Muhittin SaǧnakYalcin Berberogluİlker MemişOgulcan Yazgan2025-10-0620213540592105, 08733925580956053X, 187924560956-053X10.1016/j.wasman.2021.03.054https://www.scopus.com/inward/record.uri?eid=2-s2.0-85105694843&doi=10.1016%2Fj.wasman.2021.03.054&partnerID=40&md5=5c517bab88a82e67b940f4b177c62ba6https://gcris.yasar.edu.tr/handle/123456789/8976In emerging economies electronic waste is an important problem because it negatively affects the health of staff and people and causes pollution. Moreover the location of the collection center has a crucial role in sustainable supply chains. Therefore in this study a framework was proposed to identify the location of sustainable collection centers for e-waste. The criteria set includes 3 main criteria and 23 sub-criteria and 7 different location options. The main criteria cover economic social and environmental criteria which are organized as the Triple-Bottom-Line dimensions. Alternatives are Manisa Menemen Gaziemir Kemalpaşa Torbalı Çiğli and Akhisar. Fuzzy Best-Worst Method (BWM) and Fuzzy TOPSIS methods are used to calculate the weights of criteria and rankings of the alternatives respectively. Transportation cost was found as the most important criterion for sustainable collection center selection followed by collection cost storage/holding cost land cost greenhouse gas emissions energy cost tax and investment cost respectively. Among other alternatives Çiğli was found as the best alternative for sustainable collection center followed by Gaziemir and Manisa. Managerial implications were presented based on the findings. © 2021 Elsevier B.V. All rights reserved.EnglishCircular Economy, Electronic Waste, Fuzzy Best-worst Method, Fuzzy Topsis, Sustainable Collection Center Location Problem, Electronic Waste, Gas Emissions, Greenhouse Gases, Investments, Supply Chains, Wastes, Center Locations, Circular Economy, E-wastes, Electronics Wastes, Emerging Economies, Fuzzy Best-bad Method, Fuzzy-topsis, Location Selection, Sustainable Collection Center Location Problem, Sustainable Supply Chains, Location, Electronic Waste, Fuzzy Mathematics, Sustainable Development, Waste Disposal, Waste Management, Waste Technology, Article, Carbon Footprint, E-waste, Energy Cost, Human, Investment, Technique For Order Preference By Similarity To Ideal Solution, Fuzzy Logic, Traffic And Transport, Izmir [turkey], Manisa, Menemen, Torbali, Turkey, Fuzzy Logic, Humans, TransportationElectronic Waste, Gas emissions, Greenhouse gases, Investments, Supply chains, Wastes, Center locations, Circular economy, E-wastes, Electronics wastes, Emerging economies, Fuzzy best-bad method, fuzzy-TOPSIS, Location selection, Sustainable collection center location problem, Sustainable supply chains, Location, electronic waste, fuzzy mathematics, sustainable development, waste disposal, waste management, waste technology, article, carbon footprint, e-waste, energy cost, human, investment, technique for order preference by similarity to ideal solution, fuzzy logic, traffic and transport, Izmir [Turkey], Manisa, Menemen, Torbali, Turkey, Fuzzy Logic, Humans, TransportationArticle