Migration of an insulating particle under the action of uniform ambient electric and magnetic fields. Part 1. General theory

H. K. Moffatt; A. Sellier

doi:10.1017/S0022112002001131

Migration of an insulating particle under the action of uniform ambient electric and magnetic fields. Part 1. General theory

H. K. Moffatt
, A. Sellier

PSL research University & IPSL
University of Cambridge

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

Abstract

The behaviour of an insulating particle suspended in a liquid metal and subject to the influence of locally uniform electric and magnetic fields (E,B) is considered. The electric field drives a current J which is perturbed by the presence of the particle, and the resulting Lorentz force drives a flow. It is assumed that both the Reynolds number and the Hartmann number based on particle size are small. If the particle is fixed, it experiences a force and couple that are each bilinear in J and B; if it is freely suspended, then it moves with translational velocity U and angular velocity Ω each similarly bilinear in J and B. The general form of these bilinear relationships is determined, with particular attention to three types of particle symmetry: (i) isotropy; (ii) axisymmetry; and (iii) orthotropy.

Original language	English
Pages (from-to)	279-286
Number of pages	8
Journal	Journal of Fluid Mechanics
Volume	464
DOIs	https://doi.org/10.1017/S0022112002001131
Publication status	Published - 29 Jul 2002

Access to Document

10.1017/S0022112002001131

Cite this

@article{bc059758b9a14e3fb1a89e9c0b44bbdb,

title = "Migration of an insulating particle under the action of uniform ambient electric and magnetic fields. Part 1. General theory",

abstract = "The behaviour of an insulating particle suspended in a liquid metal and subject to the influence of locally uniform electric and magnetic fields (E,B) is considered. The electric field drives a current J which is perturbed by the presence of the particle, and the resulting Lorentz force drives a flow. It is assumed that both the Reynolds number and the Hartmann number based on particle size are small. If the particle is fixed, it experiences a force and couple that are each bilinear in J and B; if it is freely suspended, then it moves with translational velocity U and angular velocity Ω each similarly bilinear in J and B. The general form of these bilinear relationships is determined, with particular attention to three types of particle symmetry: (i) isotropy; (ii) axisymmetry; and (iii) orthotropy.",

author = "Moffatt, \{H. K.\} and A. Sellier",

year = "2002",

month = jul,

day = "29",

doi = "10.1017/S0022112002001131",

language = "English",

volume = "464",

pages = "279--286",

journal = "Journal of Fluid Mechanics",

issn = "0022-1120",

}

TY - JOUR

T1 - Migration of an insulating particle under the action of uniform ambient electric and magnetic fields. Part 1. General theory

AU - Moffatt, H. K.

AU - Sellier, A.

PY - 2002/7/29

Y1 - 2002/7/29

N2 - The behaviour of an insulating particle suspended in a liquid metal and subject to the influence of locally uniform electric and magnetic fields (E,B) is considered. The electric field drives a current J which is perturbed by the presence of the particle, and the resulting Lorentz force drives a flow. It is assumed that both the Reynolds number and the Hartmann number based on particle size are small. If the particle is fixed, it experiences a force and couple that are each bilinear in J and B; if it is freely suspended, then it moves with translational velocity U and angular velocity Ω each similarly bilinear in J and B. The general form of these bilinear relationships is determined, with particular attention to three types of particle symmetry: (i) isotropy; (ii) axisymmetry; and (iii) orthotropy.

AB - The behaviour of an insulating particle suspended in a liquid metal and subject to the influence of locally uniform electric and magnetic fields (E,B) is considered. The electric field drives a current J which is perturbed by the presence of the particle, and the resulting Lorentz force drives a flow. It is assumed that both the Reynolds number and the Hartmann number based on particle size are small. If the particle is fixed, it experiences a force and couple that are each bilinear in J and B; if it is freely suspended, then it moves with translational velocity U and angular velocity Ω each similarly bilinear in J and B. The general form of these bilinear relationships is determined, with particular attention to three types of particle symmetry: (i) isotropy; (ii) axisymmetry; and (iii) orthotropy.

U2 - 10.1017/S0022112002001131

DO - 10.1017/S0022112002001131

M3 - Article

AN - SCOPUS:0037194313

SN - 0022-1120

VL - 464

SP - 279

EP - 286

JO - Journal of Fluid Mechanics

JF - Journal of Fluid Mechanics

ER -

Migration of an insulating particle under the action of uniform ambient electric and magnetic fields. Part 1. General theory

Abstract

Access to Document

Fingerprint

Cite this