About | Contact Us | Register | Login
ProceedingsSeriesJournalsSearchEAI
Nature of Computation and Communication. 7th EAI International Conference, ICTCC 2021, Virtual Event, October 28–29, 2021, Proceedings

Research Article

A Game Theory Approach for Water Exchange in Eco-Industrial Parks: Part 2 - A Case Study with Regeneration Units

Download(Requires a free EAI acccount)
3 downloads
Cite
BibTeX Plain Text
  • @INPROCEEDINGS{10.1007/978-3-030-92942-8_14,
        author={Kien Cao Van},
        title={A Game Theory Approach for Water Exchange in Eco-Industrial Parks: Part 2 - A Case Study with Regeneration Units},
        proceedings={Nature of Computation and Communication. 7th EAI International Conference, ICTCC 2021, Virtual Event, October 28--29, 2021, Proceedings},
        proceedings_a={ICTCC},
        year={2022},
        month={1},
        keywords={Game theory Nash equilibrium Single-leader multi-follower game Mixed-integer programming Eco-industrial park},
        doi={10.1007/978-3-030-92942-8_14}
    }
    
  • Kien Cao Van
    Year: 2022
    A Game Theory Approach for Water Exchange in Eco-Industrial Parks: Part 2 - A Case Study with Regeneration Units
    ICTCC
    Springer
    DOI: 10.1007/978-3-030-92942-8_14
Kien Cao Van1,*
  • 1: Faculty of Information Technology
*Contact email: cvkien@ntt.edu.vn

Abstract

Part 2 of the paper presents the optimal design of the water exchange network in the eco-industrial parks (EIP) using the single-leader multi-follower (SLMF) game methodology. The SLMF game methodology is suitable on the case study of water management in EIP with regeneration units. The main goal of regeneration units is to reduce the contaminant concentration with different quality specifications. From there, the enterprises can not only use the wastewater from other enterprises but also reuse recycled water to reap economic benefit. At the same time, the environmental performance is also enhanced, since water scarcity is counteracted by replacing freshwater usage with wastewater and/or recycled water. The benefits of regeneration units in the EIP design will be discussed and the comparison with the case study without regeneration units presented in Part 1 [4] is also considered.

Keywords
Game theory Nash equilibrium Single-leader multi-follower game Mixed-integer programming Eco-industrial park
Published
2022-01-03
Appears in
SpringerLink
http://dx.doi.org/10.1007/978-3-030-92942-8_14
Copyright © 2021–2025 ICST
EBSCOProQuestDBLPDOAJPortico
EAI Logo

About EAI

  • Who We Are
  • Leadership
  • Research Areas
  • Partners
  • Media Center

Community

  • Membership
  • Conference
  • Recognition
  • Sponsor Us

Publish with EAI

  • Publishing
  • Journals
  • Proceedings
  • Books
  • EUDL