Constantin Fetecau†, Maricel Agop‡
Abstract: Analytical expressions for the steady-state components of the dimensionless starting solutions corresponding to some oscillatory motions through a horizontal rectangular channel of two classes of incompressible Newtonian fluids with power-law dependence of viscosity
on the pressure are established in the simplest forms. The fluid motion is generated by the lower plate that oscillates in its plane. For validation, three limiting cases are considered and interesting graphical representations are provided. It is worth pointing out the fact that such solutions are important in practice for those who want to eliminate the transients from their experiments. In addition, the dimensionless steady shear stresses corresponding to the simple Couette flow of such fluids are constants on the whole flow domain although the adequate velocity fields are functions of y.
MSC: 76A05
keywords: Newtonian fluids, pressure-dependent viscosity, oscillatory motions, exact solutions.
DOI 10.56082/annalsarscimath.2020.1-2.295
† c_fetecau@yahoo.com Section of Mathematics, Academy of Romanian Scientists;
‡m.agop@yahoo.com Section of Physics, Academy of Romanian Scientists; Faculty of Industrial Engineering and Management Machinery, Department of Physics, Technical University Gheorghe Asachi Iași
PUBLISHED in Annals Academy of Romanian Scientists Series on Mathematics and Its Application, Volume 12 no 1-2, 2020
