Sriram, R ; Ram, S N ; Hegde, G M ; Nayak, M M ; Jagadeesh, G (2015) Shock tunnel measurements of surface pressures in shock induced separated flow field using MEMS sensor array Measurement Science and Technology, 26 (9). 095301. ISSN 0957-0233
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Official URL: http://doi.org/10.1088/0957-0233/26/9/095301
Related URL: http://dx.doi.org/10.1088/0957-0233/26/9/095301
Abstract
Characterized not just by high Mach numbers, but also high flow total enthalpies - often accompanied by dissociation and ionization of flowing gas itself - the experimental simulation of hypersonic flows requires impulse facilities like shock tunnels. However, shock tunnel simulation imposes challenges and restrictions on the flow diagnostics, not just because of the possible extreme flow conditions, but also the short run times - typically around 1 ms. The development, calibration and application of fast response MEMS sensors for surface pressure measurements in IISc hypersonic shock tunnel HST-2, with a typical test time of 600 μs, for the complex flow field of strong (impinging) shock boundary layer interaction with separation close to the leading edge, is delineated in this paper. For Mach numbers 5.96 (total enthalpy 1.3 MJ kg-1) and 8.67 (total enthalpy 1.6 MJ kg-1), surface pressures ranging from around 200 Pa to 50 000 Pa, in various regions of the flow field, are measured using the MEMS sensors. The measurements are found to compare well with the measurements using commercial sensors. It was possible to resolve important regions of the flow field involving significant spatial gradients of pressure, with a resolution of 5 data points within 12 mm in each MEMS array, which cannot be achieved with the other commercial sensors. In particular, MEMS sensors enabled the measurement of separation pressure (at Mach 8.67) near the leading edge and the sharply varying pressure in the reattachment zone.
Item Type: | Article |
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Source: | Copyright of this article belongs to IOP Publishing. |
Keywords: | hypersonic flow; MEMS pressure sensors; Shock tunnels; Shockwave-boundary layer interaction (SBLI) |
ID Code: | 127464 |
Deposited On: | 17 Oct 2022 04:59 |
Last Modified: | 11 Nov 2022 04:41 |
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