Details

Autor(en) / Beteiligte

• Liu, Xiangtao
• Wang, Guochang
• Si, Jicang
• Wu, Mengwei
• Xu, Minyi
• Mi, Jianchun

Titel

On a premixed NH3/O2 jet flame in hot coflow of gaseous H2O versus N2

Ist Teil von

• International journal of hydrogen energy, 2024-06, Vol.72, p.588-600

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• This numerical study comparatively investigates a premixed NH3/O2 jet flame in hot coflow (JHC) of H2O (steam) versus that of N2. To differentiate physical and chemical effects of coflowing either H2O or N2, FH2O and FN2 are introduced as fictitious gases which have the same physical properties as their real counterparts but do not participate in any chemical reaction. All present JHC flames are simulated under MILD (moderate or intense low-oxygen dilution) condition at the coflow temperature of TC = 1500 K and the equivalence ratio of ΦJ = 0.4 to 1.6. Specifically, the premixed ammonia flames are characterized by the mean temperatures, key radical concentrations and thermal efficiency, as well as their NOx formation mechanisms and emission features. It is found that the use of H2O versus N2 for dilution significantly reduces NOx emissions from the ammonia MILD combustion, albeit at the cost of reduced combustion efficiency. Interestingly, the H2O dilution affects combustion both physically and chemically, in contrast to the N2 dilution primarily impacting the process physically. Notably, the change to H2O dilution can lower peak temperatures and thus promote a more uniform temperature distribution. Furthermore, the shift from N2 to H2O for dilution influences NO emissions, primarily tied to variations in the HNO route, notably reaction R180, while boosting the DeNOx mechanism. This shift also alters the production rates of key radicals, e.g., H and O being generated more slowly with an intricate effect on OH production, depending on ΦJ. [Display omitted] •The impacts of N2 and H2O dilutions on the ammonia MILD-JHC flame are examined.•H2O dilution substantially reduces NOx emissions but lowers combustion efficiency.•Both physical and chemical factors of H2O dilution greatly influence the flame.•N2 dilution has only a strong physical effect on the flame.•H2O dilution weakens radical H and O productions, but differing OH formation in rich- and lean-fuel regions.