Title of Paper:Finite speed axially symmetric Navier-Stokes flows passing a cone
Journal:Journal of Functional Analysis
Key Words:Axially symmetric Navier-Stokes equations, global strong solutions, exterior conic regions, partial smallness.
Abstract:Let D be the exterior of a cone inside a ball, with its altitude angle at most π/6 in R3, which touches the x3 axis at the origin. For any initial value v0=v0,rer+v0,θeθ+v0,3e3 in a C2(D) class, which has the usual even-odd-odd symmetry in the x3 variable and has the partial smallness only in the swirl direction: |rv0,θ|≤1/100, the axially symmetric Navier-Stokes equations (ASNS) with Navier-Hodge-Lions slip boundary condition has a finite-energy solution that stays bounded for all time. In particular, no finite-time blowup of the fluid velocity occurs. Compared with standard smallness assumptions on the initial velocity, no size restriction is made on the components v0,r and v0,3. In a broad sense, this result appears to solve 2/3 of the regularity problem of ASNS in such domains in the class of solutions with the above symmetry.
Document Code:110393
Volume:286
Translation or Not:no
Date of Publication:2024-03-06
Included Journals:SCI