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Economic, Environmental and Social Benefits Analysis of Remanufacturing Strategies for Used Products

Author

Listed:
  • Qingshan Gong

    (College of Mechanical Engineering, Hubei University of Automotive Technology, Shiyan 442002, China)

  • Yurong Xiong

    (College of Mechanical Engineering, Hubei University of Automotive Technology, Shiyan 442002, China)

  • Zhigang Jiang

    (Key Laboratory of Metallurgical Equipment and Control Technology, Wuhan University of Science & Technology, Wuhan 430081, China)

  • Xugang Zhang

    (Key Laboratory of Metallurgical Equipment and Control Technology, Wuhan University of Science & Technology, Wuhan 430081, China)

  • Mingmao Hu

    (College of Mechanical Engineering, Hubei University of Automotive Technology, Shiyan 442002, China)

  • Zhanlong Cao

    (College of Mechanical Engineering, Hubei University of Automotive Technology, Shiyan 442002, China)

Abstract

The operating environment and using conditions of mechanical products are complex and diverse, which has caused a large number of mechanical products to be unable to be remanufactured or have low-remanufacturability. Such products are often ignored by remanufacturing companies and society, which aggravates environmental pollution and waste of resources. Therefore, this article provides a decision-making model for two strategies of complete machine remanufacturing (CMR) and part remanufacturing (PR) for used products with low-remanufacturability. Firstly, from the perspective of the remanufacturing process under the existing technical conditions, the economic, environmental, and social benefits of different remanufacturing solutions are analyzed. Secondly, the entropy method is used to weigh the economic, environmental, and social benefits to reduce the model error, and the linear regression method is used to find the comprehensive benefits of its different remanufacturing strategies. Finally, through the decision-making research on the remanufacturing strategies of the used machine tool CA6180, the results show that the tested machine tool should choose the remanufacturing strategy of PR and put it on the market. Moreover, the decision-making strategy proposed in this paper helps to realize a resource-saving and environment-friendly manufacturing ecology and provides a new perspective for remanufacturing research.

Suggested Citation

  • Qingshan Gong & Yurong Xiong & Zhigang Jiang & Xugang Zhang & Mingmao Hu & Zhanlong Cao, 2022. "Economic, Environmental and Social Benefits Analysis of Remanufacturing Strategies for Used Products," Mathematics, MDPI, vol. 10(21), pages 1-20, October.
    • Handle: RePEc:gam:jmathe:v:10:y:2022:i:21:p:3929-:d:950881
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    References listed on IDEAS

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    1. Qian-wang Deng & Hao-lan Liao & Bo-wen Xu & Xia-hui Liu, 2017. "The Resource Benefits Evaluation Model on Remanufacturing Processes of End-of-Life Construction Machinery under the Uncertainty in Recycling Price," Sustainability, MDPI, vol. 9(2), pages 1-21, February.
    2. Hannan, M.A. & Lipu, M.S. Hossain & Ker, Pin Jern & Begum, R.A. & Agelidis, Vasilios G. & Blaabjerg, F., 2019. "Power electronics contribution to renewable energy conversion addressing emission reduction: Applications, issues, and recommendations," Applied Energy, Elsevier, vol. 251(C), pages 1-1.
    3. Qiu, Yuzhuo & Ni, Ming & Wang, Liang & Li, Qinqin & Fang, Xuanjing & Pardalos, Panos M., 2018. "Production routing problems with reverse logistics and remanufacturing," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 111(C), pages 87-100.
    4. Qingshan Gong & Yurong Xiong & Zhigang Jiang & Jinghong Yang & Chen Chen, 2022. "Timing Decision for Active Remanufacturing Based on 3E Analysis of Product Life Cycle," Sustainability, MDPI, vol. 14(14), pages 1-12, July.
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    Cited by:

    1. Hong Sun & Yan Li, 2023. "Optimal Acquisition and Production Policies for Remanufacturing with Quality Grading," Mathematics, MDPI, vol. 11(7), pages 1-21, March.

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