Existence of incompressible and immiscible flows in critical function spaces on bounded domains

Abstract

We study global existence and uniqueness of solutions to instationary inhomogeneous Navier-Stokes equations on bounded domains of n, n≥ 3, with initial velocity in B0q,∞(), q≥ n, and piecewise constant initial density. To this end, first, existence for momentum equations with prescribed density is obtained based on maximal L∞-regularity of the Stokes operator in little Nicolskii space bsq,∞(), s∈, exploited in RiZh14 and existence for divergence problem in b-sq,∞(), s>0. Then, we obtain an existence result for transport equations in the space of pointwise multipliers for b-sq,∞(), s>0. Finally, the existence of the inhomogeneous Navier-Stokes equations is proved via an iterate scheme while the proof of uniqueness is done via a Lagrangian approach based on the prior results on momentum equations and transport equation.