RESIDENCE TIME DISTRIBUTION FOR LAMINAR-F LOW OF A KERSCHEL-BULKLEY FLUID IN A STRAIGHT CIRCULAR TUBE

Authors
SAWINSKY J DEAK A
Citation
J. Sawinsky et A. Deak, RESIDENCE TIME DISTRIBUTION FOR LAMINAR-F LOW OF A KERSCHEL-BULKLEY FLUID IN A STRAIGHT CIRCULAR TUBE, Magyar kemiai folyoirat, 101(7), 1995, pp. 293-295
Citations number
18
Categorie Soggetti
Chemistry
Journal title
Magyar kemiai folyoiratACNP
ISSN journal
00250155
Volume
101
Issue
7
Year of publication
1995
Pages
293 - 295
Database
ISI
SICI code
0025-0155(1995)101:7<293:RTDFLL>2.0.ZU;2-P
Abstract
Residence time distribution functions are derived for non-Newtonian la minar flow through a tube where molecular diffusion is negligible. The fluids are assumed to be characterized by the Herschel-Bulkley plasti c model. For the limiting case when n = 1 and y(m) = 0, the equations reduce to those derived by Bosworth and Denbigh for Newtonian fluids.