Engineering combustion modelling of 300 kW furnace

Engineering combustion modelling of 300 kW furnace

Paper in proceedings (conference paper)

Combustion modelling with modern user-friendly codes such as ANSYS FLUENT is used widely in design and troubleshooting of furnaces and boilers. Rigorous validation is required to assess ability of the model to capture real system behaviour. The present work provides both detailed in-flame validation as well as extensive parametric study of outlet NOx emissions. It also covers several alternative chemistry models. Practicing combustion engineers, who rely on the capabilities of general-purpose CFD code ANSYS FLUENT are given useful guidance on the relative reliability of their predictions, especially NOx, on several major factors.

Combustion modelling with modern user-friendly codes such as ANSYS FLUENT is used widely in design and troubleshooting of furnaces and boilers. Rigorous validation is required to assess ability of the model to capture real system behaviour. The present work provides both detailed in-flame validation as well as extensive parametric study of outlet NOx emissions. It also covers several alternative chemistry models. Practicing combustion engineers, who rely on the capabilities of general-purpose CFD code ANSYS FLUENT are given useful guidance on the relative reliability of their predictions, especially NOx, on several major factors.

combustion engineering; combustion model; nitrogen oxides

combustion engineering; combustion model; nitrogen oxides

HÁJEK, J.; VONDÁL, J.

2019

29.08.2018

Czech Society of Chemical Engineering

Prague, Czech Republic

978-1-5108-8119-8

Proceedings of the 23rd International Congress of Chemical and Process Engineering (CHISA 2018) and 21st Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES 2018)

1095.1

1095.6

1

https://secure.confis.cz/chisa2018/ProgramFin/P1.aspx#1095