http://lattes.cnpq.br/5443270414664600; SOUSA, Welington Barbosa de.
Resumo:
The knowledge of the petrophysical properties is of great importance to better understand the physical behavior of the rocks, especially when considering that the main method of geophysical prospecting for deep targets is the seismic method, which investigates the propagation of elastic waves in subsurface. The study of seismic waves provides information about the type of rock and subsurface fluids: thus, the development of a work that allows to generate a mathematical model capable of simulating the propagation of these waves is of great importance, considering their importance for the calculation of elastic properties. This work aims to furnish this need by generating a mathematical model (using software Comsol Multiphysics 5.1) able to simulate the propagation of shear waves (S) in sedimentary rocks from microtomographic images of X-rays of two types of rock: sandstones and carbonates. The simulation of the propagation of compressive and shear waves was carried out through the application of the solid mechanics module of the session Structural Mechanics, which allows the transient analysis of the propagation of waves in rocky masses caused by the application of a short duration explosive load. The results obtained by the object method of this work were compared to the values measured in laboratory (P and S) and the values obtained using the method presented by Apolinário (2016) for the P wave. In the case of the shear waves, the values obtained were compared only values obtained in the laboratory. The numerical model developed in this work presented a satisfactory performance in the simulation of the propagation velocities of P and S waves in real samples of sandstones and carbonates, and its performance was superior to the method proposed by Apolinário (2016). A greater statistical representativeness of the results can be obtained by the application in a greater number of samples.