped, formed by the aerodynamic trail during sudden braking of meteorite decay products in the Earth’s atmosphere (the copyright for the article is protected stvom RAO for №14833.)

This method is implemented in a device containing a reservoir 1, a model 2 of the objects of study, a vessel 3 with flexible walls and a tapering neck. A video camera is used as recording equipment.

The model is placed in the tank, it is filled with water, a vessel with flexible walls and a tapering neck is taken, it is filled to the brim with tinted water, the hole is closed, the vessel is lowered down into the water, the vessel is oriented with the neck toward the object model, the hole is opened, and the vessel walls are pressed , the effect of the formed ring vortex 4 on the model of the object is fixed by video shooting.

The proposed method for modeling disasters caused by meteorites is safe and economical, as it can be implemented using improvised means.

The usefulness of the proposed modeling method lies in the fact that it allows you to assess the possible damage from disasters caused by meteorites, and determine the possible means of protection and prevent negative consequences. This is especially important for aviation, since the likelihood of encountering meteorites on the border of the troposphere, where civil aviation routes pass, is incomparably higher than with meteorites on Earth.

Claims (1)

A method for simulating catastrophes caused by a fall of meteorites collapsing in the atmosphere using a model of the object of study, characterized in that the model is placed in a tank, filled with water, a vessel with flexible walls and a narrowing neck is taken, it is filled to the edges with tinted water, the hole is closed, they lower the vessel into the water with its neck down, orient the vessel with its neck toward the model of the object, open the hole, click on the walls of the vessel and record the effect of the ring vortex on an object model.

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