考虑材料价格波动的不确定性下再制造设计的代用辅助优化

IF 8.6 2区 工程技术 Q1 ENERGY & FUELS Sustainable Materials and Technologies Pub Date : 2024-11-12 DOI:10.1016/j.susmat.2024.e01163
Mehnuma Tabassum , Kris De Brabanter , Gül E. Kremer
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引用次数: 0

摘要

再制造是一种行之有效的报废(EOL)策略,可显著节约能源和碳排放。然而,目前的设计实践并不包括再制造,也就是说,大多数产品都是为单一生命周期而设计的。因此,可以维持多个生命周期的潜在产品被剥夺了为再制造而设计的额外好处,如减少材料用量、降低成本和改善环境影响。此外,在设计、材料选择和经济性方面的不确定性,也没有考虑到可再制造设计的产生。因此,本研究提出了一个考虑设计不确定性和材料价格波动的再制造设计(DfRem)框架。该框架系统地探索设计空间,在不确定的情况下进行设计优化,然后进行拓扑优化,以节省更多的质量,最后对合理的设计材料选择进行价格波动分析。候选设计根据其设计质量、材料价格波动、失效模式特征、碳足迹和体现能源影响进行评估。通过对发动机气缸盖的热机械负载以及疲劳和磨损失效进行案例研究,证明了所提出的框架的实用性。在选择灰口铸铁和铝合金作为设计材料时,发现铸铁设计将初始设计质量减少了 6%,而铝合金则减少了 5%。另一方面,铸铁设计约有 8% 的面积因疲劳而失效,而铝合金仅为 3%。我们还注意到,虽然铝设计比铸铁设计具有更好的机械性能,但这种材料更为昂贵,而且价格不稳定。
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Surrogate-assisted optimization under uncertainty for design for remanufacturing considering material price volatility
Remanufacturing is a well-established end-of-life (EOL) strategy that promises significant savings in energy and carbon emissions. However, the current design practices are not remanufacturing-inclusive, i.e., the majority of products are designed for a single life cycle. As a result, potential products that can sustain multiple life cycles are deprived of additional benefits of being designed for remanufacturing, such as reduced material usage, lower cost, and improved environmental impact. Moreover, the uncertainty in design, material selection, and economics are not considered to produce remanufacturable designs. Accordingly, this research proposes a design for remanufacturing (DfRem) framework that accounts for design uncertainty and material price volatility. The framework systematically explores the design space, performs design optimization under uncertainty, followed by topology optimization to provide additional mass savings, and finally, a price volatility analysis for plausible design material choices. The candidate designs are evaluated based on their design mass, material price volatility, failure mode characteristics, carbon footprint, and embodied energy impacts. The proposed framework's utility is demonstrated via the use of an engine cylinder head case study subjected to thermo-mechanical loads along with fatigue and wear failure. Considering grey cast iron and aluminum alloy as the design material choices, it was found that the cast iron design reduced the initial design mass by 6% as opposed to a 5% decrease for aluminum. On the other hand, about 8% area of the cast iron design failed due to fatigue, compared to 3% for aluminum. We further observed that although the aluminum design provided better mechanical performance than the cast iron design, this material was more expensive and volatile in price.
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来源期刊
Sustainable Materials and Technologies
Sustainable Materials and Technologies Energy-Renewable Energy, Sustainability and the Environment
CiteScore
13.40
自引率
4.20%
发文量
158
审稿时长
45 days
期刊介绍: Sustainable Materials and Technologies (SM&T), an international, cross-disciplinary, fully open access journal published by Elsevier, focuses on original full-length research articles and reviews. It covers applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development. SM&T gives special attention to contributions that bridge the knowledge gap between materials and system designs.
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