Robust environmental closed-loop supply chain design under uncertainty

Ma, Ruimin; Yao, Lifei; Jin, Maozhu; Ren, Peiyu; Lv, Zhihan

doi:10.1016/j.chaos.2015.10.028

Cited by 65 publications

(17 citation statements)

References 21 publications

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“…Paksoy et al [9] developed a multiproduct closed-loop supply chain taking environmental impact into consideration. By adding cost factors on the basis of environment, Ma et al [10] proposed a robust double objective green closed-loop supply chain design problem. Some scholars established a multiobjective green CLSC model to minimize the expected cost of the supply chain network and greenhouse gas emissions [11,12].…”

Section: Green and Sustainable Closed-loop Supply Chainmentioning

confidence: 99%

Optimal Strategies for CLSC considering Supply Disruption and Carbon Tax

Tong

Yang

2020

Mathematical Problems in Engineering

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Under the background of economic globalization, supply chain is becoming more and more complex, which is manifested in the instability of external environment. On the one hand, with the improvement of global environmental protection awareness, the government's policy tools for environmental impact (carbon tax) on the whole supply chain have become one of the major external problems faced by the supply chain enterprises; on the other hand, the intensification of competition between upstream and downstream in supply chains makes supply disruption an important proposition to be solved urgently. In this paper, the two propositions of green and supply disruption are reduced to two factors affecting the cost. The average total cost function of the manufacturer as a recycler is established. The practicability of the algorithm and the effectiveness of the model are verified by Lingo, Particle Swarm Optimization, and Genetic Algorithm, with the purpose of obtaining the optimal strategies for manufacturers who play the role of the recycler in the closed-loop supply chain.

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Section: Green and Sustainable Closed-loop Supply Chainmentioning

confidence: 99%

Optimal Strategies for CLSC considering Supply Disruption and Carbon Tax

Tong

Yang

2020

Mathematical Problems in Engineering

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“…Recent reviews emphasize the need for investigating environmental issues and suggesting new directions in CLSC research . The main outcome of these reviews is the suggestion to modify the objective function to account for environmental and sustainable performance measures.…”

Section: Introductionmentioning

confidence: 99%

Closed‐loop supply chain network static equilibrium and dynamics under pollution permits system

Yang

Huang

Zhang

et al. 2018

Env Prog and Sustain Energy

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A closed‐loop supply chain network including multi‐manufacturing/remanufacturing firms and multi‐demand markets is considered. We present equilibrium conditions for decision‐makers in the network and develop a static model with marketable pollution permits and noncompliant behavior, using the variational inequality theory. We provide qualitative analysis of the model. Then, using the projected dynamical system, we propose a dynamic model. The results show that the set of stationary points of dynamic model coincides with the set of solutions of static model. Finally, numerical examples are proposed. The equilibrium results including production output of new products, the forward and reverse product flows, the prices of product, the prices of license, the number of licenses, and the possible noncompliant overflows and underflows of the waste are obtained. We find that increase in the unit penalty cost contributes to decrease in waste emission from firms in the network, and when the unit penalty cost increase to a certain level, they no longer choose excess emission of waste. © 2018 American Institute of Chemical Engineers Environ Prog, 38:e13021, 2019

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“…A fuzzy MODM approach was utilized to solve the model by minimization of total cost, waste, carbon dioxide, and risks of the network. Ma et al (2016) proposed a robust multi-objective mixed integer nonlinear programming model to deal with an environmental closed-loop supply chain network problem. They used the LP-metrics method to find optimum solutions of the problem.…”

Section: Introductionmentioning

confidence: 99%

Designing a Multi-Product Multi-Period Supply Chain Network With Reverse Logistics and Multiple Objectives Under Uncertainty

Ghorabaee

Amiri

Olfat

et al. 2017

Technological and Economic Development of Economy

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Integration of reverse logistics processes into supply chain network design can help to achieve a network that incorporates environmental factors as well as economic factors. In this study, a new integrated approach is proposed to address designing a multi-product, multi-period supply chain network with reverse logistics. The framework of the proposed approach includes green supplier evaluation and a mathematical model in an uncertain environment. To the best of our knowledge, integration of green supplier evaluation into the designing supply chain network with reverse logistics has not been considered in the literature. This integration can help to incorporate experts' opinions about environmental impact of suppliers in the network design. Minimization of total cost and maximization of total greenness score of purchased raw materials/components are two objectives of the model. The fuzzy EDAS method is used to determine the greenness scores of suppliers. Also, demand of customers and capacity of suppliers are defined using fuzzy numbers and a fuzzy method is used to obtain trade-off solutions. The proposed approach is applied to designing the supply chain network of a home appliance company. The results show that the proposed approach is feasible and efficient to obtain solutions to design the supply chain network.

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Robust environmental closed-loop supply chain design under uncertainty

Cited by 65 publications

References 21 publications

Optimal Strategies for CLSC considering Supply Disruption and Carbon Tax

Optimal Strategies for CLSC considering Supply Disruption and Carbon Tax

Closed‐loop supply chain network static equilibrium and dynamics under pollution permits system

Designing a Multi-Product Multi-Period Supply Chain Network With Reverse Logistics and Multiple Objectives Under Uncertainty

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