Mechanistic Understanding of Sand Production in Marine Hydrate Exploitation: Insights from Field Tests and THMC Simulations

Abstract: The cessation of marine hydrate exploitation in the Nankai Trough resulted from severe sand production challenges. Currently, the mechanisms underlying sand production during hydrate reservoir exploitation lack comprehensive understanding. To address this knowledge gap, we developed a COMSOL-based computer model to predict gas and sand production for hydrate exploitation, which efficiently integrated a sand production model with a convectional thermo-hydro-mechanical coupling model. In the sand production mode… Show more

“…According to published reports, the fracture characteristics of HBS are affected by a variety of factors, including reservoir saturation, stress anisotropy, matrix type, and crack initial conditions. − Furthermore, parameters integral to drilling operations, notably the viscosity of fracturing fluids and the rate at which they are injected, exert a significant influence on the efficiency of gas extraction. To thoroughly comprehend how pivotal reservoir characteristics affect both fracture propagation dynamics and the rate of gas production, scholars have progressively developed models aimed at evaluating the feasibility of reservoir fracturing . These models help to comprehensively demonstrate the reservoir fracturing feasibility and provide a scientific basis for the design and optimization of fracturing in actual projects, which will be discussed in the following …”

Review and Outlook on Fracturing Technology and Mechanism of Hydrate-Bearing Sediments

“…According to published reports, the fracture characteristics of HBS are affected by a variety of factors, including reservoir saturation, stress anisotropy, matrix type, and crack initial conditions. − Furthermore, parameters integral to drilling operations, notably the viscosity of fracturing fluids and the rate at which they are injected, exert a significant influence on the efficiency of gas extraction. To thoroughly comprehend how pivotal reservoir characteristics affect both fracture propagation dynamics and the rate of gas production, scholars have progressively developed models aimed at evaluating the feasibility of reservoir fracturing . These models help to comprehensively demonstrate the reservoir fracturing feasibility and provide a scientific basis for the design and optimization of fracturing in actual projects, which will be discussed in the following …”

Review and Outlook on Fracturing Technology and Mechanism of Hydrate-Bearing Sediments