numerical simulation of shock waves structure in an annular channel
نویسندگان
چکیده
in this work, the feasibility study for design of a laboratory sample rde which has an annular geometry with diameter of 76 mm and length of 101 mm has been performed. detonation engines are expected to be used as propulsion system in aerospace applications in the future. several types of detonation engines are currently under examination, including the rotating detonation engine (rde). first, numerical studies are validated comparing the fluent results with the experimental ones. then, the geometry and equivalence ratio of injection mixture are investigated parametrically. considering the negligible variations of thermodynamics parameters in the radial direction of flow field to reduce the computational costs, also a 2d model is used for numerical simulations. results show for the case with the equivalence ratio of 1.2, detonation speed, pressure, and temperature behind detonation front is more than the equivalence ratio of 0.8. also, maximum detonation speed and pressure behind detonation take place in stoichiometric conditions. the parametric study of the chamber length effects was also conducted using a length 0.5 and 2 times of the main chamber. because the chamber outflow is subsonic at some regions, chamber length change has a significant effect on the engine performance and flow field. the results point out that increasing the chamber length in low injection pressure and high injection pressure leads to increasing and decreasing the height of detonation front, respectively.
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عنوان ژورنال:
مکانیک سیالات و آیرودینامیکجلد ۴، شماره ۲، صفحات ۰-۰
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