废铌加入铸造工艺的生命周期评价

IF 2.8 Q2 MULTIDISCIPLINARY SCIENCES
Henrique G. da Silva, Joao C. E. Ferreira, Tamile Kelm, Thiago M. Ivaniski
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引用次数: 0

摘要

考虑到环境恶化的情况,可持续发展变得越来越重要,而工业部门对这种不利情况负有重大责任。铸造是一个重要的制造过程,但它消耗许多自然资源,产生废物,排放污染物,消耗大量的水和电。因此,本工作通过生命周期评估(LCA)研究了从废料中添加铌的灰铸铁铸造工艺对环境的影响。铌改善了熔融材料的结构和力学性能,并从一家公司用弹道磁选机分离它。设计了一个800锭的生产模型,使用供应商的回收材料和工厂自己的再利用材料,如回收的沙子。与使用新材料的工艺相比,使用回收材料的工艺产生的影响更小。由于砂模中通常使用粘合剂,以及化石燃料驱动的交通工具的存在,砂的回收和砂模制备阶段会产生重大影响。非生物耗竭表明需要向可再生能源和可持续材料过渡,例如发展清洁能源基础设施。对于全球变暖,铸造过程的各个阶段都有较高的数值,其中砂回收阶段的数值最高。为了防止富营养化,应实施适当的废物管理,例如在冶炼厂采用更清洁的技术,实施有效的污水处理系统。在淡水生态毒性方面,对产生的废水进行处理,降低污染物浓度,然后排入水生环境。
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 the casting process with the addition of niobium from scrap
Abstract Sustainability has become increasingly important, given the scenario of environmental degradation, and the industrial sector is significantly responsible for this adverse scenario. An important manufacturing process is casting, but it consumes many natural resources and generates waste, emitting pollutants and consuming much water and electricity. Thus, this work investigated the environmental impacts through life cycle assessment (LCA) arising from the gray cast iron casting process by adding niobium from scrap. Niobium improves molten material’s structure and mechanical properties, and it has been obtained from a company that separates it with a ballistic magnetic separator. A production model of 800 ingots was devised, using recycled material from a supplier and reused material from the factory itself, such as recycled sand. The processes using recycled materials resulted in lower impacts than those using new materials. Sand recycling and sand mold preparation stages have significant impact due to the presence of binders, typically used in sand molds, and transportation by vehicles powered by fossil fuels. Abiotic depletion indicates the need to transition to renewable energy sources and sustainable materials, such as developing clean energy infrastructure. Regarding global warming, there were high values for all stages of the casting process, with the highest value in the sand recycling stage. To prevent eutrophication, proper waste management should be implemented, such as cleaner technologies in the smelter implementing efficient effluent treatment systems. Concerning freshwater ecotoxicity, the effluents generated should be treated to reduce the concentration of pollutants before being discarded in the aquatic environment.
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来源期刊
SN Applied Sciences
SN Applied Sciences MULTIDISCIPLINARY SCIENCES-
自引率
3.80%
发文量
292
审稿时长
22 weeks
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