Computational Fluid Dynamic Analysis of Reduction Gas Emissions Level inTurbine Combustor

Authors

  • Hesham Baej The Libyan Academy
  • Salem Adeilla Higher Institute of Science and Technology,Gharyan- Libya

DOI:

https://doi.org/10.36602/ijeit.v9i-.111

Keywords:

CFD, Non-premixed flame, Swirl flow burner, Combustion Emissions

Abstract

in this paper, (CFD) Computational Fluid Dynamics was used for a detailed burner design by the software Fluent (ANSYS). However, a number of numerical simulations were performed on a generic swirl burner and turbulence flow selection of a non-premixed which using syngas.
However, non-premixed flames which characterized by relatively high temperatures, high NOx concentrations, and emission indices. The results showed that the presence of methane in syngas increases the peak flame temperature and the thermal NOx, significantly.
Therefore, Investigation showed that effecting of H2, CO, and N2 contents in the fuel mixture level NOx emissions, thus the present compositions for pure methane are respectively influenced on syngas1 by (10% CH4, 45% H2, 45% CO) , syngas2 by (50% CH4, 10% H2, 40%N2) and syngas3 (60% CH4, 20% H2, 20%N2).

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Published

2024-02-12

Issue

Vol. 9 No. - (2021): special issue

Section

Electrical Engineering

License

Copyright (c) 2021 The International Journal of Engineering & Information Technology (IJEIT)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

Computational Fluid Dynamic Analysis of Reduction Gas Emissions Level inTurbine Combustor. (2024). The International Journal of Engineering & Information Technology (IJEIT), 9(-), 75-79. https://doi.org/10.36602/ijeit.v9i-.111