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Determination of the surface heat-transfer coefficient in CE

Version 2 2024-06-04, 12:14
Version 1 2017-07-21, 14:08
journal contribution
posted on 2024-06-04, 12:14 authored by V Hruska, CJ Evenhuis, Rosanne GuijtRosanne Guijt, M Macka, B Gas, PJ Marriott, PR Haddad
A knowledge of the heat-transfer coefficient, h(s), for the external surface of the capillary or the overall heat coefficient, h(OA), is of great value in predicting the mean increase in temperature of the electrolyte, DeltaT(Mean), during electrokinetic separations. For CE, traditional indirect methods of determining h(s) were time-consuming and tended to overestimate cooling efficiency; a novel method is introduced, which is based on curve-fitting of plots of conductance versus voltage to calculate several important parameters including DeltaT(Mean), h(s), the conductance free of Joule heating effects (G(0)) and the voltage that causes autothermal runaway, V(lim). The new method is superior to previously published methods in that it can be performed more quickly and that it corrects for systematic errors in the measurement of electric current for voltages <5 kV. These errors tended to exaggerate the cooling efficiency of commercial instruments so that the calculated increases in electrolyte temperature were smaller than their actual values. Axially averaged values for h(s) were determined for three different commercial CE instruments ranging from 164 W m(-2) K(-1) for a passively cooled instrument in a drafty environment to 460 W m(-2) K(-1) for a liquid-cooled instrument.

History

Journal

Electrophoresis

Volume

30

Pagination

910-920

Location

Chichester, Eng.

eISSN

1522-2683

Language

eng

Publication classification

CN.1 Other journal article

Copyright notice

2009, WILEY-VCH Verlag GmbH & Co. KGaA

Issue

5

Publisher

Wiley