Air in water flow is a frequent phenomenon in hydraulic structures. The main reason for air entrainment is vortices at water intakes, pumping stations, tunnel inlets, and so on. The accumulated air, in a conduit, can evolve to a different flow pattern, from stratified to pressurized. Among different patterns, slug is most complex with extreme pressure variations. Due to lack of firm relations between pressure and influential parameters, study of slug flow is very important. Based on an experimental model, pressure fluctuations inside a circular, horizontal, and inclined pipe ( inside diameter and long) carrying tow-phase air-water slug flow has been studied. Pressure fluctuations were sampled simultaneously at different sections, and longitudinal positions. The pressure fluctuations were measured using differential pressure transducers (DPT), while behavior of the air slug was studied using a digital camera. The objective of the paper is to predict the pressure variation in a pipeline or tunnel, involving resonance and shock waves experimentally. The results show that the more intensive phase interaction commences stronger fluctuations. It is shown, that the air-water mixture entering the pipe during rapid filling of surcharging can cause a tremendous pressure surge in the system and may eventually cause failure of the system (e.g., the maximum pressure inside the pipe would reach up to 10 times of upstream hydrostatic pressure as suggested by others too). Relations for forecasting pressure in these situations are presented as a function of flow characteristics, pipe geometry, longitudinal, and cross-sectional positions and head water.
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e-mail: kabiri@eng.sku.ac.ir
e-mail: mahmood@sharif.edu
e-mail: saman@sharif.edu
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January 2007
Technical Papers
Fluctuation of Air-Water Two-Phase Flow in Horizontal and Inclined Water Pipelines
A. R. Kabiri-Samani,
A. R. Kabiri-Samani
Assistant Professor
School of Engineering, Civil Engineering Division,
e-mail: kabiri@eng.sku.ac.ir
ShahreKord University
, ShahreKord, Iran
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S. M. Borghei,
S. M. Borghei
Associate Professor
Civil Engineering Department,
e-mail: mahmood@sharif.edu
Sharif University of Technology
, P.O. Box 11365-9313, Azadi Avenue, Tehran, Iran
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M. H. Saidi
M. H. Saidi
Associate Professor
Mechanical Engineering Department,
e-mail: saman@sharif.edu
Sharif University of Technology
, P.O. Box 11365-9313, Azadi Avenue, Tehran, Iran
Search for other works by this author on:
A. R. Kabiri-Samani
Assistant Professor
School of Engineering, Civil Engineering Division,
ShahreKord University
, ShahreKord, Irane-mail: kabiri@eng.sku.ac.ir
S. M. Borghei
Associate Professor
Civil Engineering Department,
Sharif University of Technology
, P.O. Box 11365-9313, Azadi Avenue, Tehran, Irane-mail: mahmood@sharif.edu
M. H. Saidi
Associate Professor
Mechanical Engineering Department,
Sharif University of Technology
, P.O. Box 11365-9313, Azadi Avenue, Tehran, Irane-mail: saman@sharif.edu
J. Fluids Eng. Jan 2007, 129(1): 1-14 (14 pages)
Published Online: June 17, 2005
Article history
Revised:
June 17, 2005
Received:
May 24, 2006
Citation
Kabiri-Samani, A. R., Borghei, S. M., and Saidi, M. H. (June 17, 2005). "Fluctuation of Air-Water Two-Phase Flow in Horizontal and Inclined Water Pipelines." ASME. J. Fluids Eng. January 2007; 129(1): 1–14. https://doi.org/10.1115/1.2375134
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