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Navier-Stokes-Cahn-Hilliard system in a $3$D perforated domain with free slip and source term: Existence and homogenization

Published 24 Dec 2025 in math.AP | (2512.21171v1)

Abstract: We study a diffuse-interface model for a binary incompressible mixture in a periodically perforated porous medium, described by a time-dependent Navier-Stokes-Cahn-Hilliard (NSCH) system posed on the pore domain $Ω_p\varepsilon\subset\mathbb{R}3$. The microscopic model involves a variable viscosity tensor, a non-conservative source term in the Cahn--Hilliard equation, and mixed boundary conditions: no-slip on the outer boundary and Navier slip with zero tangential stress on the surfaces of the solid inclusions. The capillarity strength $λ\varepsilon>0$ depends on the microscopic scale $\varepsilon>0$. The analysis consists of two main parts. First, for each fixed $\varepsilon>0$, we prove the existence of a weak solution on a finite time interval $(0,T)$ and derive a priori estimates that are uniform with respect to $\varepsilon$ (and $λ\varepsilon$). Second, we perform the periodic homogenization for the perforated setting, a limit $\varepsilon\to0$. Depending on the limit value $λ$ of the capillarity strength $λ\varepsilon$, we obtain two distinct effective models: (i) in the vanishing capillarity regime $λ=0$, the limit system is of Stokes-Cahn-Hilliard type, with no macroscopic convection or advection; (ii) in the balanced regime $λ\in(0,+\infty)$, we derive a Navier-Stokes-Cahn-Hilliard system with nonlinear convection and advective transport of the phase field at the macroscopic scale. Finally, we establish the convergence of the microscopic free energy to a homogenized energy functional satisfying an analogous dissipation law.

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