Thermoelectricity and thermodiffusion in magnetic nanofluids: Entropic analysis

Thomas J. Salez; Sawako Nakamae; Régine Perzynski; Guillaume Mériguet; Andrejs Cebers; Michel Roger

doi:10.3390/e20060405

Thermoelectricity and thermodiffusion in magnetic nanofluids: Entropic analysis

Thomas J. Salez
, Sawako Nakamae^*
, Régine Perzynski
, Guillaume Mériguet
, Andrejs Cebers
, Michel Roger

^*Corresponding author for this work

Department of Physics

Université Paris-Saclay
Sorbonne Université

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

21 Citations (Scopus)

Abstract

An analytical model describing the thermoelectric potential production in magnetic nanofluids (dispersions of magnetic and charged colloidal particles in liquid media) is presented. The two major entropy sources, the thermogalvanic and thermodiffusion processes are considered. The thermodiffusion term is described in terms of three physical parameters; the diffusion coefficient, the Eastman entropy of transfer and the electrophoretic charge number of colloidal particles, which all depend on the particle concentration and the applied magnetic field strength and direction. The results are combined with well-known formulation of thermoelectric potential in thermogalvanic cells and compared to the recent observation of Seebeck coefficient enhancement/diminution in magnetic nanofluids in polar media.

Original language	English
Article number	405
Journal	Entropy
Volume	20
Issue number	6
DOIs	https://doi.org/10.3390/e20060405
Publication status	Published - 1 Jun 2018

Keywords

Colloids
Nanofluids
Seebeck coefficient
Thermodiffusion
Thermoelectricity
Thermogalvanic cells

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10.3390/e20060405

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title = "Thermoelectricity and thermodiffusion in magnetic nanofluids: Entropic analysis",

abstract = "An analytical model describing the thermoelectric potential production in magnetic nanofluids (dispersions of magnetic and charged colloidal particles in liquid media) is presented. The two major entropy sources, the thermogalvanic and thermodiffusion processes are considered. The thermodiffusion term is described in terms of three physical parameters; the diffusion coefficient, the Eastman entropy of transfer and the electrophoretic charge number of colloidal particles, which all depend on the particle concentration and the applied magnetic field strength and direction. The results are combined with well-known formulation of thermoelectric potential in thermogalvanic cells and compared to the recent observation of Seebeck coefficient enhancement/diminution in magnetic nanofluids in polar media.",

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T1 - Thermoelectricity and thermodiffusion in magnetic nanofluids

T2 - Entropic analysis

AU - Salez, Thomas J.

AU - Nakamae, Sawako

AU - Perzynski, Régine

AU - Mériguet, Guillaume

AU - Cebers, Andrejs

AU - Roger, Michel

PY - 2018/6/1

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N2 - An analytical model describing the thermoelectric potential production in magnetic nanofluids (dispersions of magnetic and charged colloidal particles in liquid media) is presented. The two major entropy sources, the thermogalvanic and thermodiffusion processes are considered. The thermodiffusion term is described in terms of three physical parameters; the diffusion coefficient, the Eastman entropy of transfer and the electrophoretic charge number of colloidal particles, which all depend on the particle concentration and the applied magnetic field strength and direction. The results are combined with well-known formulation of thermoelectric potential in thermogalvanic cells and compared to the recent observation of Seebeck coefficient enhancement/diminution in magnetic nanofluids in polar media.

AB - An analytical model describing the thermoelectric potential production in magnetic nanofluids (dispersions of magnetic and charged colloidal particles in liquid media) is presented. The two major entropy sources, the thermogalvanic and thermodiffusion processes are considered. The thermodiffusion term is described in terms of three physical parameters; the diffusion coefficient, the Eastman entropy of transfer and the electrophoretic charge number of colloidal particles, which all depend on the particle concentration and the applied magnetic field strength and direction. The results are combined with well-known formulation of thermoelectric potential in thermogalvanic cells and compared to the recent observation of Seebeck coefficient enhancement/diminution in magnetic nanofluids in polar media.

KW - Colloids

KW - Nanofluids

KW - Seebeck coefficient

KW - Thermodiffusion

KW - Thermoelectricity

KW - Thermogalvanic cells

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DO - 10.3390/e20060405

M3 - Article

AN - SCOPUS:85048706350

SN - 1099-4300

VL - 20

JO - Entropy

JF - Entropy

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M1 - 405

ER -

Thermoelectricity and thermodiffusion in magnetic nanofluids: Entropic analysis

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Keywords

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