Abstract
Effective design of biodiesel supply chain network can reduce many of its high production costs. There are various uncertain parameters in real world that if ignored may greatly affect the optimal configuration of the designed biodiesel supply chain. Scenario planning is a powerful tool which can help the decision makers for long-term planning under uncertainties. Therefore, in this paper, a scenario-based robust optimization model is presented for designing the biodiesel supply chain networks under uncertainties. Some of the parameters including demand, supply, costs, and environmental impacts have uncertain nature. For the first time, in this study, the values of these uncertain parameters are estimated by a proposed scenario-planning method. The presented scenario-planning approach is based on cross-impact analysis and visualization methods. Non-edible sources such as Jatropha, Norouzak, and waste cooking oil are considered as raw materials of biodiesel production, and for the first time Norouzak has been used as one of the sources in designing biodiesel supply chain. In addition, an environmental constraint is considered and the environmental impacts of all processes are obtained by Eco-indicator 99 method. The presented model can determine the number, location, and capacity of the facilities. The proposed model is implemented in a real case study in Iran for a 7-year planning horizon. The results show the effectiveness of the presented approach in designing the biodiesel supply chain networks under uncertainties.
Highlights
Nowadays, energy plays an important role in the development of societies
The objective function of the presented biodiesel supply chain minimizes the total costs: this consists of fixed opening costs (FC), variable opening costs (VC), production costs (PC), inventory holding costs (IC), and transportation costs (TC)
A scenario-based robust optimization model is proposed for designing a biodiesel supply chain network
Summary
Energy plays an important role in the development of societies. Sustainable energy is a form of energy that is produced and consumed in a way that ensures all social, economic, and environmental dimensions. If the supply chain of these energies is designed optimally, many of these costs can be reduced, so that their production will be economical. A scenario-based robust optimization model is proposed to design a biodiesel supply chain network under. Jatropha and Norouzak (Salvia leriifolia), which are non-edible and compatible with the climate of Iran, are suitable for biodiesel production Another problem with the use of edible sources to produce biodiesel is their relatively high production costs. A mathematical programming model based on robust optimization method is presented for designing the biodiesel supply chain. In this model, some parameters such as demand, supply, costs, and environmental impacts are assumed uncertain.
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