Measurement and Analysis of Flow of Concentrated Fiber Suspensions through a 2-D Sudden Expansion Using UVP
Journal article, 2013

The ultrasound velocity profiling technique (UVP) was used to study flow structures after a two-dimensional (2-D) 1: 11 sudden expansion of pulp fiber suspensions at varied average velocities (1-2.2 m/s) and concentrations (1.8 and 2.8 wt %). One advantage of studying jet geometry is the potential to investigate the main flow structures away from walls. Measurements done at the same percent of the total jet length, at constant concentration, show that an increase in flow rate gave a faster decrease in centerline velocity and a quicker increase in jet width. Increasing the concentration, at the same jet length, the centerline velocity was more stable and the width of the mixing layer increased more rapidly. Comparisons with CFD simulations in the laminar regime, using the Bingham plastic model, show that the main flow structures were captured if the yield stress used in the simulations is approximately 20% of the measured using a rheometer.

rheology

pulp suspensions

fibers

near-wall

lda

cfd

piv

fluid mechanics

multiphase flow

velocity

papermaking

jet

fluidization

suspensions

Author

Julia Claesson

Chalmers, Chemical and Biological Engineering, Chemical Engineering Design

Anders Rasmuson

Chalmers, Chemical and Biological Engineering, Chemical Engineering Design

Wallenberg Wood Science Center (WWSC)

J. Wiklund

SIK – the Swedish Institute for Food and Biotechnology

T. Wikstrom

Metso Paper

AICHE Journal

0001-1541 (ISSN) 1547-5905 (eISSN)

Vol. 59 3 1012-1021

Subject Categories

Chemical Engineering

DOI

10.1002/aic.13881

More information

Latest update

8/27/2018