混合动力汽车镍氢电池寿命周期评价:再生电池与新电池的比较

IF 0.3 0 LANGUAGE & LINGUISTICS

Linguisticae Investigationes Pub Date : 2020-02-27 DOI:10.14746/il.2019.43.5

Shuoyao Wang, Jeongsoo Yu

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引用次数: 1

摘要

为了减少空气污染和避免石油枯竭问题，许多发达国家，特别是日本，都采用了混合动力汽车(HV)。随着高压电池的使用在世界范围内的普及，在不久的将来，将会有大量的报废高压电池，而如何正确处理这些报废高压电池，特别是废旧镍氢电池，将成为一个严重的问题。目前，镍氢电池的回收利用正受到广泛关注。然而，与其直接回收废镍氢电池，不如将废镍氢电池再生再利用，用于二手高压汽车，这将大大减少废电池的产生和对新镍氢电池的需求。然而，废镍氢电池的再生再利用对环境的影响尚不清楚，也没有与使用全新镍氢电池的情况进行比较。本研究的目的是比较再生镍氢电池和全新镍氢电池在高压汽车中从生产到使用阶段的环境性能(CO2排放)，并利用生命周期评估(LCA)方法讨论日本和其他国家使用再生镍氢电池的有效性。本研究分析了镍氢电池的组成以及镍氢电池在制造、运输、再生和使用过程中的二氧化碳排放。本研究中使用的数据收集自日本政府、汽车制造商和以前的研究报告和数据。对蓄电池再生经营者进行了原创性的实地调查和访谈研究。结果表明，环境效应差异不大。此外，通过这样做，将从电池制造过程中节省大量资源，同时减少废物的产生。建议今后废弃镍氢电池不应直接回收，而应在高压中再生再利用。

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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Life-Cycle Assessment on Nickel-Metal Hydride Battery in Hybrid Vehicles: Comparison between Regenerated and New Battery

To reduce air pollution and avoid petroleum exhaustion problem, many advanced countries, especially Japan installed Hybrid Vehicles (HV). As the use of HV popularizes around the world, there will be a huge amount of End-of-Life HV in the near future, and the proper treatment of these End-of-Life HVs, especially the waste NiMH (Nickel-Metal Hydride) batteries, will become a serious problem. Currently, the recycling of NiMH battery is gaining substantial attention. However, instead of recycling waste NiMH batteries directly, regenerating and reusing a used NiMH battery for a secondhand HV will largely reduce waste battery generation and demand for new NiMH battery. However, the environmental impact of regenerating and reusing a waste NiMH battery was not clear and has not been compared with the situation when using a brand-new NiMH battery. The purpose of this research is to compare the environmental performance (CO2 emission) of regenerated NiMH battery and brand-new NiMH battery in an HV from their production to usage stage and to discuss the validity of using a regenerated NiMH in Japan and in other countries using the Life-Cycle Assessment (LCA) approach. This research analyzed the composition of a NiMH battery and the CO2 emission during the manufacture, transportation, regeneration and usage process of a NiMH battery. The data used in this research was collected from reports and data published by the government of Japan, vehicle makers and previous studies. Original field survey and interview research on battery regeneration operators were also performed. The result showed that there is not a big difference in environmental effect. Moreover, by doing so, a huge amount of resource will be saved from battery manufacturing process while reducing waste generation. It is recommended that waste NiMH battery should be regenerated and reused in HV instead of being recycled directly in the future.

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来源期刊

Linguisticae Investigationes LANGUAGE & LINGUISTICS-

CiteScore

0.30

自引率

0.00%

发文量

期刊介绍： Lingvisticæ Investigationes publishes original articles dealing with the lexicon, grammar, phonology and semantics. It focuses on studies that are formalized to the point where they can be integrated into text analysis software, and on studies which describe resources such as grammars and electronic dictionaries constructed on a linguistic basis. Articles may deal with any language, though a large proportion are devoted to the study of French. The journal also publishes bibliographies, summaries of theses, reports, squibs and reviews. Contributions are in English and French. French-speaking authors are free to submit in French or in English. The journal has an accompanying book series entitled Lingvisticæ Investigationes Supplementa .