Mengbo Li scite author profile

-A new mathematical model was developed in this study to simulate the unsteady flow in controlled mud-cap drilling systems. The model can predict the time-dependent flow inside the drill string and annulus after a circulation break. This model consists of the continuity and momentum equations solved using the explicit Euler method. The model considers both Newtonian and non-Newtonian fluids flowing inside the drill string and annular space. The model predicts the transient flow velocity of mud, the equilibrium time, and the change in the bottom hole pressure (BHP) during the unsteady flow. The model was verified using data from U-tube flow experiments reported in the literature. The result shows that the model is accurate, with a maximum average error of 3.56% for the velocity prediction. Together with the measured data, the computed transient flow behavior can be used to better detect well kick and a loss of circulation after the mud pump is shut down. The model sensitivity analysis show that the water depth, mud density and drill string size are the three major factors affecting the fluctuation of the BHP after a circulation break. These factors should be carefully examined in well design and drilling operations to minimize BHP fluctuation and well kick. This study provides the fundamentals for designing a safe system in controlled mud-cap drilling operatio．

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A study of rapid increasing choke pressure method for sour gas kicks during managed pressure drilling

Liu

et al. 2016

IJOGCT

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Numerical simulation of carbon dioxide migration in a sandstone aquifer considering the fluid–solid coupling

Chen

Yan

et al. 2013

Acta Geotech.

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Mengbo Li

Thermal performance analysis of drilling horizontal wells in high temperature formations

Thermal effect on wellbore stability during drilling operation with long horizontal section

Modeling and Analysis of Unsteady Flow Behavior in Deepwater Controlled Mud-Cap Drilling

A study of rapid increasing choke pressure method for sour gas kicks during managed pressure drilling

Numerical simulation of carbon dioxide migration in a sandstone aquifer considering the fluid–solid coupling

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