SU724731A1 - Method of breaking rock with electromagnetic waves - Google Patents

Description

... ..,:;, 1...: The invention relates to the elimination of rocks by the electromagnetic waves of ultrahigh frequency of different energy density and can be used, in particular, in the extraction of minerals. The method of destruction of man-made rocks by their electromagnetic irradiation microwave waves, which are based on the fact that electromagnetic waves generated by several power sources (240 W) make deep into the rock, where waves from all sources meet and produce internal heating of the hearth. As a result, under the influence of thermal expansion, it is destroyed (l However, in implementing this method, the electromagnetic waves from each generator, meeting in the depth of the rock, continue to propagate in the former directions, while only a small part of the electromagnetic energy turns into heat areas of rock to be destroyed. The main part of the electromagnetic energy of each source goes to the outside of the heated volume of the rock and is dispersed in the array without doing useful work. Thus, the energy intensity of the method is very significant, and its efficiency is very low. The closest technical solution to the invention is a method of rock destruction by electromagnetic waves of ultrahigh frequency of different energy density, according to which the rock is first blasted with waves of lower energy density until its thermal wake is formed and then with waves of higher energy density before thermal destruction of hearths in the heat trace zone With this method of destruction it reduces the energy intensity due to the fact that the rock is first irradiated are

i-.lvrrr--,. „.-. Electromagnetic waves of one frequency before the formation of an elevated magnetic field of its magnitude (about 3Q-200 kV / cm) and then irradiated with waves with a frequency of one or more times as high. However, the cost-effectiveness of the process is destroyed even in this case The aim of the invention is to increase the cost-effectiveness of the destruction process. / The goal is achieved as a result of the irradiation of the rock with waves of higher energy density in the direction perpendicular to the thermal the trace, and after the occurrence of a pa in it (irradiation of the focus, is progressively moved along it. The drawing shows a diagram of the rock destroyed by the proposed method. The method is carried out as follows.. The first electromagnetic wave with a flux density of 150-ZOOW / cm

The rock coming into the massif 1 from the generator 2 SV of H-energy through the adjustable power reducer 3 and the radiating antenna 4 cause selective heating of the array along the direction of propagation of electromagnetic radiation. Heating leads to a change in the dielectric properties of the rock and, in particular, to an increase in dielectric iron. In the array of porous 1, an zone 5 is stretched along the Z axis with a higher dielectric constant thermal trace of the first electromagnetic wave.

Pse; 1e of creating a thermal trace, the generator 2 is turned off, and the rock 1 by the second wave with an energy flux density of 5000 kW / cm, which enters the target from the generator 6 through the adjustable power source 7 and the radiating antenna 8. The second

The magnetic circuit is sent to the isiaccHB perpendicular to the direction of propagation first to cross it. with heat trace 5.

When interacting with the rock 1, located in zone 5 of the thermal wake, the divergence of the second wave reduces

c, due to which the radiation intensity in the array is psnbyshchy and the second wave is self-focused on the axis 2 of the heat trace 5. In the self-focusing mode, the energy of the second wave is spent on generation 724,731

Thus, when implementing the proposed method of destruction, the energy of both electromagnetic waves is completely spent on destruction, since all the energy of the first wave is spent on creating a thermal trace in the rock, which is fully used when the second wave moves along it, and the second wave is absorbed by the focus in the thermal trace area .

The proposed method destroys crystalline schists, amphibolites, gabbro diabases, granites, sandstones and other dielectric rocks. The destruction is carried out in laboratory conditions, and the sizes of samples of mining rocks vary from 10 10X10 cm to 40X40x40 cm. The sources of radiation are magnetron generators operating at a frequency of 2375 MHz.

Taking into account the time spent on the creation of a thermal track, the volume of mountain rock 18O-250 CKi is destroyed per second:

Claims (2)

1.Rzhevsky V.V., Protasov Yu.I., Electrical destruction of rocks. M., Nedra, 1972, from 117-119. 2. USSR author's certificate No. 581275, cl. E 21 C 37/18, 1976.