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Mathematical analysis of unsteady flows of fluids with pressure, shear-rate, and temperature dependent material moduli that slip at solid boundaries
Type of publication: Article
Citation: 2007-17
Publication status: Published
Journal: SIAM J. Math. Anal.
Volume: 41
Number: 2
Year: 2009
Pages: 665--707
Note: Preprint no. 2007-17
ISSN: 0036-1410
URL: http://www.karlin.mff.cuni.cz/...
DOI: 10.1137/07069540X
Abstract: In Bridgman's treatise [The Physics of High Pressures, MacMillan, New York, 1931], he carefully documented that the viscosity and the thermal conductivity of most liquids depend on the pressure and the temperature. The relevant experimental studies show that even at high pressures the variations of the values in the density are insignificant in comparison to that of the viscosity, and it is thus reasonable to assume that the liquids in question are incompressible fluids with pressure dependent viscosities. We rigorously investigate the mathematical properties of unsteady three-dimensional internal flows of such incompressible fluids. The model is expressed through a system of partial differential equations representing the balance of mass, the balance of linear momentum, the balance of energy, and the equation for the entropy production. Assuming that we have Navier's slip at the impermeable boundary we establish the long-time existence of a (suitable) weak solution when the data are large.
Userfields: fjournal={SIAM Journal on Mathematical Analysis}, mrclass={76D03 (35Q35 76A05)}, mrnumber={MR2515781},
Keywords: existence result for large data, Generalized Navier-Stokes-Fourier system, Incompressible fluids, Navier’s slip boundary condition, Pressure-dependent viscosity, shear-dependent viscosity, suitable weak solution, temperature-dependent viscosity, unsteady flows, weak solution
Authors Bulíček, Miroslav
Málek, Josef
Rajagopal, K. R.
Added by: [ADM]
Total mark: 0
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