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Modeling the carbon cycle of the municipal solid waste management system for urban metabolism

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  • Zhou, Chuanbin
  • Huang, Heping
  • Cao, Aixin
  • Xu, Wanying

Abstract

Municipal solid waste management is one of the key subsystems of urban metabolism, which significantly impacts urban carbon cycles. A conceptual model for analyzing the carbon cycle of the municipal solid waste management system was established based on the theory of urban metabolism with regard to urban carbon cycling. The model includes horizontal fluxes, vertical fluxes and carbon stocks of the waste managing processes such as waste collection, transportation, treatment and disposal. The current carbon cycling of the municipal solid waste management system and two other scenarios were analyzed using a Jingmen City case study. The results indicate that the input horizontal flux in municipal solid waste between 1989 and 2004 was 293.47Gg. Among all of the considered scenarios, the landfill formed the largest carbon stocks; incineration showed the largest vertical fluxes of carbon dioxide, and source separation and integrated technologies decreased carbon emissions by adding new carbon sources to the urban system. Improving municipal solid waste management using techniques, such as waste minimization, source separation, recycling, technical innovations of incineration, compost and digestion of organic waste, landfill mining, etc., could impact the urban carbon cycle by reducing carbon emissions.

Suggested Citation

  • Zhou, Chuanbin & Huang, Heping & Cao, Aixin & Xu, Wanying, 2015. "Modeling the carbon cycle of the municipal solid waste management system for urban metabolism," Ecological Modelling, Elsevier, vol. 318(C), pages 150-156.
    • Handle: RePEc:eee:ecomod:v:318:y:2015:i:c:p:150-156
    DOI: 10.1016/j.ecolmodel.2014.11.027
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    References listed on IDEAS

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    1. Christopher Kennedy & John Cuddihy & Joshua Engel‐Yan, 2007. "The Changing Metabolism of Cities," Journal of Industrial Ecology, Yale University, vol. 11(2), pages 43-59, April.
    2. Svirejeva-Hopkins, A. & Schellnhuber, H.-J., 2008. "Urban expansion and its contribution to the regional carbon emissions: Using the model based on the population density distribution," Ecological Modelling, Elsevier, vol. 216(2), pages 208-216.
    3. Li, J.S. & Chen, G.Q. & Lai, T.M. & Ahmad, B. & Chen, Z.M. & Shao, L. & Ji, Xi, 2013. "Embodied greenhouse gas emission by Macao," Energy Policy, Elsevier, vol. 59(C), pages 819-833.
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    Cited by:

    1. Panaro, D.B. & Frunzo, L. & Mattei, M.R. & Luongo, V. & Esposito, G., 2021. "Calibration, validation and sensitivity analysis of a surface-based ADM1 model," Ecological Modelling, Elsevier, vol. 460(C).
    2. Liangjun Peng & Mengdi Gu & Zhijun Peng, 2020. "Study on the Optimized Mode of Waste Governance with Sustainable Urban Development—Case from China’s Urban Waste Classified Collection," Sustainability, MDPI, vol. 12(9), pages 1-12, May.
    3. Fang, Wei & An, Haizhong & Li, Huajiao & Gao, Xiangyun & Sun, Xiaoqi & Zhong, Weiqiong, 2017. "Accessing on the sustainability of urban ecological-economic systems by means of a coupled emergy and system dynamics model: A case study of Beijing," Energy Policy, Elsevier, vol. 100(C), pages 326-337.
    4. Hongcheng Shen & Yi Liu, 2022. "Can Circular Economy Legislation Promote Pollution Reduction? Evidence from Urban Mining Pilot Cities in China," Sustainability, MDPI, vol. 14(22), pages 1-22, November.
    5. Chuanbin Zhou & Shijun Ma & Xiao Yu & Zhuqi Chen & Jingru Liu & Li Yan, 2022. "A comparison study of bottom‐up and top‐down methods for analyzing the physical composition of municipal solid waste," Journal of Industrial Ecology, Yale University, vol. 26(1), pages 240-251, February.

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