Sandstone SiO2 oil and gas reservoir rock porosity research by mechanical spectroscopy

Engineering Geology, Petroleum & Mineral Exploration

Authors

First and Last Name Academic degree E-mail Affiliation
Yurii Onanko No yaonanko1 [at] gmail.com Institute of Water Problems and Land Reclamation NAAS
Kyiv, Ukraine
Mukola Kulish Sc.D. kulish [at] univ.kiev.ua Taras Shevchenko National University of Kyiv
Kyiv, Ukraine
Anatoliy Onanko Ph.D. onanko [at] i.ua Taras Shevchenko National University of Kyiv
Kyiv, Ukraine
Oksana Dmytrenko Sc.D. dmytrenko [at] univ.kiev.ua Taras Shevchenko National University of Kyiv
Kyiv, Ukraine
Stepan Kuzmych No kuzmych_vg21 [at] nuwm.edu.ua National University of Water and Environmental Engineering
Rivne, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 13.08.2022 - 01:29
Abstract 

During the search and development of oil and gas fields an important role is played by the assessment of the parameters of void-pore space of their reservoir rocks. Using the method of mechanical spectroscopy the sandstone SiO2 reservoir rock the porosity coefficient was studied. This method allows establishing the structural defects spectrum from the analysis of internal friction and the relaxation time. The calculation of the balanced velocities of volume elastic waves, the acoustic tensor values in the working coordinate system, the eigenvalues and their confidence limits and their eigendirections of the deterministic component of the acoustic tensor  QUOTE mil

 of sandstone SiO2 reservoir rocks and wells of the landfill, initial approximations for elastic constants was carried out using the program for calculating acoustic constants, which uses the data of experimental measurements of the phase velocities of quasi-longitudinal, “fast” and “slow” quasi-transverse waves and the measured sandstone SiO2 reservoir rock density ρ for the calculations of the above-mentioned parameters. Based on the results of calculations the parameters of acoustic linearity and shaleness were calculated, and the texture symmetry type N of acoustic tensor sandstone SiO2 reservoir  QUOTE mil

 rock was determined.

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