Seismic anisotropy of a fractured rock during CO2 injection: a feasibility study

“…necessary to evaluate a reservoir in terms of its ability to accumulate and deliver hydrocarbon is basically the products of reservoir characterization [16]. In addition, rock physics concepts and modeling have played vital roles in linking elastic rock properties (elastic wave velocity and impedance) to porosity, mineralogy (shale content), saturation, and pore fluid properties as well as predicting the effect of fluid substitution on porous and fractured reservoir and monitoring changes in reservoir elastic properties during production [21][22][23][24][25]. This has found numerous applications in establishing the link between seismic impedance and velocity inversion with physical reservoir properties.…”

Seismic impedance inversion and attribute analysis for reservoir characterization in an offshore depobelt, Niger Delta, Nigeria

“…necessary to evaluate a reservoir in terms of its ability to accumulate and deliver hydrocarbon is basically the products of reservoir characterization [16]. In addition, rock physics concepts and modeling have played vital roles in linking elastic rock properties (elastic wave velocity and impedance) to porosity, mineralogy (shale content), saturation, and pore fluid properties as well as predicting the effect of fluid substitution on porous and fractured reservoir and monitoring changes in reservoir elastic properties during production [21][22][23][24][25]. This has found numerous applications in establishing the link between seismic impedance and velocity inversion with physical reservoir properties.…”

Seismic impedance inversion and attribute analysis for reservoir characterization in an offshore depobelt, Niger Delta, Nigeria

“…O primeiro passo na caracterização geomecânica é feito através da análise de poços, (Tingay et al 2009, Rajabi et al 2016, Ganguli et al 2019, Baouche et al 2020, sendo necessário adquirir dados de boa qualidade, incluindo, perfis e testes de poço e análises laboratoriais (McGinnis 2009). Consequentemente, a construção de um modelo geomecânico envolve o cálculo de propriedades elásticas, pressão de poro, magnitudes e orientações do estado de tensão in-situ, com base em dados geofísicos, tais como perfis de imagem de poço, medições de pressão estática de fundo de poço, relatórios de perfuração, e perfis convencionais (densidade e acústicos).…”

Relação entre as propriedades geomecânicas e o comportamento do escoamento de fluidos nos carbonatos do pré-sal, Campo de Búzios, Brasil

Methodology to monitor the seismic response to injected carbon dioxide