Hydrodynamics when drilling with an impregnated diamond tool with the eccentricity of the cutting part of the end face of the drilling tool matrix [Гидродинамика при бурении импрегнированным породоразрушающим инструментом с эксцентриситетом режущей части торца матрицы] | Научно-инновационный портал СФУ

Hydrodynamics when drilling with an impregnated diamond tool with the eccentricity of the cutting part of the end face of the drilling tool matrix [Гидродинамика при бурении импрегнированным породоразрушающим инструментом с эксцентриситетом режущей части торца матрицы]

Тип публикации: статья из журнала

Год издания: 2020

Идентификатор DOI: 10.18799/24131830/2020/11/2899

Ключевые слова: circulation system of the drilling tool, computer modeling, diamond drilling tools, eccentricity of the cutting part of the end face of the diamond drilling tool matrix, hydrodynamics during drilling

Аннотация: Relevance. High requirements are put forward for the design of modern rock-cutting tools. A drilling tool is in demand, due to the design of which most of the drilling tasks: compliance with the projected trajectory of the wellbore, high drilling speed and resource of the drilling tool, effective destruction of rock, quality of core selection, etc. are solved. Often, when solving one problem by changing the structural elements of the tool, developers do not take into account another one, which may be no less significant. Thus, the development of a diamond tool with the eccentricity of the cutting part of the matrix end has significantly reduced the intensity of natural curvature of wells, which is especially important when drilling in anisotropic rocks. However, the change in the design of the diamond tool resulted in a reduction in the tool's life. The authors have repeatedly pointed out the need for a comprehensive approach to the study of the mechanism of the drilling tool operation. In this regard, given the advantage of the resulting design in the field of regulating the well curvature, it is relevant to study the causes of rapid wear of such a drilling tool. The main reason for wear of a diamond tool is overheating and sludge bounding of the cutting part, so when designing any diamond drilling tool, it is necessary to further investigate the hydrodynamic processes occurring during its operation at the bottom of the well. The purpose of research is to determine the characteristics of the drilling mud flow within the diamond tool, to identify the main causes of matrix wear associated with hydrodynamics at the bottom, as well as design solutions to the problems identified. Objects: hydrodynamics of drilling with an impregnated drilling tool. Methods: computer modeling, analytical research, analysis. Result. Changing the design of the end face of the diamond tool matrix in the direction of shifting the uniformity of the placement of sectors leads to an uneven distribution of drilling mud in the area of operation of the tool. As a result, the most sludge bound sectors are less well cleaned with drilling mud and wear out faster. To implement the task - the eccentricity of the cutting part with a high resource, the variants of the design of the end face of the impregnated crown are proposed. © 2020 Tomsk Polytechnic University, Publishing House. All rights reserved.

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Издание

Журнал: Bulletin of the Tomsk Polytechnic University, Geo Assets Engineering

Выпуск журнала: Vol. 331, Is. 11

Номера страниц: 176-185

ISSN журнала: 25001019

Издатель: Tomsk Polytechnic University, Publishing House

Авторы

  • Neskoromnykh V.V. (Siberian Federal University, 95, Krasnoyarskiy rabochiy avenue, Krasnoyarsk, 660095, Russian Federation)
  • Petenev P.G. (Siberian Federal University, 95, Krasnoyarskiy rabochiy avenue, Krasnoyarsk, 660095, Russian Federation)
  • Popova M.S. (Siberian Federal University, 95, Krasnoyarskiy rabochiy avenue, Krasnoyarsk, 660095, Russian Federation)
  • Komarovsky I.A. (Siberian Federal University, 95, Krasnoyarskiy rabochiy avenue, Krasnoyarsk, 660095, Russian Federation)
  • Golovchenko A.E. (Siberian Federal University, 95, Krasnoyarskiy rabochiy avenue, Krasnoyarsk, 660095, Russian Federation)
  • Baochang L. (Jilin University, 938, Ximinzhu street, Changchun, 130026, China)

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