Design of Reverse Logistics Network for Power Battery Considering Transportation Risk

Fuyang Gao

doi:10.62051/ijcsit.v3n3.39

Authors

Fuyang Gao

DOI:

https://doi.org/10.62051/ijcsit.v3n3.39

Keywords:

Retired power battery recycling, Risk control, Network optimization, Uncertain factors

Abstract

In order to integrate the concept of sustainable development and safety into the management of power battery recycling, a sustainable reverse logistics network considering the balanced development of risk and cost is constructed. The model takes into account many uncertain factors, including the recovery amount, recovery price, transportation distance, treatment cost and so on, and uses fuzzy theory to transform it into a deterministic model. Finally, the validity of the model is analyzed by an example, and the sensitivity of the parameters is analyzed. The results show that the multi-objective decision-making model can effectively promote the coordinated development of risk and cost compared with the single-objective optimization model, and the change of risk and cost weight will lead to the corresponding change of its objective function, which provides a theoretical basis for the decision-making of risk and cost control of power battery reverse logistics network in the environment of limited information uncertainty.

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