Experimental investigation of internal structures of NH 3 /H 2 /O 2 /N 2 premixed jet flames using multi-scalar imaging

Wang, Ze1; Li, Xun1; Li, Tao2; Dreizler, Andreas2; Lipatnikov, Andrei N.3; Liu, Xiao4; Gan, Xiaohua1; Zhou, Bo1

2024

10.1016/j.proci.2024.105436

PROCEEDINGS OF THE COMBUSTION INSTITUTE   影响因子和分区

1540-7489

1873-2704

Ammonia-hydrogen (NH 3-H 2 ) blends stand as a promising carbon-neutral fuel alternative. This study delves into the variation in the internal structure of NH 3-H 2 flames with varying Lewis numbers (Le) and turbulence intensities. Simultaneous multi-scalar imaging of NH 3 /NH/OH was performed to characterize the structures of turbulent jet flames with the same unstretched laminar flame speed (30.8 cm/s) but different H 2 contents. Internal flame structures were characterized by isocontours of NH 3 , NH (both inner and outer edges, NH i and NH o ), and OH to delimit the reaction zone. The parallelism of the selected isocontours (i.e., NH 3 , NH i , and NH o ) with the OH baseline was quantified by calculating the probabilities, P ( delta p ), of the selected isocontours overlapping with the OH baseline shifted by a distance of delta p along its normal direction. On the one hand, results have revealed that increasing turbulence disrupts the parallelism of the selected isocontours with the OH baseline, leading to a larger and FWHM, as well as a reduced skewness of the P ( delta p ) profiles. On the other hand, flames with higher H 2 content and lower Le exhibit great resistance to turbulence but experience enhanced wrinkling due to the differential diffusion effect, which can also cause deviations in scalar parallelism at low turbulence intensity. For flames with reduced Le numbers, the NH 3 isocontours are observed to be located even downstream of the NH i isocontours, which belong to the reaction zone. The extent of parallelism for the selected isocontours within the reaction zone is found to respond to turbulence and Le differently, deviating from an idealized picture of the flamelet manifold.

Ammonia/hydrogen NH3/NH/OH PLIF Turbulent combustion Flame structure Lewis number

SCI ; EI

英语

第一 ; 通讯

NSFC Grant program[52206150] ; DFG[503997890]

Thermodynamics ; Energy & Fuels ; Engineering

Thermodynamics ; Energy & Fuels ; Engineering, Chemical ; Engineering, Mechanical

WOS:001267069800001

ELSEVIER SCIENCE INC

ENGINEERING

Web of Science

1.Southern Univ Sci & Technol SUSTech, Dept Mech & Aerosp Engn, Shenzhen 518055, Peoples R China
2.Tech Univ Darmstadt, Inst React Flows & Diagnost, Otto Berndt Str 3, D-64287 Darmstadt, Germany
3.Chalmers Univ Technol, Dept Mech & Maritime Sci, SE-41296 Gothenburg, Sweden
4.Harbin Engn Univ, Coll Power & Energy, Harbin 150001, Peoples R China

Wang, Ze,Li, Xun,Li, Tao,et al. Experimental investigation of internal structures of NH 3 /H 2 /O 2 /N 2 premixed jet flames using multi-scalar imaging[J]. PROCEEDINGS OF THE COMBUSTION INSTITUTE,2024,40(1-4).

Wang, Ze.,Li, Xun.,Li, Tao.,Dreizler, Andreas.,Lipatnikov, Andrei N..,...&Zhou, Bo.(2024).Experimental investigation of internal structures of NH 3 /H 2 /O 2 /N 2 premixed jet flames using multi-scalar imaging.PROCEEDINGS OF THE COMBUSTION INSTITUTE,40(1-4).

Wang, Ze,et al."Experimental investigation of internal structures of NH 3 /H 2 /O 2 /N 2 premixed jet flames using multi-scalar imaging".PROCEEDINGS OF THE COMBUSTION INSTITUTE 40.1-4(2024).