A NEUTROSOPHICAL MODEL FOR OPTIMAL SUSTAINABLE CLOSED-LOOP SUPPLY CHAIN NETWORK WITH CONSIDERING INFLATION AND CARBON EMISSION POLICIES

被引：0

作者：

Kalantari S. ^{[1
]}

Kazemipoor H. ^{[1
]}

Sobhani F.M. ^{[2
]}

Hadji Molana S.M. ^{[2
]}

机构：

[1] Department of Industrial Engineering, Central Tehran Branch, Islamic Azad University

[2] Department of Industrial Engineering, Science and Research Branch, Islamic Azad University

来源：

Decision Making: Applications in Management and Engineering | 2022年 / 5卷 / 02期

关键词：

Closed-loop supply chain network (CLSCN); Net present value (NPV); Neutrosophic logic; Neutrosophic optimization; supply chain management (SCM); Sustainability;

D O I：

10.31181/dmame03051020224k

中图分类号：

学科分类号：

摘要：

In this paper, a stable CLSC problem is modeled in conditions of uncertainty and indeterminacy. The SCN is designed to maximize NPV and minimize carbon releases by maintaining environment friendly policies and accounting for increase. To achieve a suitable model for designing a stable CLSCN and making important decisions such as selecting the right suppliers, selecting the type of transport, initial the facility, the optimal flow between facilities and accomplishing an efficient solution to the problem decision making, the neutrosophic optimization method is used. The results of experiments that discuss and evaluate different scenarios confirm the efficiency and validity of the proposed model. The findings also show that the effective improvement of the obtained solutions by reducing the solution time up to twenty percent can be responsible for large-scale problems in different scenarios. This paper uses a neutrosophic optimization method to solve the problem of designing a stable CLSCN under uncertainty and indeterminacy. © 2022 by the authors.

引用

页码：46 / 77

页数：31

共 80 条

[1] Acquaye A., Ibn-Mohammed T., Genovese A., Afrifa G. A., Yamoah F. A., Oppon E., A quantitative model for environmentally sustainable supply chain performance measurement, European Journal of Operational Research, 269, 1, pp. 188-205, (2018)
[2] Akram M., Bashir A., Edalatpanah S. A., A hybrid decision-making analysis under complex q-rung picture fuzzy Einstein averaging operators, Computational and Applied Mathematics, 40, 8, pp. 1-35, (2021)
[3] Alegoz M., Kaya O., Bayindir Z. P., Closing the loop in supply chains: Economic and environmental effects, Computers & Industrial Engineering, 142, (2020)
[4] Amin S. H., Zhang G., Akhtar P., Effects of uncertainty on a tire closed-loop supply chain network, Expert Systems with Applications, 73, pp. 82-91, (2017)
[5] Ansari Z. N., Kant R., A state-of-art literature review reflecting 15 years of focus on sustainable supply chain management, Journal of cleaner production, 142, pp. 2524-2543, (2017)
[6] Atanassov K., Intuitionistic fuzzy sets, fuzzy sets and systems, 20, 1, pp. 87-96, (1986)
[7] Ayvaz B., Bolat B., Aydin N., Stochastic reverse logistics network design for waste of electrical and electronic equipment, Resources, conservation and recycling, 104, pp. 391-404, (2015)
[8] Darbari J. D., Kannan D., Agarwal V., Jha P. C., Fuzzy criteria programming approach for optimising the TBL performance of closed loop supply chain network design problem, Annals of operations research, 273, 1, pp. 693-738, (2019)
[9] Das S. K., Edalatpanah S. A., Mandal T., Development of unrestricted fuzzy linear fractional programming problems applied in real case, Fuzzy Information and Engineering, 13, 2, pp. 184-195, (2021)
[10] De Vargas Mores G., Finocchio C. P. S., Barichello R., Pedrozo E. A., Sustainability and innovation in the Brazilian supply chain of green plastic, Journal of cleaner production, 177, pp. 12-18, (2018)

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