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Peña Montoya, C. C., Osorio Gómez, J. C., Vidal Holguín, C. J., Torres Lozada, P., & Marmolejo Rebellón, L. F. (2015). Gestión de residuos sólidos en cadenas de suministro de ciclo cerrado desde la perspectiva de la investigación de operaciones. Luna Azul, (41), 5–28. https://doi.org/10.17151/10.17151/luaz.2015.41.2
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La integración de los flujos reversos y directos en la cadena de suministro, trae beneficios al reducir costos y evitar el daño ambiental porque se recupera valor de los residuos sólidos; esta integración se conoce como la cadena de suministro de ciclo cerrado. La mayoría de experiencias que relacionan cadena de suministro de ciclo cerrado y decisiones de gestión de residuos sólidos, provienen de países desarrollados con estrictas regulaciones ambientales y usan técnicas de invetigación de operaciones. El objetivo se este artículo es identificar la factibilidad de aplicar técnicas de investigación de operaciones a las decisiones de gestión de residuos sólidos en las cadena de suministro de ciclo cerrado en países en desarrollo como Colombia. Se identificaron variables importantes de los articulos revisados tales como los diferentes tipos de residuos, las regiones y el uso de técnicas de optmización, simulación y multicriterio. La metodología de vigilancia tecnológica se uso para correlacionar estas variables. Los resultados mostraron que la técnica de multicriterio es usada con más frecuencia porque permite la consideración de varios aspectos en una misma decisión; por lo tanto, el uso de esta técnica sería conveniente para enfrentar efectivamente las principales decisiones en las incipientes cadenas de suministro de ciclo cerrado en países en desarrollo.
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Fröhling, M., Schwaderer, F., Bartusch, H. y Rentz, O. Integrated planning of transportation and recycling for multiple plants based on process simulation. European Journal of Operational Research, 207, 958-970.
Garfi, M., Tondelli, S. y Bonoli, A. (2009). Multi-criteria decision analysis for waste management in Saharawi refugee camps. Waste management, 29(10), 2729-2739.
Georgiadis, P. y Besiou, M. (2008). Sustainability in electrical and electronic equipment closed-loop supply chains: A System Dynamics approach, Journal of Cleaner Production, 16, 1665-1678.
Gomes-Salema, M.I., Barbosa-Povoa, A.P. y Novais, A.Q. (2007). An optimization model for the design of a capacitated multi-product reverse logistics network with uncertainty. European Journal of Operational Research, 179(3), 1063-1077.
________. (2010). Simultaneous design and planning of supply chains with reverse flows: A generic modelling framework. European journal of operational research, 203(2), 336-349.
Granada-Aguirre, L.F. (2009). Gestión ambiental empresarial: Pasado, presente y futuro de las normas e instituciones ambientales en Colombia. Libre Empresa, 6(1), 63-79.
Herva, M., y Roca, E. (2013). Ranking municipal solid waste treatment alternatives based on ecological footprint and multi-criteria analysis. Ecological Indicators, 25, 77-84.
Hung, M.L., Ma, H. y Yang, W.F. (2007). A novel sustainable decision making model for municipal solid waste management. Waste Management, 27(2), 209-219.
Jianghong, M. (2010). An Integrated Supply Chain Modeling and Simulation Based on System Dynamics. Paper presented at the Management and Service Science (MASS).
Kannan, G., Sasikumar, P. y Devika, K. (2010). A genetic algorithm approach for solving a closed loop supply chain model: A case of battery recycling. Applied Mathematical Modelling, 34(3), 655-670.
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Kaya, I. (2012). Evaluation of outsourcing alternatives under fuzzy environment for waste management. Resources, Conservation and Recycling, 60, 107-118.
Khadivi, M.R. y Fatemi Ghomi, S.M.T. (2012). Solid waste facilities location using of analytical network process and data envelopment analysis approaches. Waste management, 32(6), 1258-1265.
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Lu, T. y Zhao, X. (2010). Reverse Logistics Network Design with Consideration of Forward and Reverse Facility Integration. Paper presented at the E-Business and E-Government (ICEE).
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Mitra, S. (2012). Inventory management in a two-echelon closed-loop supply chain with correlated demands and returns. Computers & Industrial Engineering, 62(4), 870-879.
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Aragonés-Beltrán, P., Pastor-Ferrando, J. P., García-García, F. y Pascual-Agulló, A. (2010). An analytic network process approach for siting a municipal solid waste plant in the metropolitan area of Valencia (Spain). Journal of Environmental Management, 91(5), 1071-1086.
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Barker, T.J. y Zabinsky, Z.B. (2011). A multicriteria decision making model for reverse logistics using analytical hierarchy process. Omega, 39(5), 558-573.
Besiou, M., Georgiadis, P. y Van Wassenhove, L. N. (2012). Official recycling and scavengers: Symbiotic or conflicting? European Journal of Operational Research, 218(2), 563-576.
Biehl, M., Prater, E. y Realff, M.J. (2007). Assessing performance and uncertainty in developing carpet reverse logistics systems. Computers & Operations Research, 34(2), 443-463.
Bollinger, D. y Pictet, J. (2008). Multiple criteria decision analysis of treatment and land- filling technologies for waste incineration residues. Omega, 36(3), 418-428.
Casas, J.J. y Cerón, K. (2013). Método cuantitativo para la configuración de la cadena de logística inversa de un tipo de residuo de aparato eléctrico o electrónico. Trabajo de grado, Ingeniería Industrial, Universidad del Valle. Cali.
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Dale, R., Melamed, B. y Lembke, R. (2012). Modeling and Analysis of Reverse Logistics. Journal of Business Logistics, 33(2), 107-117.
De Brito, M.P. y van der Laan, E. A. (2010). Supply Chain Management and Sustainability: Procrastinating Integration in Mainstream Research. Sustainability, 2(4), 859-870.
Demirel, N.Ö. y Gökçen, H. (2008). A mixed integer programming model for remanufacturing in reverse logistics environment. The International Journal of Advanced Manufacturing Technology, 39(11-12), 1197-1206.
Dhouib, D. y Elloumi, S. (2011). A new multi-criteria approach dealing with dependent and heterogeneous criteria for end-of-life product strategy. Applied Mathematics and Computation, 218(5), 1668-1681.
Ekmekçioglu, M., Kaya, T. y Kahraman, C. (2010). Fuzzy multicriteria disposal method and site selection for municipal solid waste. Waste Management, 30(8), 1729 -1736.
Escorsa, P. y Maspons, R. (2001). De la vigilancia tecnológica a las inteligencia competitiva. Madrid: Ed. Financial Times - Prentice Hall (Grupo Pearson).
Ferguson, M.E. y Souza, G.C. (2010). Closed-loop supply chains: new developments to improve the sustainability of business practices. CRC Press.
Figueira, J., Greco, S. y Ehrgott, M. (2005). Multiple criteria decision analysis: state of the art surveys. Vol. 78. Springer.
Fleischmann, M., Krikke, H.R., Dekker, R. y Flapper, S.D.P. (2000). A characterisation of logistics networks for product recovery. Omega, 28(6), 653-666.
Fröhling, M., Schwaderer, F., Bartusch, H. y Rentz, O. Integrated planning of transportation and recycling for multiple plants based on process simulation. European Journal of Operational Research, 207, 958-970.
Garfi, M., Tondelli, S. y Bonoli, A. (2009). Multi-criteria decision analysis for waste management in Saharawi refugee camps. Waste management, 29(10), 2729-2739.
Georgiadis, P. y Besiou, M. (2008). Sustainability in electrical and electronic equipment closed-loop supply chains: A System Dynamics approach, Journal of Cleaner Production, 16, 1665-1678.
Gomes-Salema, M.I., Barbosa-Povoa, A.P. y Novais, A.Q. (2007). An optimization model for the design of a capacitated multi-product reverse logistics network with uncertainty. European Journal of Operational Research, 179(3), 1063-1077.
________. (2010). Simultaneous design and planning of supply chains with reverse flows: A generic modelling framework. European journal of operational research, 203(2), 336-349.
Granada-Aguirre, L.F. (2009). Gestión ambiental empresarial: Pasado, presente y futuro de las normas e instituciones ambientales en Colombia. Libre Empresa, 6(1), 63-79.
Herva, M., y Roca, E. (2013). Ranking municipal solid waste treatment alternatives based on ecological footprint and multi-criteria analysis. Ecological Indicators, 25, 77-84.
Hung, M.L., Ma, H. y Yang, W.F. (2007). A novel sustainable decision making model for municipal solid waste management. Waste Management, 27(2), 209-219.
Jianghong, M. (2010). An Integrated Supply Chain Modeling and Simulation Based on System Dynamics. Paper presented at the Management and Service Science (MASS).
Kannan, G., Sasikumar, P. y Devika, K. (2010). A genetic algorithm approach for solving a closed loop supply chain model: A case of battery recycling. Applied Mathematical Modelling, 34(3), 655-670.
Karmperis, A.C., Sotirchos, A., Aravossis, K. y Tatsiopoulos, I.P. (2012). Waste management project’s alternatives: A risk-based multi-criteria assessment (RBMCA) approach. Waste management, 32(1), 194-212.
Kaya, I. (2012). Evaluation of outsourcing alternatives under fuzzy environment for waste management. Resources, Conservation and Recycling, 60, 107-118.
Khadivi, M.R. y Fatemi Ghomi, S.M.T. (2012). Solid waste facilities location using of analytical network process and data envelopment analysis approaches. Waste management, 32(6), 1258-1265.
Khan, S. y Faisal, M.N. (2008). An analytic network process model for municipal solid waste disposal options. Waste management, 28(9), 1500-1508.
Lee, D.-H., Dong, M. y Bian, W. (2010). The design of sustainable logistics network under uncertainty. International Journal of Production Economics, 128(1), 159-166.
Liamsanguan, C. y Gheewala, S.H. (2008). LCA: A decision support tool for environmental assessment of MSW management systems. Journal of Environmental Management, 87 (1), 132-138.
Liao, C.H. y Chiu, A.S. (2011). Evaluate municipal solid waste management problems using hierarchical framework. Procedia-Social and Behavioral Sciences, 25, 353-362.
Lu, T. y Zhao, X. (2010). Reverse Logistics Network Design with Consideration of Forward and Reverse Facility Integration. Paper presented at the E-Business and E-Government (ICEE).
Mergias, I., Moustakas, K., Papadopoulos, A. y Loizidou, M. (2007). Multi-criteria decision aid approach for the selection of the best compromise management scheme for ELVs: The case of Cyprus. Journal of Hazardous Materials, 147(3), 706-717.
Ministerio de Vivienda, Ciudad y Territorio. (2013). Decreto 2981 “Por el cual se reglamenta la prestación del servicio de aseo”. República de Colombia.
Mitra, S. (2012). Inventory management in a two-echelon closed-loop supply chain with correlated demands and returns. Computers & Industrial Engineering, 62(4), 870-879.
Nas, B., Cay, T., Iscan, F. y Berktay, A. (2010). Selection of MSW landfill site for Konya, Turkey using GIS and multi-criteria evaluation. Environmental monitoring and assessment, 160(1-4), 491-500.
Olugu, E.U. y Wong, K.Y. (2012). An expert fuzzy rule-based system for closed-loop supply chain performance assessment in the automotive industry. Expert Systems with Applications, 39(1), 375-384.
Önüt, S. y Soner, S. (2008). Transshipment site selection using the AHP and TOPSIS approaches under fuzzy environment. Waste Management, 28(9), 1552-1559.
Özkir, V. y Basligil, H. (2013). Multi-objective optimization of closed-loop supply chains in uncertain environment. Journal of Cleaner Production, 41, 114-125.
Paksoy, T., Özceylan, E. y Weber, G. (2010). A multi objective model for optimization of a green supply chain network. AIP Conference Proceedings, 1239(1). p. 311.
Paksoy, T. y Bektas, T. (2011). Operational and environmental performance measures in amulti-product closed-loop supply chain. Transportation Review. Part E: Logistics and Transportation Review, 47(4), 532-546.
Paksoy, T., Bektas, T. y Özceylan, E. (2011). Operational and environmental performance measures in a multi-product closed-loop supply chain. Transportation Research Part E: Logistics and Transportation Review, 47(4), 532-546.
Peña Montoya, C.C., Torres Lozada, P., Vidal Holguín, C.J. y Marmolejo Rebellón, L.F. (2013). La logística de reversa y su relación con la gestión integral y sostenible de residuos sólidos en sectores productivos. Revista Entramado, 9(1), 226-238.
Pires, A., Chang, N.-B. y Martinho, G. (2011). An AHP-based fuzzy interval TOPSIS assessment for sustainable expansion of the solid waste management system in Setúbal Peninsula, Portugal. Resources, Conservation and Recycling, 56(1), 7-21.
Pishvaee, M.S., Jolai, F. y Razmi, J. (2009). A stochastic optimization model for integrated forward/reverse logistics network design. Journal of Manufacturing Systems, 28(4), 107-114.
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