Christine Labaza scite author profile

Christine Labaza

3Publications

13Citation Statements Received

112Citation Statements Given

How they've been cited

How they cite others

109

Affiliations

General Motors (United States), Harley-Davidson (United States)

Publications

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Quantifying Volume Change in Porous Electrodes via the Multi-Species, Multi-Reaction Model

Garrick

Fernández

Labaza

et al. 2023

J. Electrochem. Soc.

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Automotive manufacturers are working to improve individual cell and overall pack design by increasing their performance, durability, and range, while reducing cost; and active material volume change is one of the more complex aspects that needs to be considered during this process. As the time from initial design to manufacture of electric vehicles is decreased, design work that used to rely solely on testing needs to be supplemented or replaced by virtual methods. As electrochemical engineers drive battery and system design using model-based methods, the need for coupled electrochemical/mechanical models that take into account the active material change utilizing physics based or semi-empirical approaches is necessary. In this study, we illustrated the applicability of a mechano-electrochemical coupled modeling method considering the multi-species, multi-reaction model as popularized by Verbrugge and Baker. To do this, validation tests were conducted using a computer-controlled press apparatus that can control the press displacement and press force with precision. The coupled MSMR volume change model was developed and its applicability to graphite and NMC cells was illustrated. The increased accuracy of the model considering the coupled MSMR volume change approach shows in the importance of accounting for individual gallery volume change behavior on cell level predictions.

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Economic feasibility analysis and operational testing of a community energy storage system

Knueven

Ostrowski

Ollis

et al. 2016

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Experimental Studies of Effects of Temperature Gradients on Performance of Pouch Type Large Format Nmc/C Lithium-Ion Battery

Song

et al. 2023

Preprint

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