A New Viscosity Equation For Bin Aqueous Solutions.

An equation for the viscosity of binary aqueous solutions has been derived based on the Power law equation and Erying's absolute rate theory. The concentration dependent equation for viscosities of binary aqueous systems is derived using additive contribution from water and solute component. Th...

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Main Authors:	Tan, C. S., Teng, T.T., Hakimi, Mahamad, Lim, C. P., Pang, F. M., Seng, C. E.
Format:	Conference or Workshop Item
Language:	en
Published:	2004
Subjects:	T1-995 Technology(General)
Online Access:	http://eprints.usm.my/7667/1/A_New_Viscosity_Equation_for_Binary_Aqueous_Solutions_%28PPTIndustry%29.pdf http://eprints.usm.my/7667/
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_version_	1832687357646602240
author	Tan, C. S. Teng, T.T. Hakimi, Mahamad Lim, C. P. Pang, F. M. Seng, C. E.
author_facet	Tan, C. S. Teng, T.T. Hakimi, Mahamad Lim, C. P. Pang, F. M. Seng, C. E.
author_sort	Tan, C. S.
building	Hamzah Sendut Library
collection	Institutional Repository
content_provider	Universiti Sains Malaysia
content_source	USM Institutional Repository
continent	Asia
country	Malaysia
description	An equation for the viscosity of binary aqueous solutions has been derived based on the Power law equation and Erying's absolute rate theory. The concentration dependent equation for viscosities of binary aqueous systems is derived using additive contribution from water and solute component. The equation has sufficient degree of freedom to represent the' whole range of concentration. The equation has been applied to 12 nonelectrolyte aqueous systems and 10 electrolyte systems at various temperatures. An average absolute deviation percentage error' (AAD%) of 0.2856% is reported for electrolyte systems: For non-electrolyte systems an average AAD% of 0.7843% is reported. Overall, the equation is found to have yielded an AAD% of 0.5576%.
format	Conference or Workshop Item
id	my.usm.eprints.7667
institution	Universiti Sains Malaysia
language	en
publishDate	2004
record_format	eprints
spelling	my.usm.eprints.7667 http://eprints.usm.my/7667/ A New Viscosity Equation For Bin Aqueous Solutions. Tan, C. S. Teng, T.T. Hakimi, Mahamad Lim, C. P. Pang, F. M. Seng, C. E. T1-995 Technology(General) An equation for the viscosity of binary aqueous solutions has been derived based on the Power law equation and Erying's absolute rate theory. The concentration dependent equation for viscosities of binary aqueous systems is derived using additive contribution from water and solute component. The equation has sufficient degree of freedom to represent the' whole range of concentration. The equation has been applied to 12 nonelectrolyte aqueous systems and 10 electrolyte systems at various temperatures. An average absolute deviation percentage error' (AAD%) of 0.2856% is reported for electrolyte systems: For non-electrolyte systems an average AAD% of 0.7843% is reported. Overall, the equation is found to have yielded an AAD% of 0.5576%. 2004 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.usm.my/7667/1/A_New_Viscosity_Equation_for_Binary_Aqueous_Solutions_%28PPTIndustry%29.pdf Tan, C. S. and Teng, T.T. and Hakimi, Mahamad and Lim, C. P. and Pang, F. M. and Seng, C. E. (2004) A New Viscosity Equation For Bin Aqueous Solutions. In: Proceedings of the 18th Symposium of Malaysian Chemical Engineers (SOMCHE 2004), 2004.
spellingShingle	T1-995 Technology(General) Tan, C. S. Teng, T.T. Hakimi, Mahamad Lim, C. P. Pang, F. M. Seng, C. E. A New Viscosity Equation For Bin Aqueous Solutions.
title	A New Viscosity Equation For Bin Aqueous Solutions.
title_full	A New Viscosity Equation For Bin Aqueous Solutions.
title_fullStr	A New Viscosity Equation For Bin Aqueous Solutions.
title_full_unstemmed	A New Viscosity Equation For Bin Aqueous Solutions.
title_short	A New Viscosity Equation For Bin Aqueous Solutions.
title_sort	new viscosity equation for bin aqueous solutions.
topic	T1-995 Technology(General)
url	http://eprints.usm.my/7667/1/A_New_Viscosity_Equation_for_Binary_Aqueous_Solutions_%28PPTIndustry%29.pdf http://eprints.usm.my/7667/
url_provider	http://eprints.usm.my/

A New Viscosity Equation For Bin Aqueous Solutions.

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