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A mixed biomass-based energy supply chain for enhancing economic and environmental sustainability benefits: A multi-criteria decision making framework

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  • Mirkouei, Amin
  • Haapala, Karl R.
  • Sessions, John
  • Murthy, Ganti S.

Abstract

Bioenergy sources have been introduced as a means to address challenges of conventional energy sources. The uncertainties of supply-side (upstream) externalities (e.g., collection and logistics) represent the key challenges in bioenergy supply chains and lead to reduce cross-cutting sustainability benefits. We propose a mixed biomass-based energy supply chain (consisting of mixed-mode bio-refineries and mixed-pathway transportation) and a multi-criteria decision making framework to address the upstream challenges. Our developed framework supports decisions influencing the economic and environmental dimensions of sustainability. Economic analysis employs a support vector machine technique, to predict the pattern of uncertainty parameters, and a stochastic optimization model, to incorporate uncertainties into the model. The stochastic model minimizes the total annual cost of the proposed mixed supply chain network by using a genetic algorithm. Environmental impact analysis employs life cycle assessment to evaluate the global warming potential of the cost-effective supply chain network. Our presented approach is capable of enhancing sustainability benefits of bioenergy industry infrastructure. A case study for the Pacific Northwest is used to demonstrate the application of the methodology and to verify the models. The results indicate that mixed supply chains can improve sustainability performance over traditional supply infrastructures by reducing costs (up to 24%) and environmental impacts (up to 5%).

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  • Mirkouei, Amin & Haapala, Karl R. & Sessions, John & Murthy, Ganti S., 2017. "A mixed biomass-based energy supply chain for enhancing economic and environmental sustainability benefits: A multi-criteria decision making framework," Applied Energy, Elsevier, vol. 206(C), pages 1088-1101.
  • Handle: RePEc:eee:appene:v:206:y:2017:i:c:p:1088-1101
    DOI: 10.1016/j.apenergy.2017.09.001
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    17. Aalto, Mika & KC, Raghu & Korpinen, Olli-Jussi & Karttunen, Kalle & Ranta, Tapio, 2019. "Modeling of biomass supply system by combining computational methods – A review article," Applied Energy, Elsevier, vol. 243(C), pages 145-154.
    18. Cooper, Nathanial & Panteli, Anna & Shah, Nilay, 2019. "Linear estimators of biomass yield maps for improved biomass supply chain optimisation," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
    19. Fragkoulis Psathas & Paraskevas N. Georgiou & Athanasios Rentizelas, 2022. "Optimizing the Design of a Biomass-to-Biofuel Supply Chain Network Using a Decentralized Processing Approach," Energies, MDPI, vol. 15(14), pages 1-23, July.
    20. Margarida Casau & Marta Ferreira Dias & João C. O. Matias & Leonel J. R. Nunes, 2022. "Residual Biomass: A Comprehensive Review on the Importance, Uses and Potential in a Circular Bioeconomy Approach," Resources, MDPI, vol. 11(4), pages 1-16, March.
    21. Giovanni Ferrari & Andrea Pezzuolo & Abdul-Sattar Nizami & Francesco Marinello, 2020. "Bibliometric Analysis of Trends in Biomass for Bioenergy Research," Energies, MDPI, vol. 13(14), pages 1-21, July.

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