A quadratic-linear bilevel programming approach to green supply chain management

Supply Chain Analytics Pub Date : 2024-03-26 DOI:10.1016/j.sca.2024.100064

Massimiliano Caramia , Giuseppe Stecca

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Abstract

Green Supply Chain Management requires coordinated decisions between the strategic and operational organization layers to address strict green goals. Furthermore, linking CO2 emissions to supply chain operations is not always easy. This study proposes a new mathematical model to minimize CO2 emissions in a three-layered supply chain. The model foresees using a financial budget to mitigate emissions contributions and optimize supply chain operations planning. The three-stage supply chain analyzed has inbound logistics and handling operations at the intermediate level. We assume that these operations contribute to emissions quadratically. The resulting bilevel programming problem is solved by transforming it into a nonlinear mixed-integer program by applying the Karush-Kuhn-Tucker conditions. We show, on different sets of synthetic data and on a case study, how our proposal produces solutions with a different flow of goods than a modified linear model version. This results in lower CO₂ emissions and more efficient budget expenditure.

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绿色供应链管理的二次线性双层程序设计方法

绿色供应链管理要求战略层和运营组织层协调决策，以实现严格的绿色目标。此外，将二氧化碳排放与供应链运营联系起来并非易事。本研究提出了一个新的数学模型，以尽量减少三层供应链中的二氧化碳排放量。该模型预计使用财务预算来减少排放贡献并优化供应链运营规划。所分析的三层供应链在中间层有进货物流和装卸作业。我们假设这些操作对排放的贡献是四次方的。通过应用卡鲁什-库恩-塔克条件，将其转化为非线性混合整数程序，从而解决了由此产生的双级编程问题。我们通过不同的合成数据集和案例研究，展示了我们的建议如何产生与修改后的线性模型版本不同的货物流解决方案。这使得二氧化碳排放量更低，预算支出更有效。

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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Supply Chain Analytics

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