Flávia de Oliveira Lima Falcão scite author profile

ResumoResultados de ensaios de mecânica de rochas conduzidos em corpos de prova de travertino foram utilizados para a modelagem do comportamento tensão-deformação desta rocha sob condições confinadas e não confinadas, para posterior simulação numérica do comportamento geomecânico da rocha intacta circundante às zonas de falha em um estudo do potencial de reativação de falhas em carbonatos. Devido à ocorrência de endurecimento verificada na maioria dos testes optou-se por utilizar modelo Mohr Coulomb não associado variável, a partir de dois conjuntos de parâmetros mecânicos -coesão, ângulo de atrito e dilatância -para cada modelo. Apesar dos prováveis colapsos de poros ocorridos durante os ensaios não serem capturados pelos modelos, foi possível ajustar o comportamento mecânico dominante observado nos testes de laboratório, sem alterações significativas dos parâmetros medidos experimentalmente. A ferramenta utilizada para a modelagem foi o Tectos (PUC-Rio/Tecgraf -Petrobras), que considera estado plano de deformação. Tendo em vista que os ensaios representam um problema axissimétrico, trabalhos futuros avaliarão a representatividade do modelo de estado plano para o caso em estudo, via comparação desta modelagem com a realizada usando outra ferramenta numérica. Palavras-chave: comportamento tensão-deformação; modelagem numérica; travertinos AbstractResults of rock mechanics tests conducted on travertine plugs have been used to model the stress-strain behavior of this rock under confined and unconfined loadings, for future numerical representation of the intact rock surrounding fault zones, within a study about fault reactivation potential in carbonates. Due to the strain hardening tendency verified in most of the experiments results, a specific Mohr Coulomb model was applied, based on two different sets of cohesion, friction angle and dilation values. Although collapse events verified during the tests could not be captured by the modelling, it was possible to fit the dominant mechanical behavior of the rock, without relevant changes on the parameters measured during the experiments. The software used for this purpose was Tectos (PUC-Rio/Tecgraf -Petrobras), which considers plane strain state. As the experiments configure an axissymetric problem, future works will evaluate the representativity of plane strain model for this material and test conditions, through comparison of the current modelling results with the ones obtained using a different numerical tool.

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Drilling a investigative well in the auxiliary rotary table in a dual activity rig

Lima¹,

Percy²,

Cunha³

et al. 2022

ROG

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Flávia de Oliveira Lima Falcão

Evaluation of oil production related effects through geomechanical modeling: A case study from Marimbá field, Campos Basin, Brazil

Numerical Modelling of Travertine Mechanical Behaviour Based on Rock Mechanics Tests of Vertical Plugs

Drilling a investigative well in the auxiliary rotary table in a dual activity rig

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