Lithium Ion Battery Characteristics simulation on Comsol.pptx
MDOmarFaruk81
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Jun 03, 2024
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About This Presentation
Lithium Ion Battery
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Mathematical Modeling and Analysis of Capacity Fade in Lithium-Ion Batteries across Cycling Periods. Prepared by Md. Omar Faruk 1615034 EEED, IU (as part of final year enlisted thesis/project work)
CONTENTS Introduction: The Problem Comsol Multiphsics 6.0 Geometry Result & Discussion Conclusion CONTENTS OVERVIEW
Introduction: The Problem Citation: Deshpande , Abhishek & Phul, Saksham & Krishnamurthy, Balaji. (2015). A Generalized Mathematical model to understand the capacity fading in lithium ion batteries-Effects of solvent and lithium transport. Journal of Electrochemical Science and Engineering. 5. 10.5599/jese.197. Figure(a): Formation of SEI Layer on Lithium-Ion Batteries
Comsol Multiphsics 6.0 Figure(b): 1D Li-ion Battery Geometry Constructed in Comsol Multiphysics 6.0
Figure(01): Cell voltage during discharge . Result & Discussion (1)
Figure 2: Capacity versus total accumulated cycling time. Result & Discussion (2)
Figure 3: Capacity versus cycle number. Result & Discussion (3)
Figure 4: Electrolyte volume fraction versus cycle number. Result & Discussion (4)
Figure 5: SEI film potential drop versus cycle number. Result & Discussion (5)
Conclusions Research on capacity fade in lithium-ion batteries: The study explores the intricate processes and factors contributing to the gradual degradation of lithium-ion batteries, focusing on capacity fade. Key findings and implications: The research reveals the nature of capacity fade and the role of factors such as Solid Electrolyte Interphase (SEI) formation. These insights offer predictive capabilities and applications across diverse sectors. Contribution to sustainable energy transition: As a critical component of the energy transition, this research aids in extending the longevity of lithium-ion batteries, fostering sustainability in the transition to cleaner energy sources. Ongoing quest for resilient energy solutions: The research represents a milestone in the journey to understand and mitigate capacity fade, aiming to create more effective and sustainable energy storage solutions for a brighter future.
_end That’s all, thanks everyone for your time and patience.
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