Reused raw materials of returned products in closed-loop supply chain considering green technology and quality level
محورهای موضوعی : Production Systems
1 - Department of Industrial engineering, College of technical Engineering, Kosar University of Bojnord, Iran.
کلید واژه: bi-objective, Closed-loop supply chain, returned products, Quality, Green technology,
چکیده مقاله :
In recent years, reverse logistics has been given more research attention. Reverse logistics has backward and forward flow of products which customers are not end of the flow. Reverse logistics has environmental and economic benefits such as recovering the value of returning products, and contenting the environmental requirements. In this lecture, a new multi-objective mixed-integer non-linear program is suggested in order to minimize total cost and air pollution. Decreasing carbon emissions is considered related to environmental aspects or the second aim( minimizing air pollution). The new closed-loop supply chain (CLSC) model is an inventory-location multi-period problem. The demand in this model is depended on green technology and quality level. The returned products are disassembled and sorted, the good raw materials are sent to the manufacturers and other materials disposed. The LP-metric and utility function or total weighted methods /are applied to gain Pareto optimal solutions. Finally, a numerical example is applied for validating the new model.
[1] Assarzadegan P, Rasti-Barzoki M (2020) A game theoretic approach for pricing under a return policy and a money back guarantee in a closed-loop supply chain. International Journal of Production Economics 222 :107486.
[2] Almaraj I I, Trafalis T B (2020) Affinely adjustable robust optimization under dynamic uncertainty set for a novel robust closed-loop supply chain. Computers and Industrial Engineering 145:106521.
[3] Asghari M, Afshari H, Dulebetets M A, Mirzapour Al-e-Hashem S M J, Fathollahi-fard A M (2022). Pricing and advertising decisions in a direct sales closed-loop supply chain. Cumputers & Industrial Engineering. In press.
[4] Atabaki M S, Mohammadi M, Naderi (2020). New robust optimization models for closed-loop supply chain of durable products: towards a circular economy. Computers and Industrial Engineering 146:106520.
[5] Babaeinesami, A., Tohidi, H. & Seyedaliakbar, S.M. (2020). A closed loop Stackelberg game in multi-product supply chain considering information security: A case study. Advances in Production Engineering & Management. 15(2): 233-246.
[6] Berlin D, Feldmann A, Nurr C (2022). The relatedness of open- and closed-loop supply chains in the context of the circular economy; Framing a continuum. Cleaner Logistics and Supply Chain 4: 100048.
[7] Bhatia M S, Jakhar S, Mangla, SK, Gangwani, KK (2020) Critical factors to environment management in a closed loop supply chain. Journal of Cleaner Production, 255:120239.
[8] De M, Giri BC, (2020) Modelling a closed-loop supply chain with heterogeneous fleet under carbon emission reduction policy. Transportation Researchpart E 133:101813.
[9] Ebrahimi M, Tavakkoli-Moghaddam R (2020) An integrated bi-objective supply chain and maintenance problem in the build-to-order environment. International Journal of Supply and Operations Management 7(3): 261-271.
[10] Farahani, A., Tohidi, H., Shoja, A. (2020). Optimization of Overall Equipment Effectiveness with Integrated Modeling of Maintenance and Quality. Engineering Letters, 28(2).
[11] Govindan K, Mina H, Esmaeili A, Golami-Zanjani SM (2019) An integrated hybrid approach for designing a green closed-loop supply chain network under uncertainty. Journal of Cleaner Productio 242:118317
[12] Jauhari W A, Putri Adam N A F, Rosyidi C N, Pujawan I N, Shah N H (2020) A closed-loop supply chain model with rework, waste disposal and carbon emission. Operation Research Perspectives 7:100155.
[13] Jia D, Li S (2020) Optimal decisions and distribution channel choice of closed-loop supply chain when e-retailer offers online marketplace. Journal of Cleaner Production 265:121767.
[14] Jalali H, Ansaripoor AH, Giovanni PD (2020) Closed-loop supply chain with complementary products. International Journal of Production Economics 229:107757.
[15] Li Q, Sun H, Zhang H, Li W, Quyang M (2019) Design investment and advertising decisions in direct-sales closed-loop supply chain. Journal of Cleaner Production 250:119552.\
[16] Liu W, Qin D, Shen N, Zhang J, Jin M, Xie M, Chen J, Chang X (2020) Optimal pricing for a multi-echelon closed loop supply chain with different power structures and product dual differences. Journal of Cleaner Production 257:120281.
[17] Peng H, Shen N, Liao H, Xue H, Wang Q (2020) Uncertainty factors, methods and solutions of closed-loop supply chain – a review for current situation and future prospects. Journal of Cleaner Production 245: 120032.
[18] Ponte B, Framinan J M, Cannella S, Dominguez R (2020) Quantifying the bullwhip effect in closed-loop supply chains: the interplay of information transparencies, return rates, and lead times. International Journal of Production Economics 230:107798.
[19] Samuel C N, Vencatadri U, Diallu C, Khatab A (2020) Robust closed-loop supply chain design with presorting, return quality and carbon emission considerations. Journal of Cleaner Production 247:119086.
[20] Tohidi, H., Jabbari, M.M., (2012). “Decision role in management to increase effectiveness of an organization”. Procedia-social and behavioral sciences, 32: 825-828.
[21] Wang Q, Hong X, Gong Y, Chen W (2019) Collusion or not: the optimal choice of competing retailers in a closed-loop supply chain. International Journal of Production Economics Vol. 225 107580.
[22] Xiang Z, Xu (2020) Dynamic game strategies of a two-stage remanufacturing closed-loop supply chain considering big data marketing, technological innovation and over confidence. Computers and Industrial Engineering 145:106538.
101
[23] Wu W, Zhang Q, Liang Z (2020) Environmentally responsible closed-loop supply chain models for joint environmental responsibility investment, recycling and pricing decisions. Journal of Cleaner Production 259:120776.
[24] Shekarian E (2020) A review factors affecting closed-loop supply chain model. Journal of Cleaner Production 253:119823.
[25] Yu H, Solvang WD (2020) A fuzzy-stochastic multi-objective model for sustainable planning of a closed-loop supply chain considering mixed uncertainty and network flexibility. Journal of Cleaner Production 266:121702.
[26] Yavari M, Zaker H (2020) Designing a resilient-green closed loop supply chain network for perishable products by considering disruption in both supply chain and power networks. Computers and Chemical Engineering 134:106680.
[27] Fu L, Meng F (2020) A human disease transmission inspired dynamic model for closed-loop supply chain management. Transportation Research Part E 134:101832.
[28] Mondal C, Giri B C (2020) Pricing and used product collection strategies in a two-period closed-loop supply chain under greening level and effort dependent demand. Journal of Cleaner Production 265:121335.
[29] Wen D, Xiao T, Dastani M (2020) Pricing and collection rate decisions in a closed-loop supply chain considering consumers environmental responsibility. Journal of Cleaner Production 262:121272.
[30] Wang N, Song Y, He Q, Jia T (2020) Competitive dual-collecting regarding consumer behavior and coordination in closed-loop supply chain. Computers and Industrial Engineering 144:106481
[31] Zhang Z, Liu S, Niu B (2020) Coordination mechanism of dual-channel closed-loop supply chains considering products quality and return. Journal of Cleaner Production 248:119273.
[32] Yuan Y, Yang J, Li Y, Li W (2020) Necessary conditions for coordination of dual-channel closed-loop supply chain. Technological Forecasting and Social Change 151:119823.
[33] Schenkel M, Krikke H, Caniels MCJ, Lambrechts W (2019) Vicious cycles that hinder value creation in closed loop supply chain: experiences from the field. Journal of Clenear Production, 223:278-288.
[34] Liao Y, Kaviyani-Charati M, Hajiaghaei-Keshteli M, Diabat A (2020) Designing a closed-loop supply chain network for citrus fruits crates considering environmental and economic issues. Journal of Manufacturing Systems 55:199-220.
[35] Pishvaee MS, Razmi J, and Torabi SA (2014) An accelerated benders decomposition algorithm for sustainable supply chain network design under uncertainty: a case study of medical needle and syringe supply chain. Transportation Research- Part E 67:14-38.
[36] Hafezalkotob A, Zamani S (2019) A multi-product green supply chain under government supervision with price and demand uncertainty. Journal of Industrial Engineering International 15:193-206.
[37] Zhang Y, Chen W, Mi Y (2020) Third-party remanufacturing mode selection for competitive closed-loop supply chain based on evolutionary game theory. Journal of Cleaner Production 263:121305.
[38] Zhao J H, Zeng D L, Che L P, Zhou T W, Hu J Y (2020) Research on the profit change of new energy vehicle closed-loop supply chain members based on government subsidies. Environmental Technology and Innovation 19:100937.
