Detonation in ammonia-oxygen and ammonia-nitrous oxide mixtures
Résumé
The sensitivity to detonation of ammonia-oxygen (NH 3-O 2) and ammonianitrous oxide (NH3-N2O) mixtures has been investigated experimentally and numerically. Detonation were studied in a stainless tube with a length of 4.6 m and an inner diameter of 78 mm. The initiation of the detonation wave was achieved using a weak electric spark and a Shchelkin spiral to trigger flame acceleration and transition to detonation. The soot foil technique was employed to determine the detonation sensitivity. For the numerical simulations, the Shock and Detonation Toolbox in Cantera was employed. The pressure in experiment was below 100 kPa and was extended to 4.5 MPa in the numerical study using a real gas model based on the Peng-Robinson equation of state. Overall, detonation in ammonia-based mixtures have an irregular structure and do not demonstrate a high sensitivity. At ambient temperature, the experimental cell width ranges between 14 and 54 mm for NH 3-O 2 mixtures and between 7 and 23 mm for NH 3-N 2 O mixtures in the equivalence ratio and pressure ranges ϕ=0.6-1.5, and P 1 =43-100 kPa, and ϕ=0.3-1.25, and P 1 =41-80 kPa, respectively. These cell widths are larger than for CH 4-O 2 mixtures under similar conditions. The mixture with N 2 O is more sensitive to detonation at low pressure, but the conclusion is opposite at elevated pressure. Increasing pressure also tends to stabilize the detonation by raising the isentropic coefficient. Through detailed thermochemical analysis, it was shown that detonation in ammonia-based mixtures show pathological detonation behaviour at low pressure. The major exother
Domaines
Sciences de l'ingénieur [physics]
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Detonation in Ammonia-Oxygen and Ammonia-Nitrous_Combustion&Flame2023.pdf (4.66 Mo)
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