Differential Evolution and fuzzy inference system for modeling multiphase flow in bubble column reactors

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Differential Evolution and fuzzy inference system for modeling multiphase flow in bubble column reactors

Project Targets

  • To develop the differential evolution with a fuzzy inference system (DEFIS) to predict air velocity.
  • To adjust the differential evolution parameters for the best intelligence.
  • To derive a correlation for air velocity calculation as a function of nodes locations, time, and water velocity.

Project Targets

  • To develop the differential evolution with a fuzzy inference system (DEFIS) to predict air velocity.
  • To adjust the differential evolution parameters for the best intelligence.
  • To derive a correlation for air velocity calculation as a function of nodes locations, time, and water velocity.

 

Collaborators

This project collaborated with several researchers from various reputable universities, such as Ton Duc Thang University, South Ural State University, and Duy Tan University.

Project outcomes

  • Codes development for the differential evolution-based fuzzy inference system (DEFIS).
  • ISI paper published in Q1 journal of Scientific Reports with the title of “High‑performance hybrid modeling chemical reactors using differential evolution based fuzzy inference system.”
  • DOI: https://doi.org/10.1038/s41598-020-78277-3

Findings

Fuzzy reasoning procedure of prediction of air velocity inside the reactor.
DEFIS prediction and its comparison with CFD results. 

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