Modeling Rate Dependent Volume Change in Porous Electrodes in Lithium-Ion Batteries

Author:

Garrick Taylor R.ORCID,Fernandez Miguel A.,Koch Brian J.,Efimoff Erin,Jones Matthew,Mollah Rafid,Teel Hunter,Du XiaoniuORCID,Shimpalee SirivatchORCID,Choe Song-YulORCID,Subramanian Venkat R.ORCID,Siegel Jason B.ORCID

Abstract

Automotive manufacturers are working to improve individual cell, module, and overall pack design by increasing the performance, range, and durability, while reducing cost. One key piece to consider during the design process is the active material volume change, its linkage to the particle, electrode, and cell level volume changes, and the interplay with structural components in the rechargeable energy storage system. As the time from initial design to manufacture of electric vehicles decreases, design work needs to move to the virtual domain; therefore, a need for coupled electrochemical-mechanical models that take into account the active material volume change and the rate dependence of this volume change need to be considered. In this study, we illustrated the applicability of a coupled electrochemical-mechanical battery model considering multiple representative particles to capture experimentally measured rate dependent reversible volume change at the cell level through the use of an electrochemical-mechanical battery model that couples the particle, electrode, and cell level volume changes. By employing this coupled approach, the importance of considering multiple active material particle sizes representative of the distribution is demonstrated. The non-uniformity in utilization between two different size particles as well as the significant spatial non-uniformity in the radial direction of the larger particles is the primary driver of the rate dependent characteristics of the volume change at the electrode and cell level.

Funder

Department of Energy

Publisher

The Electrochemical Society

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