The discharge behavior of lithium-ion batteries using the Dual-Potential Multi-Scale Multi-Dimensional (MSMD) Battery Model

机译：使用双电势多尺度多维（MSMD）电池模型的锂离子电池的放电行为

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This paper gives insight into the discharge behavior of lithium-ion batteries based on the investigations, which have been done by the researchers [1- 19]. In this article, the battery's discharge behaviour at various discharge rates is studied and surface monitor, discharge curve, volume monitor plot of maximum temperature in the domain and maximum temperature in the area are illustrated. Additionally, an external and internal short-circuit treatment for three cases have been studied. The Dual-Potential Multi-Scale Multi-Dimensional (MSMD) Battery Model (BM) was used by ANSYS FLUENT software to analysis the discharge behaviour of lithium-ion batteries. The results show that surface monitor plot of discharge curve at 1 C has a decreasing trend and volume monitor plot of maximum temperature in the domain has slightly increasing pattern over the simulation time. For the curves of discharge and maximum temperature in the domain, lowest and the highest rate of changes were seen for 0.5C and 5C respectively.

机译：本文基于研究人员对锂离子电池的放电行为进行了深入研究，这些研究是由研究人员完成的[1-19]。在本文中，研究了电池在各种放电速率下的放电行为，并显示了表面监控器，放电曲线，区域内最高温度和区域内最高温度的体积监控器图。另外，已经研究了三种情况下的内部和外部短路处理。 ANSYS FLUENT软件使用双电势多尺度多维（MSMD）电池模型（BM）分析锂离子电池的放电行为。结果表明，随着时间的推移，放电曲线在1 C时的表面监测图呈下降趋势，在该区域内最高温度的体积监测图呈略有增加的趋势。对于区域中的放电和最高温度的曲线，分别在0.5C和5C时可以看到最低和最高的变化率。

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《International Conference on Ecological Vehicles and Renewable Energies》|2017年|1-14|共14页
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Seyed Saeed Madani; Maciej Jozef Swierczynski; Søren Knudsen Kær;
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Electrodes; Finite element analysis; Software; Market research; Electronic countermeasures; Solvents; Physics;

机译：电极;有限元分析;软件;市场研究;电子对策;溶剂;物理;

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4. The discharge behavior of lithium-ion batteries using the Dual-Potential Multi-Scale Multi-Dimensional (MSMD) Battery Model [C] . Seyed Saeed Madani, Maciej Jozef Swierczynski, S?ren Knudsen K?r International Conference on Ecological Vehicles and Renewable Energies . 2017

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The discharge behavior of lithium-ion batteries using the Dual-Potential Multi-Scale Multi-Dimensional (MSMD) Battery Model

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