Planning of waste electrical and electronic equipment (WEEE) recycling facilities: MILP modelling and case study investigation

Çapraz, Ozan; Polat, Olcay; Güngör, Aşkıner

doi:10.1007/s10696-015-9217-3

Cited by 32 publications

(14 citation statements)

References 54 publications

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“…MILP Design of an IL network to meet the demands of the manufacturing and recycling centres with minimum total cost under uncertainty conditions [55]. Probabilistic MILP Generation of better decisions at the operational level to receive and handle electrical and electronic equipment waste (EEEW) at recycling facilities [56]. MILP Design of an IL network for electrical and electronic waste in Turkey [57].…”

Section: Problems and Methods In Ilmentioning

confidence: 99%

Reverse and Inverse Logistic Models for Solid Waste Management

Banguera

Sepúlveda

Fuertes

et al. 2017

SAJIE

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This paper presents a literature review of different models of reverse and inverse logistics for solid waste management by using the content analysis method. The article has two parts. In the first part, the studies of diverse authors are discussed to define the activities or steps to be followed for a general model of reverse and inverse logistics. These authors establish four basic steps for managing solid waste (gatekeeping, collection, sorting, and disposal). The second part deals with exploratory studies, designs, methodologies, and proposed mathematical models to solve problems in inverse logistics, based on articles published between 2010 and 2016.

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Section: Problems and Methods In Ilmentioning

confidence: 99%

Reverse and Inverse Logistic Models for Solid Waste Management

Banguera

Sepúlveda

Fuertes

et al. 2017

SAJIE

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“…Several authors have used for their contributions, mathematical integer linear programming (MILP) models. For instance, the design of a logistic network for returns in electronic commerce [14]; design of a model to examine the heterogeneous and non-uniform quality of the returned products in reverse logistics [15]; design of a reverse logistics network for the recycling of plastics [16]; design of a reverse logistics network for tires out of use in cities of Colombia [17]; design of an integrated network for optimization of product recovery [18]; design of a reverse logistics network based on a genetic algorithm that satisfies the demand for the logistic network [19]; design of a network for reverse logistics providers [20]; design of reverse logistics networks for waste of electrical and electronic equipment (WEEE) [21] [22]; design of a system to establish the batch size of hybrid products which must be remanufactured [23]; design of a flexible reverse logistics network with different supply lines [24]; design of a reverse logistics network for the recovery of vehicles at the end of their life cycle [25], among other authors, as [26] The design and use of mathematical tools to design reverse logistics systems for the recovery of products that have ended their life cycle, is acquiring great importance in the field of research. The commitment to these designs is to offer recycled products that contribute to sustainable development, fulfilling economic, social and ecological objectives.…”

Section: Literature Reviewmentioning

confidence: 99%

A Model for Design of a Reverse Logistics Network Under Extended Producer Responsibility

Sepúlveda¹,

Banguera²

2018

dtetr

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The paper develops a mixed integer linear programming model for capacitated facility location which allows the optimal design of a reverse logistics network and illustrates its application in the case of out-of-use tires. These tires are generated in service networks and garages, as in many large cities, and their use includes the possible production of raw materials derived from rubber and the use as fuel for certain industries such as cement. Optimal flows are generated, configuration of collection and recycling facilities is determined, and estimation of the monetary transfers necessary for the feasible operation of the system is estimated. The model must meet recycling targets and minimize the cost of fines in case of infeasibility, through relaxation of constraints.

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“…The model aims at simultaneously achieve three objectives: minimization of logistics operational cost, improvement of product quality, and improvement of environmental performance. Capraz et al [14] develop a mathematical model for operational strategy and optimal biding price for waste-to-energy (WTE) facility in a reverse logistics system. Yu et al [15] formulate a multi-objective linear programming model for sustainable management of reverse supply chain system of municipal solid waste (MSW), and the model aims to balance the system operational cost, GHG emissions from the transportation of waste, and the negative environmental impact imposed to local residences.…”

Section: Literature Reviewmentioning

confidence: 99%

A Goal Programming Approach for Green Supply Chain Network Optimization

Yu¹,

Solvang²,

Solvang³

2016

Proceedings of the 6th International Workshop of Advanced Manufacturing and Automation

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Abstract-Green supply chain management has been focused by both academicians and practitioners in recent years due to the increased public awareness on environmental problems and sustainable development. In this paper, a decision aided model for green supply chain network design and optimization is proposed to justify both economic and environmental performance in an optimal fashion. The model is formulated as a bi-objective goal programming model aiming to balance supply chain cost and CO2 emission, which are usually conflict with each other. The model is validated through a numerical experiment, and discussion and analysis are also given based upon the computational result. The result provides managerial insights for companies in the supply chain, and it has been proved to be an effective tool for decision-making in strategic level of supply management. In general, more investment has to be spent for reducing the CO2 emission in a supply chain, and the result of sensitivity analysis presents the cost effectiveness in achieving the environmental goal.

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Planning of waste electrical and electronic equipment (WEEE) recycling facilities: MILP modelling and case study investigation

Cited by 32 publications

References 54 publications

Reverse and Inverse Logistic Models for Solid Waste Management

Reverse and Inverse Logistic Models for Solid Waste Management

A Model for Design of a Reverse Logistics Network Under Extended Producer Responsibility

A Goal Programming Approach for Green Supply Chain Network Optimization

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