SU848790A1 - Method of generating impact waves in liquid - Google Patents

Description

one

The invention relates to chemical technology, mainly for carrying out hydromechanical, heat and mass transfer processes and chemical 5 reactions in the field of shock waves, as well as for transport of liquids due to pressure drop. ,

There is a known method of generating shock waves in a liquid by initiating an explosion of a gas or liquid component and directing a detonation wave into a mass of liquid W.

Lack of; The known method consists in low efficiency, j since a significant part of the explosion energy is not used to affect the mass of the liquid.

The purpose of the invention is to increase the efficiency of the impact of the detonation wave.

This goal is achieved by the fact that the explosive component, before initiating an explosion in it, falls as a jet into the mass of a liquid.

Giving the explosive component a liquid in the form of a jet and initiating an explosion in the jet allows you to fully transfer the energy of the HIO to the explosion of the liquid. A liquid arises close to a spherical shock wave, which can be easily and with small losses formed using reflectors into a flat shock wave and direct it deep into the mass of the liquid. The jet supply of the explosive component is achieved by using a nozzle. An explosion in the jet is initiated, for example, by an electric-spark igniter such as an automobile spark plug.

The method is as follows.

in a way.

The explosive component is served in the form of a jet into a mass of liquid, then initiated in a jet of explosion.

For example. Into a mass of liquid (water) enclosed in a thick-walled vessel of 3 liters supplied from one of the ends with a pressure indicator in the form of calibrated copper plates working for a cut, from the other end is fed through a nozzle with a nozzle diameter of 3 mm under a pressure of 100 kgc / cm at a pressure drop of 1 kgf / cm, an explosive oxygen-hydrogen mixture in the form of a jet. The opposite end of the vessel is provided with a gas outlet and a splash chamber. The length of the gas stream in a liquid is 20-25 mm.

Next, start the formation of gas bubbles. At the jet section at a distance of 10 mm from the nozzle nozzle section, an explosion is initiated by means of an automobile candle installed in the vessel body. Approximate explosive gas volume 300 cm. The power source for the electric-spark igniter is the ignition system from the car.

A pressure indicator registers the impulse pressure in a liquid when an explosion in a jet is up to 2000 kgf / cm, whereas when using the known method of generating an explosion of the same gas volume, the maximum recorded impulse pressure in the liquid is 600 kgf / cm. Thus, it is possible to increase the efficiency of a known method of generating shock waves in a liquid.

The use of the proposed method of generating shock waves in liquids provides a high efficiency of energy conversion of the explosion of shock waves in liquids, high reliability and ease of implementation, the possibility of using in many chemical production of the explosive gas component used in the main production process, for example, in the nitrogen cleaning absorber. hydrogen mixture from CO in the production of ammonia.

Claims (1)

1. Durov E.F. Sound geolocation. L., Nedra, 1967, p. 62, fig.17.