V
Valérie Sauvant-Moynot
Researcher at French Institute of Petroleum
Publications - 22
Citations - 1560
Valérie Sauvant-Moynot is an academic researcher from French Institute of Petroleum. The author has contributed to research in topics: Battery (electricity) & Thermal runaway. The author has an hindex of 12, co-authored 22 publications receiving 1186 citations.
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Safety focused modeling of lithium-ion batteries: A review
TL;DR: A review of significant modeling works performed in the area with a focus on the characterization of the thermal runaway hazard and their relating triggering events is presented in this article, where progress made in models aiming at integrating battery ageing effect and related physics is also discussed.
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Simplified Electrochemical and Thermal Model of LiFePO4-Graphite Li-Ion Batteries for Fast Charge Applications
Eric Prada,Domenico Di Domenico,Yann Creff,Julien Bernard,Valérie Sauvant-Moynot,François Huet +5 more
TL;DR: In this article, a simplified electrochemical and thermal model of LiFePO4-graphite based Li-ion batteries is developed based on the Pseudo Two-Dimensional mathematical structure.
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Development of an empirical aging model for Li-ion batteries and application to assess the impact of Vehicle-to-Grid strategies on battery lifetime
TL;DR: In this article, an empirical capacity fade model for Li-ion batteries has been developed, calibrated and validated for a NCA/C and a LFP/C Li ion cell.
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A Simplified Electrochemical and Thermal Aging Model of LiFePO4-Graphite Li-ion Batteries: Power and Capacity Fade Simulations
Eric Prada,Domenico Di Domenico,Yann Creff,Julien Bernard,Valérie Sauvant-Moynot,François Huet +5 more
TL;DR: In this paper, an isothermal physics-based aging model is modified and extended to simulate both capacity and power fade of a commercial LiFePO4-graphite Li-ion battery.
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Combined experimental and modeling approaches of the thermal runaway of fresh and aged lithium-ion batteries
TL;DR: In this article, a 3D physical model of the Li-ion secondary rechargeable batteries (LIBs) electro-thermal behavior nearby thermal runaway conditions is presented. But, the model is focused on the development and validation of a three-dimensional (3D) physical model.