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Urban and industrial symbiosis for circular economy: Total EcoSite Integration. | LitMetric

Urban and industrial symbiosis for circular economy: Total EcoSite Integration.

J Environ Manage

Research School of Chemistry and Applied Biomedical Sciences, Tomsk Polytechnic University, Lenin Avenue 30, Tomsk, 634050, Russian Federation.

Published: February 2021

AI Article Synopsis

  • The paper discusses an enhanced method of Pinch Analysis called Total Site Process Integration, focusing on urban and industrial symbiosis.
  • It introduces the concept of Pinch Analysis for Solid Waste Integration, crucial for advancing circular economy practices and supported by cluster-based methodologies.
  • A case study demonstrated that the integrated design increased energy recovery from solid waste by 11.39 MWh/d and reduced landfill waste by 2 t/d, while also aiming to lower environmental impact and costs in future applications.

Article Abstract

The paper presents an extension of Pinch Analysis and namely, Total Site Process Integration. It benefits from up to date developments and introduction of Total EcoSite Integration for urban and industrial symbiosis. An important development is Pinch Analysis for Solid Waste Integration which is a crucial step for the symbiosis in a circular economy. As the potential EcoSites are usually extensive and cover various units, a methodology based on clusters has been used. The solution has been supported by graphical tools using the analogy with already implemented extensions of Pinch Analysis. The results of a demonstration case study revealed the potential of the novel approach. The identified integrated design increased the energy recovered from the solid waste by 11.39 MWh/d and diverted 2 t/d of the waste from the landfill, benefiting both the urban and industrial site. The proposed approach is also capable of minimising the requirement of energy-intensive thermal drying for waste whenever the process allowed, subsequently offer a solution with lower environmental footprint and cost. For future work, a even more comprehensive case study can be conducted by considering the other forms of the waste, recovery process and drying approaches.

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Source
http://dx.doi.org/10.1016/j.jenvman.2020.111829DOI Listing

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