The need of reliable CFD models able to predict the performance of pure hydrogen combustion is becoming strategic for the development of new burner designs for GT. So, in this research paper, the results of a species-transport based model applied to the HYLON burner will be presented. Both the attached and the lifted flame configuration are investigated and discussed showing an excellent agreement with the experimental measurements. Furthermore, the CFD solutions are coupled with a CRN to estimate the NOx emission, considering all the possible formation pathways.
Analysis of the NOx formation pathways in a partially premixed burner operated with pure hydrogen / Meloni, Roberto; Babazzi, Giulia; Mazzotta, Luca; Borello, Domenico. - (2024). (Intervento presentato al convegno 46th Meeting of The Italian Section of The Combustion Institute tenutosi a Bari, Italy).
Analysis of the NOx formation pathways in a partially premixed burner operated with pure hydrogen
Roberto Meloni
Primo
Writing – Original Draft Preparation
;Luca MazzottaWriting – Original Draft Preparation
;Domenico BorelloUltimo
Supervision
2024
Abstract
The need of reliable CFD models able to predict the performance of pure hydrogen combustion is becoming strategic for the development of new burner designs for GT. So, in this research paper, the results of a species-transport based model applied to the HYLON burner will be presented. Both the attached and the lifted flame configuration are investigated and discussed showing an excellent agreement with the experimental measurements. Furthermore, the CFD solutions are coupled with a CRN to estimate the NOx emission, considering all the possible formation pathways.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.