Erratum: A numerical investigation of the species transport approach for modeling of gaseous combustion

Year 2022, Volume: 8 Issue: 3, 446 - 446, 16.05.2022

Upendra Rajak Prerana Nashıne Prem Kumar Chaurasıya Tikendra Nath Verma

https://doi.org/10.18186/thermal.1117698

The original article was published on December 30, 2021. https://dergipark.org.tr/en/pub/thermal/issue/67545/1051312

Erratum Note

CORRIGENDUM J Ther Eng Vol. 7, Supp 14, pp. 2054-2067 The list of the authors was incomplete in the original publication. The correct list is:Upendra RAJAK, Prem KUMAR CHAURASIYA, Prerana NASHINE, Rohit KUMAR, Tikendra NATH VERMA

Abstract

This present work shows a study of the effect of thermal radiation in the simulation of a turbulent, non-premixed diesel-air, hydrogen-air, kerosene-air, n-butanol, pentane-air, propane-air and methane–air used in a 2D geometry cylindrical combustion chamber. The numerical simulation based on the solution of the mass, momentum, energy and the chemical species conservation equations was performed for steady state condition using computation Fluid Dynamic (CFD), while the turbulence modeling was considered via standard k–ε model. The results indicate that highest mass fraction of NO emissions with hydrogen-air fuel compared to diesel fuel. The results showed a better performance of kerosene-air alternative based on the emissions characteristics in the present work. The CO2 emission reduced with hydrogen-air compared to diesel fuel due to better combustion. A significant decrease of emissions characteristics (O2, H2O and NO) was observed. The present numerical investigated results of methane-air are compared to experimental results compared to Silva et al. (2007) and Garreton and Simonin (1994) for tool validation.

Keywords

Species transport model, Computational Fluid Dynamic (CFD), k-ε model, NO emission, Emission

References

• The article references can be accessed from the .pdf file.