Article: A linguistic multi-objective mixed integer programming model for multi-echelon supply chain network at bio-refinery Journal: EuroMed Journal of Management (EMJM) 2018 Vol.2 No.4 pp.329 - 355 Abstract: This study uses a linguistic multi-objective mixed nonlinear programming with Z-numbers computation to design a multi-echelon supply chain network for bio-refinery. The method considers total transportation costs and capacities of all echelons, attempting to satisfy three different linguistic objective functions: minimising transportation costs, reducing greenhouse emission and maximising the customer service level while reducing the cost of collecting the raw materials. The main purpose of this model is to reduce the greenhouse emissions in transportation activities and maximise the profit of supply chain cycle based on the linguistic variables. To solve the proposed model we used PSO-GSA algorithm. This model to demonstrate the feasibility of the proposed model for the given problem as well as discussion on the model's advantages solved a numerical example. Solving the numerical example showed that the Z-numbers application may increase the cost instead provide better-balanced distribution to satisfy customers, which can compensate that added cost. Inderscience Publishers - linking academia, business and industry through research

Title: A linguistic multi-objective mixed integer programming model for multi-echelon supply chain network at bio-refinery

Authors: Ayad Hendalianpour; Jafar Razmi; Mahnaz Fakhrabadi; Konstantinos Kokkinos; Elpiniki I. Papageorgiou

Addresses: School of Industrial Engineering, College of Engineering, University of Tehran, Tehran, Iran ' School of Industrial Engineering, College of Engineering, University of Tehran, Tehran, Iran ' Department of Industrial Engineering and System Management, Amirkabir University of Technology, Tehran, Iran ' Electrical Engineering Department, Technological Education Institute (TEI) of Thessaly, Larisa 41100, Greece ' Electrical Engineering Department, Technological Education Institute (TEI) of Thessaly, Larisa 41100, Greece

Abstract: This study uses a linguistic multi-objective mixed nonlinear programming with Z-numbers computation to design a multi-echelon supply chain network for bio-refinery. The method considers total transportation costs and capacities of all echelons, attempting to satisfy three different linguistic objective functions: minimising transportation costs, reducing greenhouse emission and maximising the customer service level while reducing the cost of collecting the raw materials. The main purpose of this model is to reduce the greenhouse emissions in transportation activities and maximise the profit of supply chain cycle based on the linguistic variables. To solve the proposed model we used PSO-GSA algorithm. This model to demonstrate the feasibility of the proposed model for the given problem as well as discussion on the model's advantages solved a numerical example. Solving the numerical example showed that the Z-numbers application may increase the cost instead provide better-balanced distribution to satisfy customers, which can compensate that added cost.

Keywords: multiple objective nonlinear programming; linguistic modelling; supply chain design; Z-numbers computation.

DOI: 10.1504/EMJM.2018.096453

EuroMed Journal of Management, 2018 Vol.2 No.4, pp.329 - 355

Received: 13 Jul 2018
Accepted: 15 Jul 2018
Published online: 03 Dec 2018 *

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Title: A linguistic multi-objective mixed integer programming model for multi-echelon supply chain network at bio-refinery

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