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Main Authors: Garcke, Harald, Lv, Maoyin, Wu, Hao
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.26020
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author Garcke, Harald
Lv, Maoyin
Wu, Hao
author_facet Garcke, Harald
Lv, Maoyin
Wu, Hao
contents We consider the initial-boundary value problem of a thermodynamically consistent diffuse interface model for incompressible two-phase flows with unmatched densities in a bounded domain $Ω\subset\mathbb{R}^3$. Our first aim is to study the energy equality for global weak solutions by establishing mixed $L_t^qL_x^r$-regularity conditions on the velocity field and its gradient, under which the global weak solution conserves its energy for all times. The proof is based on the propagation of regularity for weak solutions to the convective Cahn-Hilliard equation with a physically relevant Flory-Huggins-type potential, combined with global mollification and boundary cut-off techniques. Next, we prove the existence and uniqueness of global strong solutions in the general setting with non-constant gradient energy coefficient and non-degenerate mobility, provided that the initial velocity is sufficiently small and the initial phase-field variable is a sufficiently small perturbation of a local minimizer of the free energy. This yields Lyapunov stability for each steady state consisting of a zero velocity together with a local energy minimizer. The proof relies on the energy equality for (local) strong solutions and the Łojasiewicz-Simon approach.
format Preprint
id arxiv_https___arxiv_org_abs_2603_26020
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle On a thermodynamically consistent diffuse interface model for incompressible two-phase flows with unmatched densities: Energy equality and Lyapunov stability
Garcke, Harald
Lv, Maoyin
Wu, Hao
Analysis of PDEs
35A01, 35D30, 35D35, 35K35, 35Q35, 76D05, 76T06
We consider the initial-boundary value problem of a thermodynamically consistent diffuse interface model for incompressible two-phase flows with unmatched densities in a bounded domain $Ω\subset\mathbb{R}^3$. Our first aim is to study the energy equality for global weak solutions by establishing mixed $L_t^qL_x^r$-regularity conditions on the velocity field and its gradient, under which the global weak solution conserves its energy for all times. The proof is based on the propagation of regularity for weak solutions to the convective Cahn-Hilliard equation with a physically relevant Flory-Huggins-type potential, combined with global mollification and boundary cut-off techniques. Next, we prove the existence and uniqueness of global strong solutions in the general setting with non-constant gradient energy coefficient and non-degenerate mobility, provided that the initial velocity is sufficiently small and the initial phase-field variable is a sufficiently small perturbation of a local minimizer of the free energy. This yields Lyapunov stability for each steady state consisting of a zero velocity together with a local energy minimizer. The proof relies on the energy equality for (local) strong solutions and the Łojasiewicz-Simon approach.
title On a thermodynamically consistent diffuse interface model for incompressible two-phase flows with unmatched densities: Energy equality and Lyapunov stability
topic Analysis of PDEs
35A01, 35D30, 35D35, 35K35, 35Q35, 76D05, 76T06
url https://arxiv.org/abs/2603.26020