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Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Calculation of Internal Electrical Resistance and Power.

Published byMuriel Annabel Bryant Modified over 8 years ago

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Presentation on theme: "Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Calculation of Internal Electrical Resistance and Power."— Presentation transcript:

1 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Calculation of Internal Electrical Resistance and Power Loss in a Electrochemical Cell by fitting Polarization Curve Data to the Butler-Volmer Equation Craig E. Nelson - Consultant Engineer

2 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Basic Circuit Model

3 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Rinternal = Vinternal / IcellVinternal = Vopencircuit – Vload Therefore Rinternal = ( Vopencircuit – Vload ) / Icell Rinternal does not = - d(Vload) / d(Icell) Simple Circuit Model For Basic Power Loss Analysis

4 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Equivalent Circuit Model For a Cell Showing Anode and Cathode Crossover Loss Mechanisms Anode Crossover Current Source Cathode Crossover Current Source

5 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Simplified Equivalent AC Circuit Model for a Two Electrode Cell for General Interpretation of Impedance Spectroscopy Data and Current – Voltage Transient Performance Analysis Anode Cathode Conduction Loss

6 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Typical Measured and Fitted Cell Polarization Curve Plots

7 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Log-Lin plot of a typical Measured and Fitted Cell V-I Curve

8 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com

9 Vload = Vnernst - Vtaffel * ASINH ( Iload / (2 * Io ) ) - Rohmic * Iload Vnernst = Thermodynamically reversible electro-chemical potential Vtaffel = slope of Taffel curve Iload = Load current Io = thermodynamic exchange current in the absence of overpotential Simple Formulaic Model for a Generic Electro-Chemical Cell without Mass Transport Losses Rohmic = electronic resistance in current collectors + ionic resistance in electrolyte and Nafion layer Vload = Vnernst - Vactivation - Vohmic ASINH = Hyperbolic arc sine function

10 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Helpful Correlation Formulae Fitted to Measured Data Vload =.9 -.095 * ASINH ( Iload / ( 2*.012 ) ) -.25 * Iload Vdrop_internal =.095 * ASINH ( Iload / ( 2*.012 ) ) +.25 * Iload Rload = [.9 -.095 * ASINH ( Iload / ( 2*.012 ) ) -.25 * Iload ] / Iload Rinternal = [.095 * ASINH ( Iload / ( 2*.012 ) ) +.25 * Iload ] / Iload Apparently the internal ionic and electronic resistance total is about.25 ohm

11 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Linear scale plot of contributing parts of internal voltage drop vs. current

12 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Log scale plot of contributing parts of internal voltage drop vs. current

13 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Typical load and internal lost power and efficiency Curves

14 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Typical load and lost power and efficiency curves - log-linear scale

15 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Breakdown of typical internal power loss & efficiency vs. current – linear scale

16 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Breakdown of typical internal power loss & efficiency vs. current – log-linear scale

17 Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com 1.Incremental resistance ( - d(v) / d(i) ) should not be used 2.Simple circuit models based on the classic Butler-Volmer equations seem to model actual cell behavior quite well over two decades of output current 3.Use of the model equations allows a useful deconstruction of cell polarization curves. This, in turn, allows power loss from several principal mechanisms to be estimated with reasonable accuracy 4.Further work using electrical impedance spectroscopy methods can be used to refine the model presented here. Conclusion

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