NOTE: The attachments are JPEG and WAV formats. With Netscape, make sure that the JPEG file format is handled by Netscape Navigator (Edit/Preferences/Navigator/Applications) and the WAV file format is handled by Quiktime or Media Player. After viewing the figure or listenign to the audiofile, click on the button BACK to return to the photograph list (i.e. this document).

Experimental apparatus
The experimental apparatus consists of a vertical circular jet issuing from a 0.025-m diameter nozzle. The receiving channel is 0.3-m wide and 1.8-m deep with glass walls (See Figure). Underwater acoustics was measured with a B&K hydrophone type 8103 connected to a B&K charge amplifier type 2635. The signal was recorded on Digital Audio Tape (DAT) which digitised the signal at 44.1 kHz, thereby implying an alias frequency around 22 kHz..

Acoustic Recording
Three data sets were selected from one run (Run RM3, see table below). The experiments were conducted with a 5-mm free-jet length. The hydrophone was located 20-mm below the free-surface. Each file is a VAW format that may be played with Media Player or Sound Recorder applications (Windows 95 or later), or Quicktime.

At low jet velocities (V1 = 0.94 /s), a small number of distinct high-pitch sounds are heard corresponding to the entrainment of individual bubbles. The high-pitch associated with high frequency sound is characteristic of a small bubble size. (The sound frequency is basically inversely proportional to the bubble size.)
In the second recording, the louder noise characterises a higher bubble entrainment rate. The combination of high-pitch and louder "rumble" indicates the entrainment of both small individual bubbles as well as larger air bubbles/packets.
A the largest flow velocity (V1 = 5 m/s), the bubble noise is louder and covers a wide range of frequencies. This is characteristic of a stronger air bubble entrainment rate.
 

References

Related Internet Links

License

About Prof Hubert CHANSON
Hubert CHANSON is a Professor in Civil Engineering, Hydraulic Engineering and Environmental Fluid Mechanics at the University of Queensland, Australia. His research interests include design of hydraulic structures, experimental investigations of two-phase flows, applied hydrodynamics, hydraulic engineering, water quality modelling, environmental fluid mechanics, estuarine processes and natural resources. He has been an active consultant for both governmental agencies and private organisations. His publication record includes over 850 international refereed papers and his work was cited over 3,900 times (WoS) to 14,900 times (Google Scholar) since 1990. His h-index is 33 (WoS), 36 (Scopus) and 60 (Google Scholar), and he is ranked among the 150 most cited researchers in civil engineering in Shanghai’s Global Ranking of Academics. Hubert Chanson is the author of twenty books, including "Hydraulic Design of Stepped Cascades, Channels, Weirs and Spillways" (Pergamon, 1995), "Air Bubble Entrainment in Free-Surface Turbulent Shear Flows" (Academic Press, 1997), "The Hydraulics of Open Channel Flow : An Introduction" (Butterworth-Heinemann, 1st edition 1999, 2nd editon 2004), "The Hydraulics of Stepped Chutes and Spillways" (Balkema, 2001), "Environmental Hydraulics of Open Channel Flows" (Butterworth-Heinemann, 2004), "Tidal Bores, Aegir, Eagre, Mascaret, Pororoca: Theory And Observations" (World Scientific, 2011) and "Applied Hydrodynamics: an Introduction" (CRC Press, 2014). He co-authored two further books "Fluid Mechanics for Ecologists" (IPC Press, 2002) and "Fluid Mechanics for Ecologists. Student Edition" (IPC, 2006). His textbook "The Hydraulics of Open Channel Flows : An Introduction" has already been translated into Spanish (McGraw-Hill Interamericana) and Chinese (Hydrology Bureau of Yellow River Conservancy Committee), and the second edition was published in 2004. In 2003, the IAHR presented him with the 13th Arthur Ippen Award for outstanding achievements in hydraulic engineering. The American Society of Civil Engineers, Environmental and Water Resources Institute (ASCE-EWRI) presented him with the 2004 award for the Best Practice paper in the Journal of Irrigation and Drainage Engineering ("Energy Dissipation and Air Entrainment in Stepped Storm Waterway" by Chanson and Toombes 2002) and the 2018 Honorable Mention Paper Award for  "Minimum Specific Energy and Transcritical Flow in Unsteady Open-Channel Flow" by Castro-Orgaz and Chanson (2016) in the ASCE Journal of Irrigation and Drainage Engineering. Hubert Chanson edited further several books, including the recent monograph "Energy Dissipation in Hydraulic Structures" (Chanson 2015, IAHR Monograph, CRC Press). He chaired the Organisation of the 34th IAHR World Congress held in Brisbane, Australia between 26 June and 1 July 2011. He chaired the Scientific Committee of the 5th IAHR International Symposium on Hydraulic Structures held in Brisbane in June 2014. He chairs the Organisation of the 22nd Australasian Fluid Mechanics Conference in Brisbane, Australia on 6-10 December 2020.
 His Internet home page is http://www.uq.edu.au/~e2hchans. He also developed a gallery of photographs website {http://www.uq.edu.au/~e2hchans/photo.html} that received more than 2,000 hits per month since inception.

 

Back to Prof Chanson's Home Page

Gallery of photographs

Reprints of Research Papers

This page was visited : 5,784 times between January 2000 and June 2012.
Last updated on 25/06/2018