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Accuracy and stability of the accelerated multi-direct-forcing immersed boundary method

Published 7 Jul 2025 in physics.flu-dyn, cs.NA, math.NA, and physics.comp-ph | (2507.04986v1)

Abstract: The multi-direct-forcing immersed boundary method allows for high accuracy of the no-slip condition in moving-particle problems but suffers from numerical instability if simulation parameters are not carefully chosen. This study investigates the numerical accuracy and stability of the accelerated multidirect-forcing immersed boundary method. An analysis of the discretized equations of body motion in moving boundary problems identifies a critical parameter that solely determines the numerical stability for the body motion. Additionally, numerical simulations reveal the optimal acceleration parameter that minimizes the error in the no-slip condition and is independent of details of the boundary discretisation, the boundary shape, and spatial dimensionality. This study provides a guideline for establishing numerically stable simulations of moving boundary problems at optimal accuracy of the no-slip condition.

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