Circuits and Systems

Volume 3, Issue 1 (January 2012)

ISSN Print: 2153-1285   ISSN Online: 2153-1293

Google-based Impact Factor: 0.48  Citations  

Experimental and Theoretical Considerations of Electrolyte Conductivity in Glucose Alkaline Fuel Cell

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DOI: 10.4236/cs.2012.31015    6,336 Downloads   11,041 Views  Citations
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ABSTRACT

The paper focuses on the conductivity of the fuel cell electrolyte in a membraneless glucose-fueled alkaline fuel cell. The electrolyte conductivity is interpreted using simple physical models, considering either the empirical behavior of the solution’s viscosity, or the consideration of ions and molecules colliding in solutions. The conductivity is expressed as a function of KOH and glucose concentrations. The physical properties of the species (i.e. radii, thermal velocity) and the chemical equilibrium constant of the reaction that glucose undergoes in an alkaline solution can be estimate by comparing the experimental results with the theory.

Share and Cite:

L. Mor and Z. Rubin, "Experimental and Theoretical Considerations of Electrolyte Conductivity in Glucose Alkaline Fuel Cell," Circuits and Systems, Vol. 3 No. 1, 2012, pp. 111-117. doi: 10.4236/cs.2012.31015.

Cited by

[1] Current-Voltage Modeling of the Enzymatic Glucose Fuel Cells
Advances in Chemical Engineering and Science, 2015
[2] Physical Models of the Conductivity in Glucose Alkaline Fuel Cell
ECS Transactions, 2013
[3] Physical Modeling of the Enzymatic Glucose-Fuelled Fuel Cells
Advances in Chemical Engineering and Science, 2013

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