不确定条件下绿色正反向肉类供应链网络设计的多目标优化:利用废物和副产品

IF 6.7 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computers & Industrial Engineering Pub Date : 2024-09-18 DOI:10.1016/j.cie.2024.110578
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引用次数: 0

摘要

对食物的基本要求是人类的关键需求,从生产到消费都会对生态产生重大影响。肉类作为膳食的重要组成部分,提供了对人类健康至关重要的营养物质。本文提出了一个双目标两阶段随机优化模型,用于绿色正向-反向肉类供应链网络设计,以解决整个链条中的经济和环境问题。在正向流程中,供应链管理各种肉类产品,包括新鲜肉类、加工肉类和冷冻肉类产品,确保其生态高效的生产和配送。同时,在逆向流程中,生产过程中产生的废物和副产品被重新利用和再循环。这项研究通过废物再利用、副产品再利用和碳排放最小化来促进环境的可持续发展。对于较小的实例,采用流行的精确ε-约束方法来解决所提出的模型;对于较大的实例,采用非支配排序遗传算法 II (NSGA-II)、多目标粒子群优化 (MOPSO) 和强度帕累托进化算法 2 (SPEA2) 元启发式算法。SPEA2 优于 MOPSO 和 NASG-II,平均差距分别为 0.38% 和 0.76%。此外,研究结果表明,环境影响平均减少 2.5%,利润平均减少 5%。值得注意的研究成果增强了管理者有效驾驭需求波动影响的能力。此外,强调转换率的影响至关重要,尤其是与生产过程相关的转换率。过高的转换率会对盈利能力产生负面影响,并加剧环境问题。相反,降低转换率可以提高盈利能力,减轻对环境的影响。
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Multi-objective optimization for a green forward-reverse meat supply chain network design under uncertainty: Utilizing waste and by-products

The essential requirement for food stands as a pivotal human need, exerting significant ecological impact from production to consumption. Meat, a key dietary component, offers essential nutrients vital for human health. This paper presents a bi-objective two-stage stochastic optimization model for a green forward-reverse meat supply chain network design, addressing both economic and environmental concerns throughout the chain. In the forward flow, the supply chain manages various meat products consist of fresh, processed, and frozen meat products, ensuring their eco-efficient production and distribution. Meanwhile, in the reverse flow, waste and by-products generated during the production process are repurposed and reused. The study promotes environmental sustainability by repurposing waste, utilizing by-products, and minimizing carbon emissions. The proposed model is solved using popular exact ε-constraint method for smaller instances and Non-dominated Sorting Genetic Algorithm II (NSGA-II), Multi-Objective Particle Swarm Optimization (MOPSO), and Strength Pareto Evolutionary Algorithm 2 (SPEA2) meta-heuristic algorithms are employed for larger instances. SPEA2 outperforms both MOPSO and NASG-II, demonstrating less average gap that is 0.38% and 0.76%, respectively. Additionally, the findings reveals that an average 2.5% reduction in environmental impacts associated with an average 5% decrease in profit. The noteworthy outcomes of the research empower managers to navigate the implications of fluctuating demand effectively. Moreover, it is crucial to underscore the effects of conversion rates, particularly those associated with the manufacturing process. An excessively high conversion rate can negatively impact profitability and worsen environmental issues. Conversely, lowering the conversion rate can enhance profitability and mitigate environmental impacts.

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来源期刊
Computers & Industrial Engineering
Computers & Industrial Engineering 工程技术-工程:工业
CiteScore
12.70
自引率
12.70%
发文量
794
审稿时长
10.6 months
期刊介绍: Computers & Industrial Engineering (CAIE) is dedicated to researchers, educators, and practitioners in industrial engineering and related fields. Pioneering the integration of computers in research, education, and practice, industrial engineering has evolved to make computers and electronic communication integral to its domain. CAIE publishes original contributions focusing on the development of novel computerized methodologies to address industrial engineering problems. It also highlights the applications of these methodologies to issues within the broader industrial engineering and associated communities. The journal actively encourages submissions that push the boundaries of fundamental theories and concepts in industrial engineering techniques.
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