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Fabrication and petrophysical characterization of artificial carbonate rocks with multiscale porosity sintered in a CO2 atmosphere

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Autor(es):
Morais, Mateus Mota ; Lucas-Oliveira, Everton ; Bonagamba, Tito Jose ; Aum, Pedro Tupa Pandava ; Lucas, Claudio Regis dos Santos ; da Silva, Daniel Nobre Nunes ; Fortulan, Carlos Alberto
Número total de Autores: 7
Tipo de documento: Artigo Científico
Fonte: GEOENERGY SCIENCE AND ENGINEERING; v. 229, p. 14-pg., 2023-07-15.
Resumo

Carbonate rock samples are used in research related to enhanced oil recovery, acid stimulation, calibration of well-logging tools, and validation of numerical petrophysical simulations. However, natural carbonates samples are extremely heterogeneous and have limited availability, compromising experimental analyses. Furthermore, the previous attempts to fabricate synthetic rock replicas were unable to produce samples with pure calcium carbonate composition and multiscale porosity. This paper presents the fabrication of artificial rock with pure calcite composition. Calcite powder was compacted with a pore former (ammonium bicarbonate) and sintered at 850 degrees C with CO2 atmosphere to avoid the decomposition of the CaCO3. Five groups of samples were produced: partially sintered, sintered with 5, 10, and 20% of the large porogen, and with 20% of the small porogen. The artificial rocks were characterized through X-ray diffraction, porosimetry, X-ray microtomography, scanning electron microscopy, mercury injection, permeability, nuclear magnetic resonance, mechanical compression, and acidizing core flooding experiments. The results revealed that the artificial rocks have a controlled bimodal porosity, with large pores induced by the pore formers (83-211 & mu;m) and nanometric intrinsic pores and fractures. In addition, the samples presented a high mechanical resistance (40 to 126 MPa), similar to natural rocks, and could withstand water immersion and even the core flooding tests. The main drawback was the low permeability (0.05-0.06 mD) achieved, an aspect to be improved in future works. The reported methodology is a significant advance because it allows independently tuning the porosity and pore size distribution, controlling the resultant petrophysical properties in a reproducible way without compromising the chemical constitution, enabling several applications in research. (AU)

Processo FAPESP: 20/00010-0 - Combinando atributos, estrutura e funções de novas florestas com a percepção de suas contribuições para serviços ecossistêmicos
Beneficiário:Vitoria Duarte Derisso
Modalidade de apoio: Bolsas no Brasil - Programa Capacitação - Treinamento Técnico
Processo FAPESP: 09/54880-6 - Manipulação de spins nucleares através de técnicas de ressonância magnética e quadrupolar nuclear
Beneficiário:Tito José Bonagamba
Modalidade de apoio: Auxílio à Pesquisa - Regular
Processo FAPESP: 20/16012-1 - Fabricação de core plugs cerâmicos com porosidade multiescala
Beneficiário:Mateus Mota Morais
Modalidade de apoio: Bolsas no Brasil - Doutorado