A detailed statistical assessment of seedless velocity measurement using Schlieren Image Velocimetry (SIV) was explored using open source Robust Phase Correlation (RPC) algorithm. A well-known flow field, an axisymmetric turbulent helium jet, was analyzed near and intermediate region \((0\le x/d\le 20)\) for two different Reynolds numbers, Re_d = 11,000 and Re_d = 22,000 using schlieren with horizontal knife-edge, schlieren with vertical knife-edge and shadowgraph technique, and the resulted velocity fields from SIV techniques were compared to traditional Particle Image Velocimetry (PIV) measurements. A novel, inexpensive, easy to setup two-camera SIV technique had been demonstrated to measure high-velocity turbulent jet, with jet exit velocities 304 m/s (Mach = 0.3) and 611 m/s (Mach = 0.6), respectively. Several image restoration and enhancement techniques were tested to improve signal to noise ratio (SNR) in schlieren and shadowgraph images. Processing and post-processing parameters for SIV techniques were examined in detail. A quantitative comparison between self-seeded SIV techniques and traditional PIV had been made using correlation statistics. While the resulted flow field from schlieren with horizontal knife-edge and shadowgraph showed excellent agreement with PIV measurements, schlieren with vertical knife-edge performed poorly. The performance of spatial cross-correlations at different jet locations using SIV techniques and PIV was evaluated. Turbulence quantities like turbulence intensity, mean velocity fields, Reynolds shear stress influenced spatial correlations and correlation plane SNR heavily. Several performance metrics such as primary peak ratio (PPR), peak to correlation energy (PCE), the probability distribution of signal and noise were used to compare capability and potential of different SIV techniques.

+More

spatial crosscorrelations selfseeded siv techniques jet exit velocities metrics statistical assessment of seedless velocity measurement probability distribution of signal and noise turbulence quantities image restoration and enhancement techniques open source robust phase correlation rpc reynolds numbers turbulence intensity mean velocity fields reynolds shear stress correlation statistics schlieren image velocimetry siv primary peak ratio ppr peak to correlation energy wellknown flow highvelocity turbulent jet twocamera siv technique

.A comprehensive statistical investigation of schlieren image velocimetry (SIV) using high-velocity helium jet. 58 (3),.

"A comprehensive statistical investigation of schlieren image velocimetry (SIV) using high-velocity helium jet" 58

"A comprehensive statistical investigation of schlieren image velocimetry (SIV) using high-velocity helium jet"