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Fluid mode spectroscopy for measuring kinematic viscosity of fluids in open cylindrical containers

Authors :
Ishida, Hideshi
Horie, Masaaki
Harada, Takahiro
Mizuno, Shingo
Hamada, Seita
Imura, Haruki
Ashiwake, Shoma
Isayama, Naoya
Saeki, Ryomei
Kozono, Ryotaro
Taki, Daichi
Kurose, Asuka
Source :
Phys. Fluids, 35 (2023), 063111
Publication Year :
2023

Abstract

On a daily basis we stir tee or coffee with a spoon and leave it to rest. We know empirically the larger the stickiness, viscosity, of the fluid, more rapidly its velocity slows down. It is surprising, therefore, that the variation, the decay rate of the velocity, has not been utilized for measuring (kinematic) viscosity of fluids. This study shows that a spectroscopy decomposing a velocity field into fluid modes (Stokes eigenmodes) allows us to measure accurately the kinematic viscosity. The method, Fluid Mode Spectroscopy (FMS), is based on the fact that each Stokes eigenmode has its inherent decay rate of eigenvalue and that the dimensionless rate of the slowest decaying mode (SDM) is constant, dependent only on the normalized shape of a fluid container, obtained analytically for some shapes including cylindrical containers. The FMS supplements major conventional measuring methods with each other, particularly useful for measuring relatively low kinematic viscosity and for a direct measurement of viscosity at zero shear rate without extrapolation. The method is validated by the experiments of water poured into an open cylindrical container, as well as by the corresponding numerical simulations.<br />Comment: 21 pagese, 7 figures

Details

Database :
arXiv
Journal :
Phys. Fluids, 35 (2023), 063111
Publication Type :
Report
Accession number :
edsarx.2304.06213
Document Type :
Working Paper
Full Text :
https://doi.org/10.1063/5.0153260