Dissertação

Migração Kirchhoff paraxial pré-empilhamento em profundidade com amplitudes verdadeiras

The seismic depth migration is one of the most important steps in the exploration of geologically complex process areas of the oil industry interest. To obtain a more realistic image of the structure, it needs is a great settings recovery process of the reflectors in the subsurface and efficient det...

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Autor principal: MOREIRA, Marcio Fernando de Andrade
Grau: Dissertação
Idioma: por
Publicado em: Universidade Federal do Pará 2019
Assuntos:
Método de reflexão sísmica
Imageamento acústico
Processamento sísmico
Migracão Kirchhoff paraxial
Imageamento
Profundidade
Amplitude verdadeira
Seismic processing
Kirchhoff migration
Imaging
Depth
Paraxial ray
True amplitude
CNPQ::CIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::GEOFISICA::GEOFISICA APLICADA
TÉCNICAS DE IMAGEAMENTO SÍSMICO
MÉTODOS SÍSMICOS
Acesso em linha: http://repositorio.ufpa.br/jspui/handle/2011/11470
Resumo:
The seismic depth migration is one of the most important steps in the exploration of geologically complex process areas of the oil industry interest. To obtain a more realistic image of the structure, it needs is a great settings recovery process of the reflectors in the subsurface and efficient determination of reflection coefficients to characterize the oil and gas reservoirs. One of the techniques used to obtain the seismic image is the Kirchhoff migration method which can be greatly enhanced by appropriate weights, which when applied to amplitudes during the stacking diffraction provides an estimate of the reflection coefficients. In this work, we used the 2-D paraxial ray prestack Kirchhoff depth migration method. In the calculation step traveltimes makes use of second-order paraxial approximation, by which one can get a good approximation of the traveltimes in the mesh migration. The weights used during migration were calculated using the equations of dynamic radius and the extrapolation to the points of the mesh migration. Compared with the conventional Kirchhoff method, the results were quite satisfactory as regards the increase in image resolution of the reflectors as well as in obtaining the reflection coefficients. The efficiency of the proposed technique was tested on synthetic data type anticlinal geological structure and seismic data Marmousi.

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