Experimental evidence of slip development in capillaries and a method to correct for end effects in the flow of xanthan solutions

Lourdes De Vargas; Jose Perez-Gonzalez; Javier De Romero-Barenque

doi:10.1122/1.550399

Experimental evidence of slip development in capillaries and a method to correct for end effects in the flow of xanthan solutions

Lourdes De Vargas, Jose Perez-Gonzalez, Javier De Romero-Barenque

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21 Scopus citations

Abstract

Flow experiments using a capillary rheometer with 0.2% xanthan aqueous solutions were carried out to give experimental evidence of the dependence of the slip velocity on the geometrical parameters of the rheometer. The Mooney method was used to evaluate the slip velocity V_s. It was found that V_s is an increasing function of the wall shear stress and also of the length to diameter ratio L/D not considered in the Mooney theory. That is, V_s= vs(tw, l/d), although, for each r_w value, V_sbecomes independent of L/D at large L/D. In addition, a method to determine the excess pressure drop due to end effects is outlined and experimental results presented. The differences between this method and the one by Bagley are highlighted.

Original language	English
Pages (from-to)	867-878
Number of pages	12
Journal	Journal of Rheology
Volume	37
Issue number	5
DOIs	https://doi.org/10.1122/1.550399
State	Published - Sep 1993
Externally published	Yes

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abstract = "Flow experiments using a capillary rheometer with 0.2% xanthan aqueous solutions were carried out to give experimental evidence of the dependence of the slip velocity on the geometrical parameters of the rheometer. The Mooney method was used to evaluate the slip velocity Vs. It was found that Vs is an increasing function of the wall shear stress and also of the length to diameter ratio L/D not considered in the Mooney theory. That is, Vs= vs(tw, l/d), although, for each rw value, Vsbecomes independent of L/D at large L/D. In addition, a method to determine the excess pressure drop due to end effects is outlined and experimental results presented. The differences between this method and the one by Bagley are highlighted.",

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AU - De Romero-Barenque, Javier

PY - 1993/9

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N2 - Flow experiments using a capillary rheometer with 0.2% xanthan aqueous solutions were carried out to give experimental evidence of the dependence of the slip velocity on the geometrical parameters of the rheometer. The Mooney method was used to evaluate the slip velocity Vs. It was found that Vs is an increasing function of the wall shear stress and also of the length to diameter ratio L/D not considered in the Mooney theory. That is, Vs= vs(tw, l/d), although, for each rw value, Vsbecomes independent of L/D at large L/D. In addition, a method to determine the excess pressure drop due to end effects is outlined and experimental results presented. The differences between this method and the one by Bagley are highlighted.

AB - Flow experiments using a capillary rheometer with 0.2% xanthan aqueous solutions were carried out to give experimental evidence of the dependence of the slip velocity on the geometrical parameters of the rheometer. The Mooney method was used to evaluate the slip velocity Vs. It was found that Vs is an increasing function of the wall shear stress and also of the length to diameter ratio L/D not considered in the Mooney theory. That is, Vs= vs(tw, l/d), although, for each rw value, Vsbecomes independent of L/D at large L/D. In addition, a method to determine the excess pressure drop due to end effects is outlined and experimental results presented. The differences between this method and the one by Bagley are highlighted.

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Experimental evidence of slip development in capillaries and a method to correct for end effects in the flow of xanthan solutions

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