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Comprehensive development of industrial symbiosis for the response of greenhouse gases emission mitigation: Challenges and opportunities in China

Author

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  • Liu, Zhe
  • Adams, Michelle
  • Cote, Raymond P.
  • Geng, Yong
  • Chen, Qinghua
  • Liu, Weili
  • Sun, Lu
  • Yu, Xiaoman

Abstract

Although not yet a global consensus, there is widespread agreement that climate change is the result of anthropogenic sources of greenhouse gases (GHG) emissions. In order to respond to this issue, society has applied such strategies as clean energy development, improving industrial resource efficiency etc. Despite this, GHG emissions are still pursuing an upward trend. As the largest global GHG emitter, China faces a considerable challenge in responding to its agreed target of 40–45% GHG emission mitigation per unit gross domestic production (GDP) by 2020 as compared to 2005 levels. How to practically achieve this is still largely undecided. Comprehensive development of industrial symbiosis around nationwide is considered part of the solution. However, few researchers have studied how to actually implement a comprehensive development of industrial symbiosis for the purpose of GHG emission mitigation. This work intends to address this gap through highlighting the opportunities to develop such an approach for particular application to GHG emissions reduction in China. In addition, this study will also address the challenges ahead associated with the implementation of such a strategy, and outlines the where future research could be focused. Policy implications like establishing industrial symbiosis indicators associated with GHG emission mitigation are proposed.

Suggested Citation

  • Liu, Zhe & Adams, Michelle & Cote, Raymond P. & Geng, Yong & Chen, Qinghua & Liu, Weili & Sun, Lu & Yu, Xiaoman, 2017. "Comprehensive development of industrial symbiosis for the response of greenhouse gases emission mitigation: Challenges and opportunities in China," Energy Policy, Elsevier, vol. 102(C), pages 88-95.
    • Handle: RePEc:eee:enepol:v:102:y:2017:i:c:p:88-95
    DOI: 10.1016/j.enpol.2016.12.013
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    4. Chunbo Zhang & Mingming Hu & Xining Yang & Arianna Amati & Arnold Tukker, 2020. "Life cycle greenhouse gas emission and cost analysis of prefabricated concrete building façade elements," Journal of Industrial Ecology, Yale University, vol. 24(5), pages 1016-1030, October.
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    6. Yu, Xiang & Chen, Hongbo & Wang, Bo & Wang, Ran & Shan, Yuli, 2018. "Driving forces of CO2 emissions and mitigation strategies of China’s National low carbon pilot industrial parks," Applied Energy, Elsevier, vol. 212(C), pages 1553-1562.
    7. Fraccascia, Luca & Giannoccaro, Ilaria & Albino, Vito, 2021. "Ecosystem indicators for measuring industrial symbiosis," Ecological Economics, Elsevier, vol. 183(C).
    8. Luca Fraccascia & Vahid Yazdanpanah & Guido Capelleveen & Devrim Murat Yazan, 2021. "Energy-based industrial symbiosis: a literature review for circular energy transition," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 23(4), pages 4791-4825, April.
    9. Efrain Boom-Cárcamo & Rita Peñabaena-Niebles, 2022. "Analysis of the Development of Industrial Symbiosis in Emerging and Frontier Market Countries: Barriers and Drivers," Sustainability, MDPI, vol. 14(7), pages 1-32, April.
    10. Thanh Tiep Le & Abhishek Behl & Gary Graham, 2023. "The Role of Entrepreneurship in Successfully Achieving Circular Supply Chain Management," Global Journal of Flexible Systems Management, Springer;Global Institute of Flexible Systems Management, vol. 24(4), pages 537-561, December.
    11. Juan Henriques & Paulo Ferrão & Rui Castro & João Azevedo, 2021. "Industrial Symbiosis: A Sectoral Analysis on Enablers and Barriers," Sustainability, MDPI, vol. 13(4), pages 1-22, February.
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    13. Donato Masi & Steven Day & Janet Godsell, 2017. "Supply Chain Configurations in the Circular Economy: A Systematic Literature Review," Sustainability, MDPI, vol. 9(9), pages 1-22, September.
    14. Yongsheng Lin & Zhe Liu & Rui Liu & Xiaoman Yu & Liming Zhang, 2020. "Uncovering driving forces of co-benefits achieved by eco-industrial development strategies at the scale of industrial park," Energy & Environment, , vol. 31(2), pages 275-290, March.
    15. Fabiana Liar Agudo & Barbara Stolte Bezerra & José Alcides Gobbo & Luis Alberto Bertolucci Paes, 2022. "Unfolding research themes for industrial symbiosis and underlying theories," Sustainable Development, John Wiley & Sons, Ltd., vol. 30(6), pages 1682-1702, December.
    16. Wu, Junnian & Pu, Guangying & Guo, Yan & Lv, Jingwen & Shang, Jiangwei, 2018. "Retrospective and prospective assessment of exergy, life cycle carbon emissions, and water footprint for coking network evolution in China," Applied Energy, Elsevier, vol. 218(C), pages 479-493.
    17. Liu, Zhe & Adams, Michelle & Cote, Raymond P. & Chen, Qinghua & Wu, Rui & Wen, Zongguo & Liu, Weili & Dong, Liang, 2018. "How does circular economy respond to greenhouse gas emissions reduction: An analysis of Chinese plastic recycling industries," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 1162-1169.
    18. Xingyun Yan & Lingyu Wang & Mingzhu Fang & Jie Hu, 2022. "How Can Industrial Parks Achieve Carbon Neutrality? Literature Review and Research Prospect Based on the CiteSpace Knowledge Map," Sustainability, MDPI, vol. 15(1), pages 1-29, December.

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