Abstract: A closed mathematical model of continuous spin detonation in a H2-O2 mixture with oxygen ejection from the environment has been developed. The model takes into account the inverse effect of pulsation processes in the combustor on oxygen ejection. A numerical study was performed for a 10 cm diameter ramjet annular combustor with geometric dimensions corresponding to experiments. One-wave modes of continuous spin detonation were calculated and the flow structure was analyzed with variation in the specific hydrogen flow rate from 3 to 3.75 kg/(s•m2). Decreasing the flow rate of ejected hydrogen during continuous detonation in the combustor is found to lead to a monotonic decrease in the detonation velocity, wave front height, average static pressure, and equivalence ratio, but to an increase in the oxygen ejection coefficient. The results are validated against experimental data.

Cite: Simonov E.V. , Zhdan S.A.
Calculation of continuous spin detonation of a hydrogen-oxygen mixture in an annular combustor with oxygen ejection
Journal of Physics: Conference Series. 2019. V.1404. P.012069. DOI: 10.1088/1742-6596/1404/1/012069 РИНЦ OpenAlex

Identifiers:

Elibrary:	43232830
OpenAlex:	W2992659664

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