ON THE ASYMPTOTIC STRUCTURE OF STEADY STOKES AND NAVIER-STOKES FLOWS AROUND A ROTATING TWO-DIMENSIONAL BODY

Toshiaki Hishida; Mads Kyed

doi:10.2140/pjm.2021.315.89

ON THE ASYMPTOTIC STRUCTURE OF STEADY STOKES AND NAVIER-STOKES FLOWS AROUND A ROTATING TWO-DIMENSIONAL BODY

Toshiaki Hishida^*, Mads Kyed

^*Corresponding author for this work

Graduate School of Fundamental Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We establish pointwise decay estimates for the velocity field of a steady twodimensional Stokes flow around a rotating body via a new approach rather than analysis adopted in the previous literature. The novelty is to analyze the singular behavior of the constants in these estimates with respect to the angular velocity of the body, where such singularity is reasonable since they cannot hold in the absence of rotation. We then employ the estimates to identify the asymptotic structure at infinity of a steady scale-critical Navier-Stokes flow, assumed to be small, around a rotating body. It is proved that the leading term is given by a self-similar Navier-Stokes flow which exhibits a circular profile x¹ /|x |² and whose coefficient is the torque acting on the body.

Original language	English
Pages (from-to)	89-109
Number of pages	21
Journal	Pacific Journal of Mathematics
Volume	315
Issue number	1
DOIs	https://doi.org/10.2140/pjm.2021.315.89
Publication status	Published - 2021

Keywords

asymptotic expansion
Navier-Stokes
rotating body
Stokes

ASJC Scopus subject areas

Mathematics(all)

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10.2140/pjm.2021.315.89

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title = "ON THE ASYMPTOTIC STRUCTURE OF STEADY STOKES AND NAVIER-STOKES FLOWS AROUND A ROTATING TWO-DIMENSIONAL BODY",

abstract = "We establish pointwise decay estimates for the velocity field of a steady twodimensional Stokes flow around a rotating body via a new approach rather than analysis adopted in the previous literature. The novelty is to analyze the singular behavior of the constants in these estimates with respect to the angular velocity of the body, where such singularity is reasonable since they cannot hold in the absence of rotation. We then employ the estimates to identify the asymptotic structure at infinity of a steady scale-critical Navier-Stokes flow, assumed to be small, around a rotating body. It is proved that the leading term is given by a self-similar Navier-Stokes flow which exhibits a circular profile x1 /|x |2 and whose coefficient is the torque acting on the body.",

keywords = "asymptotic expansion, Navier-Stokes, rotating body, Stokes",

author = "Toshiaki Hishida and Mads Kyed",

note = "Funding Information: Hishida was supported in part by Grant-in-Aid for Scientific Research 18K03363 from JSPS . MSC2010: 35B40, 35C20, 35Q30, 76D05, 76D07. Keywords: Navier–Stokes, Stokes, rotating body, asymptotic expansion. Publisher Copyright: {\textcopyright} 2021. Mathematical Sciences Publishers. All Rights Reserved.",

year = "2021",

doi = "10.2140/pjm.2021.315.89",

language = "English",

volume = "315",

pages = "89--109",

journal = "Pacific Journal of Mathematics",

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AU - Hishida, Toshiaki

AU - Kyed, Mads

N1 - Funding Information: Hishida was supported in part by Grant-in-Aid for Scientific Research 18K03363 from JSPS . MSC2010: 35B40, 35C20, 35Q30, 76D05, 76D07. Keywords: Navier–Stokes, Stokes, rotating body, asymptotic expansion. Publisher Copyright: © 2021. Mathematical Sciences Publishers. All Rights Reserved.

PY - 2021

Y1 - 2021

N2 - We establish pointwise decay estimates for the velocity field of a steady twodimensional Stokes flow around a rotating body via a new approach rather than analysis adopted in the previous literature. The novelty is to analyze the singular behavior of the constants in these estimates with respect to the angular velocity of the body, where such singularity is reasonable since they cannot hold in the absence of rotation. We then employ the estimates to identify the asymptotic structure at infinity of a steady scale-critical Navier-Stokes flow, assumed to be small, around a rotating body. It is proved that the leading term is given by a self-similar Navier-Stokes flow which exhibits a circular profile x1 /|x |2 and whose coefficient is the torque acting on the body.

AB - We establish pointwise decay estimates for the velocity field of a steady twodimensional Stokes flow around a rotating body via a new approach rather than analysis adopted in the previous literature. The novelty is to analyze the singular behavior of the constants in these estimates with respect to the angular velocity of the body, where such singularity is reasonable since they cannot hold in the absence of rotation. We then employ the estimates to identify the asymptotic structure at infinity of a steady scale-critical Navier-Stokes flow, assumed to be small, around a rotating body. It is proved that the leading term is given by a self-similar Navier-Stokes flow which exhibits a circular profile x1 /|x |2 and whose coefficient is the torque acting on the body.

KW - asymptotic expansion

KW - Navier-Stokes

KW - rotating body

KW - Stokes

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ON THE ASYMPTOTIC STRUCTURE OF STEADY STOKES AND NAVIER-STOKES FLOWS AROUND A ROTATING TWO-DIMENSIONAL BODY

Abstract

Keywords

ASJC Scopus subject areas

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