Abstract
Oscillatory flow features are common in the unstart of hypersonic mixed-compression intakes and can be classified as low-amplitude or high-amplitude oscillatory unstarted flows. The low-amplitude oscillatory unstarted flow is driven by the shear layer from shock interactions ahead of the cowl, while the high-amplitude oscillatory unstarted flow is driven by the separation caused by shock–boundary-layer interaction on the ramp. While previous studies have observed these flow features and reported their associated frequency, there is no simple criterion available for predicting which mode will occur, and there is a lack of consensus on the appropriate frequency scaling parameter. We study a mixed-compression hypersonic intake in a hypersonic wind tunnel by varying the internal contraction ratio and the throttling ratio to observe various kinds of unstart regimes. Two significant conclusions emerge from considering the results for high-throttling-ratio conditions $(TR > 0.55)$ from the current as well as previous studies. Firstly, the actual shock-on-lip condition at the cowl corresponding to the unthrottled condition, as observed from schlieren images, demarcates the boundary between the two modes of oscillatory unstart flows upon throttling. Secondly, a suitable length scale $(l^*)$ , defined as the extent of the subsonic region in the unstarted flow (as observed from the experimental schlieren images), gives the appropriate frequency scaling parameter ( $f^* = a_0/4l^*$ where $a_0$ is the stagnation acoustic speed).
Highlights
Unstart is an undesirable phenomenon that may occur in high-speed intakes during which the shock system gets disgorged and may exhibit self-sustained oscillations (Wagner et al 2009; Chang et al 2017; Im & Do 2018)
We feel that the lack of consensus is mainly due to this extrapolation of the length scale from the supersonic intakes, and that a length scale based on the flow physics can extend the validity of the quarter-wave resonator model to hypersonic intakes as well
The intake model is equipped with a movable cowl as well as a flap located at the end of the isolator to independently vary the internal contraction ratio (ICR) and throttling ratio (TR), which are defined in (2.1a,b), where Ais, Ath and Ai represent the cross-sectional area of the isolator, throat and area at the cowl lip, respectively: ICR = Ai, TR = 1 − Ath
Summary
Unstart is an undesirable phenomenon that may occur in high-speed intakes during which the shock system gets disgorged and may exhibit self-sustained oscillations (Wagner et al 2009; Chang et al 2017; Im & Do 2018). These oscillations, known as ‘buzz’, have been reported and studied widely in supersonic intakes by various researchers (Ferri & Nucci 1951; Dailey 1955; Sterbentz & Davids 1955; Fisher, Neale & Brooks 1970; Nagashima, Asanuma & Obokata 1972; Van Wie, Kwok & Walsh 1996; Trapier, Duveau & Deck 2006; Soltani & Sepahi-Younsi 2016). We feel that the lack of consensus is mainly due to this extrapolation of the length scale from the supersonic intakes, and that a length scale based on the flow physics can extend the validity of the quarter-wave resonator model to hypersonic intakes as well
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