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Numerical methods and programming, 2018, Volume 19, Issue 2, Pages 158–172
(Mi vmp907)
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Multiparameter optimization of operating control by the trust vector based on the jet injection into the supersonic part of a nozzle
K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk Baltic State Technical University, St. Petersburg
Abstract:
The processes accompanying the supersonic jet injection into the divergent part of a nozzle are considered for the creation of control forces in rocket engines. An approach to the multiparameter optimization of the nozzle's geometric shape and the parameters of jet injection into the supersonic flow based on the application of a numerical model of the turbulent flow of a viscous compressible gas is proposed. The optimization parameters include the pressure ratio in the injection flow and nozzle flow, the angle of inclination of the nozzle to the axis of the main nozzle, the distance from the injection nozzle to the critical section of the main nozzle, and the shape of the injection nozzle outlet section. The numerical results obtained for various configurations of the trust control system are compared. A number of conclusions concerning the effect of input parameters on the trust coefficient are made.
Keywords:
optimization, numerical simulation, engine, thrust vector control, nozzle, jet, injection.
Received: 30.01.2018
Citation:
K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk, “Multiparameter optimization of operating control by the trust vector based on the jet injection into the supersonic part of a nozzle”, Num. Meth. Prog., 19:2 (2018), 158–172
Linking options:
https://www.mathnet.ru/eng/vmp907 https://www.mathnet.ru/eng/vmp/v19/i2/p158
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Abstract page: | 228 | Full-text PDF : | 149 |
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