Deyuan Fan scite author profile

1991

J. Electrochem. Soc.

A mathematical model for the charge and discharge of a sealed nickel-cadmium (Ni-Cd) battery is presented. The model is used to study the effect of transport properties of the electrolyte and kinetic parameters of the electrode reactions on the cell performance during the charge and discharge period. The model can also be used to demonstrate the changes of cell performance during cycling. Some comparisons between model predictions and experimental results indicate that the model predictions appear to fit the experimental data well. Sensitivity analyses illustrate that the sealed nickel-cadmium battery operates under activation control. It is also shown theoretically that oxygen generated on the positive electrode during charge is reduced electrochemically on the negative electrode.

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Mathematical Modeling of a Nickel‐Cadmium Battery: Effects of Intercalation and Oxygen Reactions

1991

J. Electrochem. Soc.

Extensions are presented for a previously published (1) mathematical model of a nickel-cadmium (Ni-Cd) cell. These extensions consist of intercalation thermodynamics for the nickel electrode and oxygen generation and reduction reactions during charge and overcharge. The simulated results indicate that intercalation may be important in the nickel electrode and that including the oxygen reactions provides a means of predicting the efficiency of the cell on charge and discharge.

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Diffusion of a gas through a membrane

1992

Optimization and extension of pentadiagonal band(J) solver to multiregion systems containing interior boundaries

Computers & Chemical Engineering

1991

Modelling A Nickel Cadmium Battery As A Homogeneous Device

Timmerman