Physical simulation aspects of structural changes in rock samples under thermobaric conditions at great depths

When designing the parameters for the development of oil and gas field at significant depths, crucial to comprehend how certain factors affect the behavior of reservoir rocks and host rocks. These factors include the high level of rock stress, the ambient temperature field, and the hydro- and gas-dy...

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Bibliographic Details
Main Authors: M. D. Ilyinov, D. N. Petrov, D. A. Karmanskiy, A. A. Selikhov, М. Д. Ильинов, Д. Н. Петров, Д. А. Карманский, А. А. Селихов
Format: Article in Journal/Newspaper
Language:Russian
English
Published: The National University of Science and Technology MISiS (NUST MISiS) 2023
Subjects:
структурные изменения
sample
stress
pore pressure
temperature
structure
acoustic emission
field
structural changes
образец
напряжение
поровое давление
температура
структура
акустическая эмиссия
месторождение
Annals of Glaciology
Arctic
Online Access:https://mst.misis.ru/jour/article/view/590
https://doi.org/10.17073/2500-0632-2023-09-150
Description
Summary:When designing the parameters for the development of oil and gas field at significant depths, crucial to comprehend how certain factors affect the behavior of reservoir rocks and host rocks. These factors include the high level of rock stress, the ambient temperature field, and the hydro- and gas-dynamic processes within the mass. The impact of one or a combination of these factors can result in alterations to the construction, structure, composition, and properties of the rock mass and, ultimately leading to a mismatch between the design solutions and the actual conditions.The purpose of the research is to establish a methodology for conducting laboratory studies that investigate the impact of the mode of occurrence of oil and gas field reservoirs at great depths on the properties of rock samples.The research objectives encompass a theoretical analysis and the identification of the principal factors influencing rock behavior and changes in internal structure. Additionally, the objectives include developing laboratory research methods that comprehensively simulate these factors and conducting trial experiments to assess their effects.As part of the project, tests were conducted on sandstone samples collected from depth ranging from 3.5 to 4 km within the hydrocarbon field. These studies were performed while simulating thermobaric reservoir conditions, which include temperature, rock pressure, and reservoir pressure.The results of these experiments, aimed at examining the behavior of rock samples as closely as possible to their natural reservoir occurrence at depth of 3.5–4 km, are presented. It has been observed that rock samples of the same lithology, collected from nearly identical depths, can exhibit significant differences in deformation characteristics, both in the pre- and off-limit regions of loading. The findings from these studies provide the initial data for the development and refinement of geomechanical model behavior for materials that take into account not only fracture strength criteria but also ...

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