Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution

Santos, Basil James S.; Benjamin, Michael Francis D.; Tapia, John Frederick D.; Tan, Raymond R.

doi:10.13044/j.sdnarema.d1.0599

Journal of Sustainable Development of Natural Resources Management, Vol. 1 No. 2, 2025.

Original scientific paper

https://doi.org/10.13044/j.sdnarema.d1.0599

Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution

Basil James S. Santos orcid.org/0009-0005-6076-9916 ; University of Santo Tomas, Manila, Philippines
Michael Francis D. Benjamin ; University of Santo Tomas, Manila, Philippines
John Frederick D. Tapia ; De La Salle University, Manila, Philippines
Raymond R. Tan ; De La Salle University, Manila, Philippines

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APA 6th Edition

Santos, B.J.S., Benjamin, M.F.D., Tapia, J.F.D. & Tan, R.R. (2025). Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution. Journal of Sustainable Development of Natural Resources Management, 1 (2), 1-13. https://doi.org/10.13044/j.sdnarema.d1.0599

MLA 8th Edition

Santos, Basil James S., et al. "Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution." Journal of Sustainable Development of Natural Resources Management, vol. 1, no. 2, 2025, pp. 1-13. https://doi.org/10.13044/j.sdnarema.d1.0599. Accessed 5 Dec. 2025.

Chicago 17th Edition

Santos, Basil James S., Michael Francis D. Benjamin, John Frederick D. Tapia and Raymond R. Tan. "Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution." Journal of Sustainable Development of Natural Resources Management 1, no. 2 (2025): 1-13. https://doi.org/10.13044/j.sdnarema.d1.0599

Harvard

Santos, B.J.S., et al. (2025). 'Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution', Journal of Sustainable Development of Natural Resources Management, 1(2), pp. 1-13. https://doi.org/10.13044/j.sdnarema.d1.0599

Vancouver

Santos BJS, Benjamin MFD, Tapia JFD, Tan RR. Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution. Journal of Sustainable Development of Natural Resources Management [Internet]. 2025 [cited 2025 December 05];1(2). https://doi.org/10.13044/j.sdnarema.d1.0599

IEEE

B.J.S. Santos, M.F.D. Benjamin, J.F.D. Tapia and R.R. Tan, "Optimal Operational Adjustments for Integrated Plastics Recycling Networks under Supply Shortage Considering Input Substitution", Journal of Sustainable Development of Natural Resources Management, vol.1, no. 2, pp. 1-13, 2025. [Online]. https://doi.org/10.13044/j.sdnarema.d1.0599

Abstract

Plastic pollution has become a major environmental challenge. Despite the availability of various recycling technologies, only a small proportion of plastic waste is currently recycled. Developing an Integrated Plastic Recycling Network (IPRN) offers a promising solution to tackling this issue. Facilitating the exchange of material and energy outputs among system components can enhance recycling efficiency. However, disruption in an IPRN component can trigger cascading effects that impact the whole network. This disruption may include shortages in plastic waste inputs. Thus, identifying optimal operating conditions during such disruptions is crucial. This study builds upon previously developed Mixed-Integer Linear Programming (MILP) models based on enterprise Input-Output (IO) modelling framework to optimize IPRN operations under abnormal conditions. The model is modified to allow input substitution during shortages. The improved model incorporates user-defined substitution conditions, such as redirecting materials from mechanical recycling to pyrolysis or gasification, but not vice-versa. During disruptions, rerouting some inputs to prioritize the most profitable processes can significantly improve the network’s revenue. Application of the model to a case study of an IPRN demonstrates that allowing input substitution reduces the revenue drop from 9% to 2.4% under a 10% supply shortage in mixed plastic wastes. Incorporating flexible input substitution can enhance the robustness of IPRNs and ensure more effective recycling even under crisis conditions.

Keywords

Plastics recycling; Input-output model; Supply-side disruption; Inoperability; Resilience

Hrčak ID:

332949

URI

https://hrcak.srce.hr/332949

Publication date:

5.12.2025.

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Journal of Sustainable Development of Natural Resources Management, Vol. 1 No. 2, 2025.

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