Techno-Economic Analysis of the Business Potential of Second-Life Batteries in Ostrobothnia, Finland

Batteries Pub Date : 2024-01-20 DOI:10.3390/batteries10010036

Sami Lieskoski, J. Tuuf, Margareta Björklund-Sänkiaho

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Abstract

In an effort to tackle climate change, various sectors, including the transport sector, are turning towards increased electrification. As a result, there has been a swift increase in the sales of electric vehicles (EVs) that use lithium-ion batteries (LIBs). When LIBs reach their end of life in EVs, it may still be possible to use them in other, less demanding applications, giving them a second life. This article describes a case study where the feasibility of a hypothetical business repurposing Tesla Model S/X batteries in the Ostrobothnia region, Finland, is investigated. A material-flow analysis is conducted to estimate the number of batteries becoming available for second-life applications from both the Ostrobothnia region and Finland up to 2035. The cost of repurposing batteries is evaluated for four different scenarios, with the batteries being processed either on the pack, module, or cell level. Three scenarios were found to be feasible, with repurposing costs of 27.2–38.3 EUR/kWh. The last scenario, in which all battery packs are disassembled at the cell level, was found not to be feasible due to the labor intensiveness of disassembly and testing at the cell level. This work gives indications of the potential for repurposing batteries in the Ostrobothnia region and Finland.

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芬兰 Ostrobothnia 地区二次电池商业潜力的技术经济分析

为了应对气候变化，包括交通部门在内的各行各业都在加强电气化。因此，使用锂离子电池（LIB）的电动汽车（EV）销量迅速增长。当锂离子电池在电动汽车中的使用寿命到期时，仍有可能将其用于其他要求不高的应用中，使其获得第二次生命。本文介绍了一项案例研究，调查了芬兰奥斯特罗布尼亚地区特斯拉 S/X 型电池再利用假想业务的可行性。通过材料流分析，估算了到 2035 年奥斯特罗布尼亚地区和芬兰可用于二次利用的电池数量。评估了四种不同情况下电池再利用的成本，电池的处理方式包括电池组、模块或电池单元。结果发现，有三种方案是可行的，其再利用成本为 27.2-38.3 欧元/千瓦时。最后一种方案是在电池单元层面拆卸所有电池组，但由于在电池单元层面进行拆卸和测试需要大量人力，因此并不可行。这项研究表明，在奥斯特罗布尼亚地区和芬兰，电池再利用的潜力巨大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Batteries

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