DESTRUCTION OF ROCKS BY EXPLOSION DURING OIL TRANSPORTATION

Author:

Rafail Mehdiev, Alekber Mehdiyev Rafail Mehdiev, Alekber Mehdiyev,Vurgun Gakhramanov Vurgun Gakhramanov

Abstract

When oil and gas wells are ready for operation, when drilling is carried out at the bottom of the well to establish contact with the formation, it is considered that the degree of crushing of the rocks is proportional to the speed of application of the load. As a result of the stresses created by them, the degree of fragmentation is higher. In the article, it is proposed to take into account the quality of crushing of the necessary rock by using some empirical coefficients in the calculation formulas. The dynamics of the rock dispersion process is studied on the basis of the hydrodynamic hypothesis. Here, the solution of the system of differential equations is given based on the fundamental laws of conservation of mass, energy and momentum. Based on the strength properties of mountain rocks, broken lines are found in the continuum of the whole environment, which determines the final effect of rock crushing. However, the accepted assumptions about the incompressibility of the rock and the transfer of the explosive impulse to the immediate environment significantly reduce the practical value of the results. It should be noted that in the immediate area directly adjacent to the load, the mountain rock is under uneven volume compression. In this case, the largest tangential stresses occur mainly in planes oriented at an angle of 450 to the radial direction. Thanks to this, a system of spiral sliding lines breaks the rock into small blocks. Outside this zone, a system of radial cracks is formed as a result of the expansion of the massif. When the pressure in the gas cavity decreases and the mass moves back in the direction of the load, tangential cracks appear. The combination of the volume compression zone and the reach zone constitutes the controlled crushing area. When the compression wave reaches the bare surface, it becomes a stress wave. As this wave travels from the surface to the load, it forms a system of jump cracks. The high explosive effect of explosive gases with sufficient explosion energy causes the release of such shattered rock. Obviously, this concept is very important for the development of the theory of explosive disintegration of mountain rocks. Because there is no unequivocal relationship between the nature of the dissolution of the rock and the acoustic hardness. One of the first to clearly describe the mechanism of shock wave formation and its transformation into a more explosive and seismic wave when detonation reaches the boundary of the charge cavity. In rocks, shock waves are formed during the entire time of expansion of the gas cavity. It explains in detail the mechanism of cracking phenomena by considering the cracks as a source of multiple reflections of the stress wave. Keywords: rock strength, constant material, scale effect, rocks, destruction probability, fractured, robustness theory, microcrack, mineral, experience constant, density of defects, displacement, compression.

Publisher

Education Support and Investment Fund NGO

Reference25 articles.

1. Baron L.I. Mining and fluid management. The subject and methods of research. - М.: Наука, p. 324.

2. Bezmaternykh V.A., Simanov V.G. 1981. The destruction of rock plates by impact // Izv. universities. Mountain magazine. - No. 11. pp. 82-87.

3. Bezmaternykh V.A., Simanov V.G. Symmetry and the criterion of fragility of fragments // Изв. universities. Mountain magazine. No. 12. 1978. pp. 40-45.

4. Hasanov I., Abbasov I., Gurbanov N. Stress-Deformed State of a Packing Ring with Eccentric Holes // Proceedings of the Latvian Academy of Sciences, Section B: Natural, Exact, and Applied Sciences. No. 74. 2020. pp. 287-292.

5. Bezmaternykh V.A., Simanov V.G., Leschukov N.N. The process of formation of fragments during explosive destruction of solid rock//Izv. universities. Mountain magazine.No.4.1978. pp.47-51

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