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Over the course of the last decades, closed-loop supply chains (CLSC) and reverse logistics issues have attracted increasing attention owing to strict environmental laws, social responsibilities, economic interests, and customer awareness. Hence, the issue of closed-loop supply chain and reverse logistics has emerged as a field of research in the new era. This issue has received much attention because it allows recyclable products to return to their original cycle. Therefore, this study primarily intends to present a mathematical model for designing a supply chain network for recycled products. The multi-stage and multi-period objective function of the closed-loop supply chain is presented to meet that aim. In this chain, dismantling, recycling, and disposal centers are considered. The objective function is to reduce the total cost of the closed-loop supply chain. The results of optimizing the mathematical model demonstrate that this model has the necessary efficiency for use in recycled products.
Rocznik
Tom
Strony
163--176
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr.
Twórcy
autor
- Data Science & Computational Intelligence Research Group Universitas Medan Area, Medan, Indonesia
autor
- The Bachelor of Business Administration (Special Program in Marketing) Faculty of Business Administration, Kasetsart University, Thailand
autor
- An Giang University, Vietnam National University Ho Chi Minh City, Vietnam
autor
- Fakultas Pertanian, Universitas Papua Indonesia
autor
- Semarang City, Indonesia
autor
- Public Health Department, Faculty of Health Science, University of Pembangunan Nasional Veteran, Jakarta, Indonesia
- Economic Sciences Department of Economic Analysis, Federal State Budgetary Educational Institution of Higher Education “Kuban State Agrarian University named after I.T. Trubilin”, Krasnodar, Russia
autor
- Entrepreneurship and Logistics Department, Plekhanov Russian University of Economics
autor
- Department of Pharmacology, Saveetha Dental College and Hospital, Saveetha Institute of Medical and Technical Sciences, Chennai, India
Bibliografia
- [1] Eskandarpour, M., Dejax, P., Miemczyk, J., & Péton, O. Sustainable supply chain network design: An optimization-oriented review. Omega, 54, 11-32, 2015.
- [2] Pahlevan, S. M., Hosseini, S. M. S., & Goli, A. Sustainable supply chain network design using products’ life cycle in the aluminum industry. Environmental Science and Pollution Research, 1-25, 2021.
- [3] M., Aravandan, and R., Panneerselvam, An Integrated Multi-Echelon Model for a Sustainable Closed Loop Supply Chain Network Design, Intelligent Information Management 6.6, 257-279, 2014.
- [4] D., Ambrosino, and M. G., Scutella, Distribution Network Design: New Problems and Related Models, European Journal of Operational Research 156.3, 610-624, 2005.
- [5] Z., Drezner, and G. O., Wesolowsky, Network design: selection and design of links and facility location, Transportation Research 56.3, 241-256, 2003.
- [6] S., Hassanzadeh Amin, and G., Zhang, A multi objetive facility location model for closed loop supply chain network under uncertain demand and return, Applied Mathematical Modelling 37.6, 4165-4176, 2013.
- [7] Z., Lu, and N., Bostel, A facility location model for logistics systems including reverse flows: the case of remanufacturing activities, Computers & Operations Research 34, 299-323, 2007.
- [8] S., Melkote, and M. B., Daskin, Capacitated facility location/network design problem, European Journal of Operation Research 129, 459-481, 2001.
- [9] A., Mutha, and S. H., Pokharel, Strategic network design for reverse logistics and remanufacturing using new and old product modules, Computers & Industrial Engineering 56, 334-346, 2009.
- [10] M. S., Pishvaee, and R., Farahani, A memetic algorithm for bi-objective integrated forward/reverse Logistics network design, Computers & Operations Research 37.6, 1100-1112, 2010.
- [11] M. S., Pishvaee, and H., Shakouri, A System Dynamics Approach for Capacity Planning and Price Adjustment in a Closed-Loop Supply Chain, EMS, 435-439, 2009.
- [12] M., Ramezani, M., Bashiri, R., Tavakkoli-Moghaddam. A new multi-objective stochastic model for a forward/reverse logistic network design with responsiveness and quality level, Applied Mathematical Modelling 37.1, 328-344, 2013.
- [13] Zhen, L., Huang, L., & Wang, W. Green and sustainable closed-loop supply chain network design under uncertainty. Journal of Cleaner Production, 227, 1195-1209, 2019.
- [14] Li, L., Manier, H., & Manier, M. A. Hydrogen supply chain network design: An optimization-oriented review. Renewable and Sustainable Energy Reviews, 103, 342-360, 2019.
- [15] Haeri, A., Hosseini-Motlagh, S. M., Ghatreh Samani, M. R., & Rezaei, M. A mixed resilient-efficient approach toward blood supply chain network design. International Transactions in Operational Research, 27(4), 1962-2001, 2020.
- [16] Habib, M. S., Asghar, O., Hussain, A., Imran, M., Mughal, M. P., & Sarkar, B. A robust possibilistic programming approach toward animal fat-based biodiesel supply chain network design under uncertain environment. Journal of Cleaner Production, 278, 122403, 2021.
- [17] Aamir, R. H., Noor, A. A., Yusnita, Y., Mediating Effect of Integrated Systems on the Relationship between Supply Chain Management Practices and Public Healthcare Performance: Structural Equation Modeling. International Journal of Management and Sustainability, 9(3): 148-160, 2020.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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