. [1] Doyle, M., et. al., Modeling of galvanostatic charge and discharge of the Lithium/polymer/insertion cell, J. Electrochem. Soc., 1993 [2] Hadigol, M., et. al., On uncertainty quantification of lithium-ion batteries: Application to an LiC 6 /LiCoO 2 cell, J. Power Sources, 2015 [3] Lundgren, H., et. al., Thermal Management of Large-Format Prismatic Lithium-Ion Battery in PHEV Application, J. Electrochem. Soc, 2015 [4] Marelli, S., et. al., UQLab user manual – Sensitivity analysis, Report UQLab-V0.9-106,Chair of Risk‚ Safety & Uncertainty Quantification, ETH Zurich, 2015 = ,…, = { ,…, } ; = , = ,…, ∈ a) b) a) b) = , ∓ , [] = , ∓ . [] ↑∶ ↓, ↑ ↑∶ ↓ ↑∶ ↓ i M i iX Y 1 0 Y i i i SRC ˆ y A A A T T 1 ˆ a) b) a) b) Excerpt from the Proceedings of the 2017 COMSOL Conference in Rotterdam
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[1] Doyle, M., et. al., Modeling of galvanostatic charge and discharge of the Lithium/polymer/insertion cell, J. Electrochem. Soc., 1993
[2] Hadigol, M., et. al., On uncertainty quantification of lithium-ion batteries: Application to an LiC 6 /LiCoO 2 cell, J. Power Sources, 2015
[3] Lundgren, H., et. al., Thermal Management of Large-Format Prismatic Lithium-Ion Battery in PHEV Application, J. Electrochem. Soc, 2015
[4] Marelli, S., et. al., UQLab user manual – Sensitivity analysis, Report UQLab-V0.9-106,Chair of Risk‚ Safety & Uncertainty Quantification, ETH Zurich, 2015
𝒀 = 𝒀𝟏, … , 𝒀𝟑𝑿 = {𝑿𝟏, … , 𝑿𝟒}
𝑺𝑹𝑪 ; 𝜷 𝑴 = 𝟒, 𝑨 = 𝑿𝟏, … , 𝑿𝟒
𝜷 𝒚 ∈ 𝒀𝝈𝒊 𝑿𝒊 𝝈𝒀
𝒀a) b)
a) b)
𝑳𝒑𝒐𝒔 = 𝟒𝟐, 𝟏𝟎 ∓ 𝟎, 𝟗𝟓 [𝝁𝒎]
𝑳𝒏𝒆𝒈 = 𝟓𝟗, 𝟒𝟕 ∓ 𝟏. 𝟎𝟓 [𝝁𝒎]
𝒓𝒑𝒏𝒆𝒈 𝒓𝒑𝒑𝒐𝒔𝑳𝒏𝒆𝒈 𝑳𝒑𝒐𝒔
• 𝑟𝑝𝑛𝑒𝑔 ↑∶ 𝐸 ↓, 𝐻 ↑
• 𝐿𝑛𝑒𝑔 ↑∶ 𝑇 ↓
• 𝐿𝑝𝑜𝑠 ↑∶ 𝐻 ↓
i
M
i
iXY
1
0
Y
iiiSRC
yAAA TT 1ˆ
𝒕𝟏
𝒕𝟐
a) b)
𝒕𝟏 𝒕𝟐
a) b)
Excerpt from the Proceedings of the 2017 COMSOL Conference in Rotterdam
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