Cognitive Geology of Forms, of Resources and Field Artуfacts | Chapter 10 | Current Approaches in Science and Technology Research Vol. 15

The theory presented by the authors is a numerical / analytical method of multi-scaled 4D geomechanics – geo-dynamics of energy integration in geo-physical rhythms of Eigen-solution of Navier-Stokes equations for multi-level geological time space of evolution in structural compacted mass transfer based on Newton's Differential Law VTdS2/t2 and A. Einstein's E( Create a hypothesis for the restoration and upkeep of a water eco-system using the parameters provided. They determine geological cycle geophysical seismic rhythms in deep structural formations of the Volga-Urals, Siberia, and Kamchatka at dissipative emission, adsorption, and NMR stands for nuclear magnetic resonance. In off-shore and worldwide aeration of Middle Ridges from the Urals to the Rocky Mountains, the authors offer a systematic velocity model of convective diffusion drift of in deep phase components of heterogenic structures with complexly structured geology. They also looked at the organic markers of quantum photosynthesis and multiple circulating energy waves in physical and chemical reactions of compacted formation genesis in fissile and relict shales, including the facies with symmetrical absolutely-saturated porosity of classical fields, over a time span of more than 4,5 billion years. The geophysical seismic rhythms of geolog are established by them. Dissipative emission, adsorption, and nuclear magnetic resonance in Kamchatka. The authors suggest a systematic velocity model of uv diffusion drift in deep phase components of heterogenic formations with complexly structured geology in off-shore and global aeration of the Middle Ridges from the Urals to the Rocky Mountains. They also looked at the organic markers of quantum photosynthesis and multiple circulating energy waves in physical and chemical reactions of compacted formation genesis in fissile and relict shales, including the facies with symmetrical absolutely-saturated porosity of classical fields' coeval.

Author (S) Details

Vyacheslav Popkov
Samara State Technical University, Russia.

Alexander Shterenberg
Samara State Technical University, Russia.

Vladimir Gusev
Samara State Technical University, Russia.

Andrey Tyutyaev
Samara State Technical University, Russia.

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