Title of article
Fringe probing of gas-liquid interfacial film in a microcapillary tube
Author/Authors
Qiu، Huihe نويسنده , , Wang، Xishi نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
-4647
From page
4648
To page
0
Abstract
An optical diagnostic technique has been developed to measure the gas-liquid interfacial film thickness in microcapillary two-phase flows. The spatial frequencies from the multiscattering measured with a CCD camera are used to determine the slug diameter and film thickness. It is found that, with an optimized optical orientation angle, the spatial frequency method shows great accuracy in the measurements. To demonstrate the capability of the newly developed method, a validation experiment was conducted in water-air and water-honey mixture-air two-phase flows. We measured the spatial frequency variations when the microbubble and slug were pulsating by utilizing a highly accurate signal processing technique and a five-point interpolation method. This newly developed optical method is easy to implement, and it will be a useful technique for twophase flow measurements.
Keywords
Measurement , instrumentation , Metrology , detection , Fringe analysis , Flow diagnostics , Remote sensing
Journal title
Applied Optics
Serial Year
2005
Journal title
Applied Optics
Record number
74549
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