Taking into account the fluid saturation of bottom sediments in marine seismic survey problem

Cover Page

Cite item

Full Text

Abstract

The problem of the numerical simulation of the seismic response from the marine bottom is considered. Acoustic equations are used for the description of the water dynamic behavior. Bottom sediments are described with the porous fluid-filled medium. The Dorovsky model is used. The algorithm for solving all hyperbolic equation systems with the grid-characteristic method was proposed. The distinctive feature of this approach is the ability to set explicitly necessary contact conditions between media with different rheology.

About the authors

V. I. Golubev

Moscow Institute of Physics and Technology; Scientific Research Institute for System Analysis of the Russian Academy of Sciences

Author for correspondence.
Email: w.golubev@mail.ru
Russian Federation, 9, Institutskij, Dolgoprudny, Moscow region, 141701; 36-1, Nakhimovsky prospect, Moscow, 117218

A. V. Shevchenko

Moscow Institute of Physics and Technology

Email: w.golubev@mail.ru
Russian Federation, 9, Institutskij, Dolgoprudny, Moscow region, 141701

I. B. Petrov

Moscow Institute of Physics and Technology; Scientific Research Institute for System Analysis of the Russian Academy of Sciences

Email: w.golubev@mail.ru

Corresponding Member of the Russian Academy of Sciences

Russian Federation, 9, Institutskij, Dolgoprudny, Moscow region, 141701; 36-1, Nakhimovsky prospect, Moscow, 117218

References

  1. Virieux J., Calandra H., Plessix R.E. A Review of the Spectral, Pseudo-Spectral, Finite-Difference and Finite-Element Modelling Techniques for Geophysical Imaging // Geophysical Prospecting. 2011. V. 59 (5). P. 794-813.
  2. Golubev V.I., Gilyazutdinov R.I., Petrov I.B., Khokhlov N.I., Vasyukov A.V. Simulation of Dynamic Processes in Three-Dimensional Layered Fractured Media with the Use of the Grid-Characteristic Numerical Method // J. Appl. Mechanics and Technical Physics. 2017. V. 58. № 3. Р. 539-545.
  3. Favorskaya A., Petrov I., Golubev V., Khokhlov N. Numerical Simulation of Earthquakes Impact on Facilities by Grid-Characteristic Method // Proc. Comp. Sci. 2017. V. 112. P. 1206-1215.
  4. Favorskaya A.V., Petrov I.B. Wave Responses from Oil Reservoirs in the Arctic Shelf Zone // Doklady Earth Sciences. 2016. V. 466. № 2. Р. 214-217.
  5. Golubev V.I., Golubeva Yu.A. Full-Wave Simulation of the Earthquake Initiaion Process // CEUR Workshop Proc. 2018. V. 2267. P. 346-350.
  6. Beklemysheva K.A., Vasyukov A.V., Golubev V.I., Zhuravlev Y.I. On the Estimation of Seismic Resistance of Modern Composite Oil Pipeline Elements // DAN. 2018. V. 97. № 2. P. 184-187.
  7. Golubev V., Khokhlov N., Grigorievyh D., Favorskaya A. Numerical Simulation of Destruction Processes by the Grid-Characteristic Method // Proc. Comp. Sci. 2018. V. 126. P. 1281-1288.
  8. Muratov M.V., Petrov I.B. Application of Fractures Mathematical Models in Exploration Seismology Problems Modeling // Smart Innovation, Systems and Technologies. 2019. V. 133. P. 120-131.
  9. Golubev V.I. The Usage of Grid-Characteristic Method in Seismic Migration Problems // Smart Innovation, Systems and Technologies. 2019. V. 133. P. 143-155.
  10. Dorovsky V., Perepechko Yu., Fedorov A. The Stoneley Waves in the Biot-Johnson Theory and Continual Filtration Theory // Russ. Geol. Geophys. 2012. V. 53. P. 621-630.
  11. Deresiewicz H., Skalak R. On Uniqueness in Dynamic Poroelasticity // Bulletin of the Seismological Society of America. 1963. V. 53. № 4. P. 783-788.
  12. Chiavassa G., Lombard B. Wave Propagation across Acoustic / Biot’s Media: a Finite-Difference Method // Commun. Comput. Phys. 2012. V. 13. P. 985-1012.
  13. Rosenbaum J.H. Synthetic Microseismograms - Logging in Porous Formations // Geophysics. 1974. V. 39. P. 14-32. doi: 10.1190/1.1440407
  14. Winkler K.W., Liu H.L., Johnson D.L. Permeability and Borehole Stoneley Waves: Comparison Between Experiment And Theory // Geophysics. 1989. V. 54. P. 66-75.
  15. Заславский Ю.М., Кержаков Б.В., Кулинич В.В. Вертикальное сейсмическое профилирование на морском шельфе // Акуст. журн. 2008. Т. 54. № 3. С. 483-490.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2019 Russian academy of sciences

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies