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Mitigating Environmental Impact of Perishable Food Supply Chain by a Novel Configuration: Simulating Banana Supply Chain in Sri Lanka

Author

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  • Chethana Chandrasiri

    (Department of Manufacturing and Industrial Engineering, Faculty of Engineering, University of Peradeniya, Peradeniya 20400, Sri Lanka)

  • Subodha Dharmapriya

    (Department of Manufacturing and Industrial Engineering, Faculty of Engineering, University of Peradeniya, Peradeniya 20400, Sri Lanka)

  • Janappriya Jayawardana

    (Department of Manufacturing and Industrial Engineering, Faculty of Engineering, University of Peradeniya, Peradeniya 20400, Sri Lanka)

  • Asela K. Kulatunga

    (Department of Manufacturing and Industrial Engineering, Faculty of Engineering, University of Peradeniya, Peradeniya 20400, Sri Lanka)

  • Amanda N. Weerasinghe

    (National Institute of Post Harvest Management of Sri Lanka, Anuradhapura 50000, Sri Lanka)

  • Chethana P. Aluwihare

    (National Institute of Post Harvest Management of Sri Lanka, Anuradhapura 50000, Sri Lanka)

  • Dilmini Hettiarachchi

    (National Institute of Post Harvest Management of Sri Lanka, Anuradhapura 50000, Sri Lanka)

Abstract

As the world is moving into a sustainable era, achieving zero hunger has become one of the top three Sustainable Development Goals, applying a considerable amount of pressure on the agri-food systems to make decisions contemplating the sustainability dimensions. Accordingly, making effective supply chain decisions holistically while achieving sustainability goals has become a major challenge faced by the present agri-food systems. Thus, to address the challenge, a novel supply chain configuration addressing multiple supply chain decisions to reduce global warming potential (GWP) and post-harvest losses have been presented by taking the banana supply chain in Sri Lanka as a case study. In the proposed approach, farmers have been clustered based on their geo positions using K-Means clustering followed by route planning within clusters using a heuristics approach. Retailer points are catered by assigning to wholesalers optimally modeling as an assignment model and then route planning executed using a heuristic approach. The solution generated from the above approaches has been implemented on a simulation platform to calculate the overall supply chain performance including the transportation component, in terms of the net GWP, post-harvest losses, and lead time including routing operations. Simulated supply chain performance has been compared with the existing system and verified the performance of the proposed supply chain configuration. The suggested configuration has reduced the net GWP by 15.3%, post-harvest loss by 2.1%, lead time by 28.2%, and travel distance by 20.47%. The proposed configuration can be further improved by adding dynamic characteristics to the model.

Suggested Citation

  • Chethana Chandrasiri & Subodha Dharmapriya & Janappriya Jayawardana & Asela K. Kulatunga & Amanda N. Weerasinghe & Chethana P. Aluwihare & Dilmini Hettiarachchi, 2022. "Mitigating Environmental Impact of Perishable Food Supply Chain by a Novel Configuration: Simulating Banana Supply Chain in Sri Lanka," Sustainability, MDPI, vol. 14(19), pages 1-20, September.
    • Handle: RePEc:gam:jsusta:v:14:y:2022:i:19:p:12060-:d:923702
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    1. Ayla Amamou & Safa Chabouh & Lilia Sidhom & Alaeddine Zouari & Abdelkader Mami, 2025. "Agri-Food Supply Chain Sustainability Indicators from a Multi-Capital Perspective: A Systematic Review," Sustainability, MDPI, vol. 17(9), pages 1-34, May.
    2. Vijay Prakash Sharma & Surya Prakash & Ranbir Singh, 2022. "What Prevents Sustainable Last-Mile Delivery in Industry 4.0? An Analysis and Decision Framework," Sustainability, MDPI, vol. 14(24), pages 1-20, December.
    3. Evance Hlekwayo Moyo & Stephen Carstens & Jackie Walters, 2024. "Simulation Model for a Sustainable Food Supply Chain in a Developing Country: A Case Study of the Banana Supply Chain in Malawi," Logistics, MDPI, vol. 8(3), pages 1-23, August.
    4. Yao, Jia & Yu, Lan & An, Shi, 2024. "Agricultural product harvest equilibrium with transportation bottleneck and random disasters," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 192(C).

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