What question did this study set out to answer?

This research aims to verify wall boundary conditions in fluid simulations based on different models of wall roughness.

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March 26, 2026Open Access

A numerical study on wall boundary condition based on immersed-boundary Navier-Stokes simulation

Key Points

This research aims to verify wall boundary conditions in fluid simulations based on different models of wall roughness.
Conducting molecular dynamics simulations to observe slip velocity near solid walls.
Utilizing immersed-boundary flow analysis with interface approximation models.
Applying level sets and phase fields to simulate fluid-structure interactions.
Demonstrated that slip velocity is influenced by wall roughness and solid-fluid properties.
Validated the effectiveness of interface approximation models in reproducing wall boundary conditions.

Abstract

Molecular dynamics simulations show that molecular-scale "slip velocity" occurs in the fluid velocity motion near a solid wall, and it is known that its magnitude depends on the wall roughness as well as the physical properties (intermolecular potential) of the solid and fluid. Immersed-boundary flow analysis based on interface approximation using level sets and phase fields is understood to be a continuous approximation of this phenomenon. In this paper, we numerically verify and consider the reproduction of wall boundary conditions using wall roughness and interface approximation models in immersed-boundary flow analysis.

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Nobuyuki OSHIMA (Wed,) studied this question.

synapsesocial.com/papers/69c4cc98fdc3bde448917ea7 https://doi.org/https://doi.org/10.1299/jsmecmd.2025.38.os4-23

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