On the flow structure and control efficiency of rudder surround curved-wall subject to high-energy jet array: A numerical study

The flight of a Cross-Domain High-Speed Vehicle (CDHSV) is characterized by substantial variations in both speed and altitude. Traditional mechanical rudder-based attitude control of CDHSVs suffers from several limitations, such as reduced control efficiency and diminished sensitivity to changes in...

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Published inPhysics of fluids (1994) Vol. 37; no. 7
Main Authors Zhou, Yi, Luo, Zhenbing, Liu, Qiang, Zhou, Yan, Xie, Wei
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.07.2025
Subjects
Arrays
Attitude control
Efficiency
Flight
Mach number
Rudders
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Abstract The flight of a Cross-Domain High-Speed Vehicle (CDHSV) is characterized by substantial variations in both speed and altitude. Traditional mechanical rudder-based attitude control of CDHSVs suffers from several limitations, such as reduced control efficiency and diminished sensitivity to changes in rudder rotation angle. To address these challenges, this paper proposes the integration of a high-energy jet array downstream of the rudder. This arrangement aims to modify the flow field structure in the curved-wall rudder region, thereby enhancing the rudder's control efficiency. The study investigates the impact of different high-energy jet array configurations on the flow field structure within the curved-wall rudder region, focusing on flight altitudes ranging from 30 to 35 km and Mach numbers between 3 and 6. A comparative analysis is conducted to evaluate the control effects of the high-energy jet arrays across four distinct cases. The results indicate that the downstream high-energy jet array can significantly improve the control efficiency of the CDHSV's rudder in the curved-wall rudder flow field. This research provides valuable insights and a potential reference for enhancing rudder control efficiency in CDHSVs.
AbstractList The flight of a Cross-Domain High-Speed Vehicle (CDHSV) is characterized by substantial variations in both speed and altitude. Traditional mechanical rudder-based attitude control of CDHSVs suffers from several limitations, such as reduced control efficiency and diminished sensitivity to changes in rudder rotation angle. To address these challenges, this paper proposes the integration of a high-energy jet array downstream of the rudder. This arrangement aims to modify the flow field structure in the curved-wall rudder region, thereby enhancing the rudder's control efficiency. The study investigates the impact of different high-energy jet array configurations on the flow field structure within the curved-wall rudder region, focusing on flight altitudes ranging from 30 to 35 km and Mach numbers between 3 and 6. A comparative analysis is conducted to evaluate the control effects of the high-energy jet arrays across four distinct cases. The results indicate that the downstream high-energy jet array can significantly improve the control efficiency of the CDHSV's rudder in the curved-wall rudder flow field. This research provides valuable insights and a potential reference for enhancing rudder control efficiency in CDHSVs.
Author Xie, Wei
Zhou, Yan
Zhou, Yi
Liu, Qiang
Luo, Zhenbing
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Snippet The flight of a Cross-Domain High-Speed Vehicle (CDHSV) is characterized by substantial variations in both speed and altitude. Traditional mechanical...
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SubjectTerms Arrays
Attitude control
Efficiency
Flight
Mach number
Rudders
Title On the flow structure and control efficiency of rudder surround curved-wall subject to high-energy jet array: A numerical study
URI http://dx.doi.org/10.1063/5.0280943
https://www.proquest.com/docview/3234745489
Volume 37
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