Algorithm to Evaluate the Shear Rate Profile and the Apparent Viscosity of Non-Newtonian Fluids in the Falling Cylinder Viscometer

BERLI, CLAUDIO L A; DEIBER, JULIO ALCIDES

LATIN AMERICAN APPLIED RESEARCH

Año: 2007 vol. 37 p. 141 - 150

0327-0793

The falling cylinder viscometer (FCV) is a reliable instrument to quantify the viscosity of Newtonian fluids. Nevertheless, when non-Newtonian fluids are tested in this device, difficulties appear to determine the apparent viscosity. Thus, conventional rheometric calculations cannot be ap-plied directly to experimental data provided by the FCV in order to obtain the apparent viscosity func-tion, because the knowledge of a rather complex shear rate profile in the annular flow, between the falling cylinder and the container, is required. Con-sequently, experimental data of the FCV must be processed numerically by including inevitably an appropriate model of the apparent viscosity for the fluid under study. Previous works used the Power Law model, within several small sub-regions of shear rates, selected heuristically, as a reasonable ap-proximation. The present work proposes an algo-rithm to process the experimental data provided by the FCV for different non-Newtonian fluids. Thus, this generic procedure allows one to perform calcu-lations for any model of the apparent viscosity that includes a set of parameters to be appropriately identified.