MODELLING MASS TRANSFER ENTRANCE LENGTHS IN TURBULENT PIPE-FLOW WITH APPLICATIONS TO SMALL CATHODES FOR MEASURING LOCAL MASS TRANSFER RATES

Wang Y.; Bergstrom DJ.; Postlethwaite J.

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MODELLING MASS TRANSFER ENTRANCE LENGTHS IN TURBULENT PIPE-FLOW WITH APPLICATIONS TO SMALL CATHODES FOR MEASURING LOCAL MASS TRANSFER RATES

机译：湍流管道中传质入口长度的建模及其在小阴极上的测量本地传质速率的应用

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Pipe-wall mass transfer, in the developing concentration boundary layer region, under fully developed hydrodynamic conditions is simulated with a low-Reynolds number, k-epsilon, eddy viscosity turbulence model. The predictions are in good agreement with the electrochemical measurements of Berger and Hau, in the range Re = 10(4) to 10(5), for Sc = 2244, and of Son and Hanratty, in the range Re = 1 x 10(4)-5 x 10(4), for Sc = 2400, in both the developing boundary layer region and the fully developed region. The application of small cathodes embedded in a larger active cathode to measure local mass transfer rates is also simulated. The size of the electrode and the thickness of the electrical insulation around the small electrode give rise to errors that increase as the insulation thickness increases and the electrode size decreases. [References: 34]

机译：利用低雷诺数，k-ε，涡流粘度湍流模型模拟了在充分发展的水动力条件下，在发展中的浓度边界层区域内的管壁传质。这些预测与对于Sc = 2244的Re = 10（4）至10（5）的Berger和Hau的电化学测量结果非常吻合，对于Sc = 2244的Son和Hanratty的电化学测量结果与Re = 1 x 10（ 4）-5 x 10（4），对于Sc = 2400，在显影边界层区域和完全显影区域均如此。还模拟了将小阴极嵌入较大的活性阴极中以测量局部传质速率的应用。电极的尺寸和小电极周围的电绝缘层的厚度引起误差，该误差随着绝缘层厚度的增加和电极尺寸的减小而增加。 [参考：34]

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《Journal of Applied Electrochemistry》 |1996年第5期|共9页
作者
Wang Y.; Bergstrom DJ.; Postlethwaite J.;
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正文语种 eng
中图分类电化学工业;物理化学（理论化学）、化学物理学;
关键词
K-epsilon model; Erosion-corrosion; Disturbed flow; Wall; Hydrodynamics;

机译：K-ε模型冲蚀扰动流动壁流体力学;

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1. MODELLING MASS TRANSFER ENTRANCE LENGTHS IN TURBULENT PIPE-FLOW WITH APPLICATIONS TO SMALL CATHODES FOR MEASURING LOCAL MASS TRANSFER RATES [J] . Wang Y., Bergstrom DJ., Postlethwaite J. Journal of Applied Electrochemistry . 1996,第5期

机译：湍流管道中传质入口长度的建模及其在小阴极上的测量本地传质速率的应用
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MODELLING MASS TRANSFER ENTRANCE LENGTHS IN TURBULENT PIPE-FLOW WITH APPLICATIONS TO SMALL CATHODES FOR MEASURING LOCAL MASS TRANSFER RATES

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