This article presents a shrinking core model for the discharge of porous lead particle at the negative electrode of a lead-acid battery by considering the reaction in a separate particle of the solid matrix. The model relates the shrinking unreacted lead core with the maximum amount of active material that can be reacted before termination of the discharge process due to poorly soluble low-conducting product. The developed model equations also incorporate the effect of double-layer capacitance and a dissolution–precipitation mechanism on the discharge process. The expressions for evaluating concentration and potential distributions as functions of time and distance are presented in three different models of a porous lead particle. For ...
A shrinking core model is presented for the galvanostatic discharge of a metal hydride particle. A q...
A mathematical model of a lead-acid cell is presented which includes the modeling of porous electrod...
This thesis focuses on the limitations of degradation mechanisms of Lead-Acid batteries, which signi...
Classical models are not successful in describing discharge characteristics of a lead-acid battery w...
Electrochemical and equivalent-circuit modelling are the two most popular approaches to battery simu...
An isothermal porous-electrode model of a discharging lead-acid battery is presented, which includes...
A mathematical model of a starved lead-acid cell has been developed to study the dynamic behavior of...
Lead-acid batteries fail faster in partial state-of-charge start-stop technology than in SLI applica...
A mathematical model of a starved lead-acid cell has been developed to study the dynamic behavior of...
with d e pos porou est, an umbe d grow ring in osion 510 A ceived use alloy of different metals and...
A one-dimensional mathematical model of a porous lead-dioxide lectrode is described and used to inve...
A simple mathematical model is presented and used to analyze the potential and current distributions...
Soluble lead acid redox flow battery (SLRFB) offers a number of advantages. These advantages can be ...
A two-dimensional mathematical model is presented for a lead dioxide electrode in a lead-acid cell. ...
During cycling of the soluble lead flow battery, solid layers of lead (Pb) and lead dioxide (PbO ...
A shrinking core model is presented for the galvanostatic discharge of a metal hydride particle. A q...
A mathematical model of a lead-acid cell is presented which includes the modeling of porous electrod...
This thesis focuses on the limitations of degradation mechanisms of Lead-Acid batteries, which signi...
Classical models are not successful in describing discharge characteristics of a lead-acid battery w...
Electrochemical and equivalent-circuit modelling are the two most popular approaches to battery simu...
An isothermal porous-electrode model of a discharging lead-acid battery is presented, which includes...
A mathematical model of a starved lead-acid cell has been developed to study the dynamic behavior of...
Lead-acid batteries fail faster in partial state-of-charge start-stop technology than in SLI applica...
A mathematical model of a starved lead-acid cell has been developed to study the dynamic behavior of...
with d e pos porou est, an umbe d grow ring in osion 510 A ceived use alloy of different metals and...
A one-dimensional mathematical model of a porous lead-dioxide lectrode is described and used to inve...
A simple mathematical model is presented and used to analyze the potential and current distributions...
Soluble lead acid redox flow battery (SLRFB) offers a number of advantages. These advantages can be ...
A two-dimensional mathematical model is presented for a lead dioxide electrode in a lead-acid cell. ...
During cycling of the soluble lead flow battery, solid layers of lead (Pb) and lead dioxide (PbO ...
A shrinking core model is presented for the galvanostatic discharge of a metal hydride particle. A q...
A mathematical model of a lead-acid cell is presented which includes the modeling of porous electrod...
This thesis focuses on the limitations of degradation mechanisms of Lead-Acid batteries, which signi...