Improving process granularity of life cycle inventories for battery grade nickel.

Npj materials sustainability Pub Date : 2025-01-01 Epub Date: 2025-06-03 DOI:10.1038/s44296-025-00059-7

Sophia Roy, Hossam Moustafa, Ketan Vaidya, Jean-Philippe Harvey, Louis Fradette

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Abstract

Batteries are essential to transition to a fossil-free energy system, but only if coherently planned will their manufacturing generate minimal environmental impacts. Aggregated life cycle inventories for battery-grade nickel prevent life cycle analysts from easily pinpointing key impact contributors. The present work reconstructs inventories via disaggregation of current and emerging processing routes. Improving process granularity demonstrates variability in climate impacts of 74 kgCO_2eq/kWh for nickel sourcing of an NMC-811 cell. Furthermore, the global ecoinvent v.3.9.1 dataset for nickel sulfate could gravely underestimate climate impacts by 120 kgCO_2eq/kg Ni equivalent. Major contributors to climate impacts are readily identified for six nickel processing pathways, spanning two mineral families - laterite and sulfide - and three main processing routes - hydrometallurgy, bioleaching and pyrometallurgy. A preliminary assessment of all impact categories highlights the need for both improved fate models and data collection on inventory parts such as tailings management which are often neglected in carbon-focused studies.

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改进电池级镍生命周期清单的工艺粒度。

电池对于过渡到无化石能源系统至关重要，但只有在有条理的计划下，它们的制造才会对环境产生最小的影响。电池级镍的汇总生命周期清单使生命周期分析师无法轻松确定关键影响因素。本工作通过分解当前和新出现的加工路线来重建库存。改善工艺粒度表明，NMC-811电池镍源对74 kgCO2eq/kWh气候影响的可变性。此外，全球ecoinvent v.3.9.1硫酸镍数据集可能严重低估了气候影响，低估了120千克二氧化碳当量/千克镍当量。气候影响的主要贡献者很容易被确定为六种镍加工途径，跨越两个矿物家族-红土和硫化物-以及三种主要加工途径-湿法冶金，生物浸出和火法冶金。对所有影响类别的初步评估强调需要改进命运模型和收集诸如尾矿管理等库存部分的数据，这些在以碳为重点的研究中往往被忽视。

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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Npj materials sustainability

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