塑料和纸质超高频RFID标签的生命周期评估

IF 1.6 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Bahar Aliakbarian, Stefano Ghirlandi, Antonio Rizzi, Roberta Stefanini, Giuseppe Vignali
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引用次数: 0

摘要

这项工作的目的是评估超高频RFID标签对环境的影响。通过生命周期评估方法,调查了两个案例研究,即标准塑料标签和纸质标签。收集了标签组成、制造和运输的主要数据,检索了原材料加工和标签使用寿命结束的次要数据。采用配方中点法评价影响。结果表明,在这两个标签中,对全球变暖、陆地酸化、矿物和化石资源稀缺的最大贡献是由于原材料开采(超过50%)和制造阶段(30-50%),这也导致电离辐射的影响(70%)。有趣的是,纸质标签可以节省高达23%的温室气体排放,减少对上述类别的影响,从而成为环保的选择。这项工作的结论有助于更新科学文献,在RFID环境评估方面仍然很差,并且对于有兴趣比较传统处理系统与RFID场景的影响的研究人员很有用。此外,研究结果将作为后续研究的输入,旨在开发一种工具来衡量RFID部署对环境的回报。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Life cycle assessment of plastic and paper-based ultra high frequency RFID tags
The aim of the work is to assess the environmental impacts of Ultra High Frequency RFID tags. Through a Life Cycle Assessment approach, two case studies have been investigated, namely a standard plastic and a paper-based tags. Primary data on tags’ components, manufacturing and transportation were collected, while secondary data for the raw materials processing and tags’ end of life were retrieved. The Recipe Midpoint method was used to evaluate the impacts. Results show that, for both tags, the greatest contributions to global warming, terrestrial acidification, mineral and fossil resource scarcity are due to raw material extraction (more than 50%) and manufacturing phase (30–50%), which resulted impactful also on the ionizing radiation (70%). Interestingly, the paper tag allows to save up to 23% of the greenhouse gas emissions and decreases the impact on the above-mentioned categories, resulting the eco-friendly option. The conclusion of the work contributes to update the scientific literature, still poor in RFID environmental evaluations, and are useful for researchers interested in comparing the traditional handling systems’ impacts to the RFID scenario. Furthermore, the outcomes will be used as input for subsequent research, aimed at developing a tool to measure the return on the environment of RFID deployments.
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来源期刊
CiteScore
1.10
自引率
20.00%
发文量
4
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