2024
DOI: 10.1149/1945-7111/ad405e
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A Robust Model Order Reduction Scheme for Lithium-Ion Batteries in Control-Oriented Vehicle Models

Ramin Masoudi,
Amir Taghavipour,
Nasser L. Azad
et al.

Abstract: The role of batteries in electrification of vehicles is eminent; thus, a dynamic model that represents the physics-based phenomena of the battery system at a minimum computational cost is essential in the model-based design of electrified vehicle control systems.
Furthermore, robustness of the reduced-order battery model when maintaining the dominant physics-based phenomena governing the dynamic behavior of the battery system is crucial. Characterization of the power signal applied to the lithium-ion b… Show more

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“…Lithium-ion batteries are used across the globe for a variety of applications, including grid storage, [1][2][3] off-grid power combined with solar 4 or wind 5 power, portable electronic devices such as laptops and cell phones, and electric vehicles. 6,7 As battery pack designs for electric vehicles increase in energy to meet range requirements and mitigate range anxiety 8 for consumers, higher energy density materials 9 such as silicon [10][11][12][13][14][15][16][17][18] containing materials have come into focus. Silicon and other high-capacity anode materials undergo significant volume change [19][20][21][22][23] during lithiation, [24][25][26] which can ultimately impact the performance of the battery pack and electric vehicle due to the engineering changes that must be made to account for the silicon volume change.…”
Section: Background and Introductionmentioning
confidence: 99%
“…Lithium-ion batteries are used across the globe for a variety of applications, including grid storage, [1][2][3] off-grid power combined with solar 4 or wind 5 power, portable electronic devices such as laptops and cell phones, and electric vehicles. 6,7 As battery pack designs for electric vehicles increase in energy to meet range requirements and mitigate range anxiety 8 for consumers, higher energy density materials 9 such as silicon [10][11][12][13][14][15][16][17][18] containing materials have come into focus. Silicon and other high-capacity anode materials undergo significant volume change [19][20][21][22][23] during lithiation, [24][25][26] which can ultimately impact the performance of the battery pack and electric vehicle due to the engineering changes that must be made to account for the silicon volume change.…”
Section: Background and Introductionmentioning
confidence: 99%