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Journal of Hydraulic Research Volume 48, 2010 - Issue 3
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Research papers

Air entrapped in gravity pipeline systems

Oscar Pozos Institute of Engineering, National Autonomous University of Mexico (UNAM), Torre de Ingenieria, Ciudad Universitaria, Coyoacan, Mexico DF, CP, 04510, MexicoCorrespondence[email protected]
,
Carlos A. Gonzalez Centro del Agua para America Latina y El Caribe (CAALCA), ITESM Campus Monterrey, Av. Eugenio Garza Sada 2501 Monterrey, NL, Mexico, CP, 64849, MexicoView further author information
,
Juergen Giesecke Department of Hydraulic Engineering and Water Resources Management, University of Stuttgart, Pfaffenwaldring 61, 70569, Stuttgart, Germany
,
Walter Marx Department of Hydraulic Engineering and Water Resources Management, University of Stuttgart, Pfaffenwaldring 61, 70569, Stuttgart, Germany
&
Eduardo A. Rodal Institute of Engineering, National Autonomous University of Mexico (UNAM), Torre de Ingenieria, Ciudad Universitaria, Coyoacan, Mexico DF, CP, 04510, Mexico
Pages 338-347 | Accepted 31 Dec 2010, Published online: 11 Jun 2010
 
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Abstract

Large air pockets entrapped in pipelines reduce the effective pipe cross-section, causing an increase in energy loss. Air accumulates at high points along the line throttling the flow and may ultimately cause a complete conduit blockage. Despite researchers having studied these phenomena, air binding is still commonly found in aqueducts, since there is a lack of understanding on the movement of air bubbles and pockets in closed conduits. This study proposes a simplistic method to predict the movement of air bubbles and pockets in downward sloping pipes which can be used either to solve air binding in existing pipelines or to prevent its occurrence in new pipelines from design stage. An experimental investigation was conducted to validate the proposed analytical method. The analysis revealed that problems related with entrained air are commonly unnoticed until a major operational failure such as an increase in head losses, violent blowbacks, or overflowing structures occurs.

Acknowledgements

The authors acknowledge the helpful comments of Prof. Hubert Chanson, University of Queensland, Australia.

Additional information

Notes on contributors

Carlos A. Gonzalez

IAHR Member, [email protected]

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