SU1036899A2 - Method and apparatus for thermal breaking of mineral media with supersonic jet of heated gas - Google Patents

Abstract

1 Method of thermal destruction of mineral media by supersonic jet of heated gas along aBTi st. 998753, characterized in that, in order to increase the destruction efficiency by increasing the amplitude of oscillations of the gas jet around the resonator, an electromagnetic field is created, through which additional oscillations with a frequency equal to the natural frequency of the oscillations of the resonator walls are communicated to the resonator. ; 2., A device for the thermal destruction of mineral media with a supersonic jet of heated gas according to ed. St. 998753, that is, that it is equipped with an electromagnetic oscillatory circuit in the form of an inductance coil surrounding the resonator, connected to a direct current source (L through a variable capacitor. -.

Description

This invention relates to a method lep. thermal destruction of mineral media with a supersonic jet of heated gas and a device for its implementation, and can be used for thermal drilling, cutting, surface treatment and volume crushing. According to the main author. St. 998753 known method of thermal destruction of mineral supersonic jet of heated gas, in accordance with which the gas jet is passed through a hollow resonator to enhance its vibrations and directed to. This means that the resonator is moved in the longitudinal direction relative to the outgoing gas jet until a resonance occurs between the oscillations of the jet and the natural oscillations of the medium being destroyed, which is determined visually by the results of the destruction. The device for performing the process comprises a gas generator with a nozzle for forming a flowing jet of gas and a hollow resonator located coaxially with the nozzle. a pipe connected to the gas generator case with the possibility of an axial adjustment movement relative to the nozzle section, the resonator being connected to the gas generator case by means of a fl. The aim of the invention is to increase the efficiency of destruction. By increasing the amplitude of oscillations of a gas jet. The goal is achieved by agreeing to the method of thermally destroying mineral media with a supersonic jet of heated gas, which creates an electromagnetic field around the resonator, with which it oscillates at a frequency oscillation frequency of the resonator walls. In addition, a device for thermal destruction of mineral media with a supersonic jet of heated gas is equipped with an electromagnetic oscillatory circuit in the form of an inductively coupled resonator coil that is connected to a DC source through a variable capacitor. The drawing shows the scheme of the proposed device. The device for thermal destruction of mineral media. Contains a gas generator having a housing 1 in which a combustion chamber 2 is placed with an upper head 3 serving to supply fuel to the nozzle 4 via channel 5 and an oxidizer through channel b into the combustion chamber 2. A nozzle 7 is installed at the exit of the combustion chamber 2. A protrusion 8 with an external thread is provided on the gas generator case 1, by means of which a tubular resonator 9 mounted coaxially to the nozzle 7 is held on the case 1. and end cover 11 with a hole 12. When the resonator 9 rotates, it can move along the thread of the protrusions 8 along the housing 1. Outside the pipe 10 of the resonator 9 is an inductor 13, which, together with an adjustable capacitor 14 co Puts an electromagnetic oscillating circuit powered from an external constant current source 15. The gaseous products formed in the combustion chamber 2 are exhausted through a nozzle of 7 volts. in the form of a supersonic gas jet with a wide range of vibrations of various frequencies. By moving the resonator 9 along the housing 1, a frequency equal to or close to the natural frequency of the medium to be destroyed is separated and amplified in the resonator 9. The electromagnetic oscillatory circuit creates around the resonator 9 an external electromagnetic field. By varying the inductance and capacitance of the circuit individually or jointly, they set their own oscillation frequency of the oscillating circuit, equal to the natural frequency of the resonator 9. Resonator 9, made of a conductive material, shields electromagnetic waves excited by the oscillatory circuit. The latter do not directly affect the flow of gases in the resonator. But, it causes additional resonant oscillations between the walls of the resonator 9 and the electromagnetic waves generated by the oscillatory circuit, i.e. increasing the amplitude of oscillations of the pipe 10 of the resonator 9, it is possible to increase the amplitude of oscillations of the gas flow inside the resonator 9.. The invention increases the kinetic energy of the outgoing gas stream, the efficiency of the gas generator by up to 50-60%, and the destruction performance by a factor of 2-3.

Claims (2)

1, Method for thermal destruction of mineral media by a supersonic jet of heated gas according to ed. St. No. 998753, 'characterized in that, in order to increase the destruction efficiency by increasing the amplitude of oscillations of the gas stream around the resonator, an electromagnetic field is created by means of which additional oscillations with a frequency equal to the natural frequency of oscillation of the walls of the cavity are communicated to the resonator. 2. Device for thermal destruction of mineral media by a supersonic jet of heated gas according to ed. St. No. 998753, characterized in that it is equipped with an electromagnetic oscillating circuit in the form of an induction coil enclosing the resonator connected to a direct current source through a variable capacitor. . ·