Numerical study of passive cavity control on high-pressure ratio single expansion ramp nozzle under over-expansion condition

Li, Zhou; Liu, Zengwen; Wang, Zhanxue; Xiao, Hua

doi:10.1177/0954410015611152

Cited by 7 publications

(2 citation statements)

References 18 publications

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“…However, they increase the complexity and weight of the nozzle's mechanical structure and reduce its operational reliability. Flow control techniques offer various active and passive flow control measures (Gronland and Berens 1995;Asbury et al 1996;Tsunoda et al 2000;Gamble and Haid 2004;Hao and Wang 2009;Zhou et al 2016;Zhou and Wang 2019), with secondary injection and synthetic jet actuators (SJA) being the most-used active measures. Lv et al (2017b) performed numerical simulations using a two-dimensional (2D) SERN model with cowl-based secondary injection.…”

Section: Introductionmentioning

confidence: 99%

Effect of a Secondary Injection on the Performance of Three-Dimensional Over-under TBCC Exhaust Nozzles

2023

JAFM

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A numerical simulation is used to investigate the flow field characteristics of a three-dimensional over-under turbine-based combined cycle circular-to-rectangular transition exhaust nozzle when only the turbojet flowpath is in operation. The effect on the exhaust nozzle performance of there being a secondary injection on the ramp of the expansion section of the turbojet flow path is then examined. Finally, the impact of variations in the secondary injection design parameters is further investigated. The results show that a secondary injection can improve the exhaust nozzle's performance by reducing the axial force on the inner wall of the flow path. However, changes in flight status can undermine this improvement. Under the baseline operating condition, a secondary injection with a larger angle and close to the ramp outlet can produce a more significant improvement in nozzle performance. In this study, the axial thrust coefficient, lift and pitch moment of the nozzle can be improved by a maximum of 9.312%, 66.007% and 10.975%, respectively.

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Section: Introductionmentioning

confidence: 99%

Effect of a Secondary Injection on the Performance of Three-Dimensional Over-under TBCC Exhaust Nozzles

2023

JAFM

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“…The passive cavity is introduced to improve the SERN performance under over-expanded condition, and the two-dimensional flowfield of SERN with and without passive cavity had been compared in the former research (Zhou et al, 2015), the influence of the passive cavity on the flow pattern of the two-dimensional SERN has been shown. In this paper, for the sake of considering the threedimensional flow effect caused by the SERN side wall and deeply explore the flow control mechanism of the passive cavity, numerical simulation is conducted for the three-dimensional SERN with passive cavity adopted, the effective NPR range that the passive cavity can improve SERN performance is discussed, and the effects of passive cavity geometric parameters on the threedimensional flow structure and the performance of the SERN are studied.…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation on the three-Dimensional Flowfield in the Single Expansion Ramp Nozzle with Passive Cavity Flow Control

Zhou¹,

Wang²

2019

JAFM

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Single Expansion Ramp Nozzle (SERN) with large expansion ratio is normally adopted for the hypersonic aircraft in consideration of integrated aircraft / propulsion system / nozzle design. Under low Mach number and low Nozzle Pressure Ratio (NPR, the ratio of inlet total pressure to outlet static pressure) conditions, the flow in the SERN is a state of severe over-expansion, the internal resistance increased obviously, the flow quality and performance of the SERN sharply deteriorated. How to effectively improve the SERN performance under over-expanded condition has become an important issue in the integrated design of hypersonic propulsion system. The passive cavity flow control technique was introduced on the upper expansion ramp of the SERN in this paper, the three-dimensional flowfield in the passive cavity SERN was investigated numerically, suitable NPR range for passive cavity flow control and impacts of passive cavity parameters were discussed. Results show the SERN performance is effectively improved when the passive cavity is applied from NPR of 5 to 10. Compared with the baseline SERN, 3.13 % improvement can be achieved for the thrust coefficient of the passive cavity SERN when NPR is 5. The passive cavity has the capacity of regulating the induced shock intensity or restraining flow separation, the reason for the change in its function is decided by the relative position between the induced shock and the passive cavity position on the upper expansion ramp of the SERN. As for each function of the passive cavity, an optimum position for the passive cavity structure exists on the upper expansion ramp. Among the primary geometric parameters of the passive cavity structure, percent of porosity is a crucial factor to affect the SERN performance by adjusting separation zone size and its separation starting position, and the improvement effectiveness of the axial thrust coefficient drops with the decrease of percent of porosity. The cavity depth and the aperture size are not sensitive to the performance of passive cavity SERN as compared to the effect of the percent of porosity.

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Visualization of over-expanded supersonic wall-jet

Vaisakh

Muruganandam

2021

Aerospace Science and Technology

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Numerical study of passive cavity control on high-pressure ratio single expansion ramp nozzle under over-expansion condition

Cited by 7 publications

References 18 publications

Effect of a Secondary Injection on the Performance of Three-Dimensional Over-under TBCC Exhaust Nozzles

Effect of a Secondary Injection on the Performance of Three-Dimensional Over-under TBCC Exhaust Nozzles

Numerical Investigation on the three-Dimensional Flowfield in the Single Expansion Ramp Nozzle with Passive Cavity Flow Control

Visualization of over-expanded supersonic wall-jet

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