Abstract
Temperature has a significant effect on capacity, impedance, maximum charge/discharge rate and degradation of lithium-ion battery. The thermal gradients will accelerate the inhomogeneity within the battery and are detrimental to battery performances. Generally, the effects of temperature on electrical vehicles are: (1) discharge performance is exasperated in low temperature (2) degradation is accelerated in high temperature (3) inhomogeneity can be increased and (4) safety reliability is reduced. FigureĀ 11.1 schematically shows temperature relations with the above 4 aspects.
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References
Killian M, Zauner M, Kozek M (2018) Comprehensive smart home energy management system using mixed-integer quadratic-programming. Appl Energy 222(15):662ā672
Lei ZG, Zhang CN, Li JQ et al (2015) Preheating method of lithium-ion batteries in an electric vehicle. J Mod Power Syst Clean Energy 3(2):289ā296
Safdari M, Ahmadi R, Sadeghzadeh S (2020) Numerical investigation on PCM encapsulation shape used in the passive-active battery thermal management. Energy 193
Shashank A (2018) Selection of thermal management system for modular battery packs of electric vehicles: A review of existing and emerging technologies. J Power Sources 400:621ā640
Sun S, Guan T, Shen B et al (2017) Changes of degradation mechanisms of LiFePO4/Graphite batteries cycled at different ambient temperatures. Electrochim Acta 237:248ā258
Wakui T, Sawada K, Yokoyama R et al (2019) Predictive management for energy supply networks using photovoltaics, heat pumps, and battery by two-stage stochastic programming and rule-based control. Energy 179(15):1302ā1319
Wang CY, Zhang G, Ge S et al (2016) Lithium-ion battery structure that self-heats at low temperatures. Nature 529(7587):515ā518
Yang N, Zhang X, Shang BB et al (2016) Unbalanced discharging and aging due to temperature differences among the cells in a lithium-ion battery pack with parallel combination. J Power Sources 306:733ā741
Zhu J, Knapp M, Darma M et al (2019) An improved electro-thermal battery model complemented by current dependent parameters for vehicular low temperature application. Appl Energy 248(15):149ā161
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Yang, S., Liu, X., Li, S., Zhang, C. (2023). Thermal Management and Thermal Safety. In: Advanced Battery Management System for Electric Vehicles. Key Technologies on New Energy Vehicles. Springer, Singapore. https://doi.org/10.1007/978-981-19-3490-2_11
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DOI: https://doi.org/10.1007/978-981-19-3490-2_11
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