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Journal of Hydraulic Research Volume 47, 2009 - Issue 2
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RESEARCH PAPERS

Hydraulics of developing chute flow

Oscar Castro-Orgaz Department of Agronomy, University of Cordoba, c/Fernando Colón n o1, 3 izq., E-14002, Cordoba, Spain Phone: +34-607457243 E-mail: [email protected]
Pages 185-194 | Received 18 Jun 2008, Published online: 26 Apr 2010

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Hossein Bonakdari, Amir Hossein Zaji, Bahram Gharabaghi, Isa Ebtehaj & Marjan Moazamnia. (2020) More accurate prediction of the complex velocity field in sewers based on uncertainty analysis using extreme learning machine technique. ISH Journal of Hydraulic Engineering 26:4, pages 409-420.
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Daniel B. Bung. (2011) Developing flow in skimming flow regime on embankment stepped spillways. Journal of Hydraulic Research 49:5, pages 639-648.
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Rafik Absi. (2011) An ordinary differential equation for velocity distribution and dip-phenomenon in open channel flows. Journal of Hydraulic Research 49:1, pages 82-89.
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Oscar Castro-Orgaz & WilliH. Hager. (2010) Drawdown curve and turbulent boundary layer development for chute flow. Journal of Hydraulic Research 48:5, pages 591-602.
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Mehmet Salih Kirkgoz, Mevlut Sami Akoz & Ahmet Alper Oner. (2009) Numerical modeling of flow over a chute spillway. Journal of Hydraulic Research 47:6, pages 790-797.
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Oscar Castro-Orgaz & Willi H. Hager. (2009) Curved-streamline transitional flow from mild to steep slopes. Journal of Hydraulic Research 47:5, pages 574-584.
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Articles from other publishers (15)

Jun Deng, Wangru WeiHongfeng Duan. (2022) Pressure reduction in plunge pools by triangular wedges at high-head overfall spillways. Proceedings of the Institution of Civil Engineers - Water Management 175:2, pages 78-88.
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Hossein Bonakdari, Hamed Azimi, Isa Ebtehaj, Bahram Gharabaghi, Ali Jamali & Seyed Hamed Ashraf Talesh. 2022. Intelligent Computing. Intelligent Computing 1 24 .
Ryugen SATOH, Masayuki TAKAHASHI & Iwao OHTSU. (2021) EFFECT OF RELATIVE STEP HEIGHTS ON VELOCITY CHARACTERISTICS AND LOCAL SKIN FRICTION FOR NONAERATED SKIMMING FLOWS IN STEPPED CHANNELS階段状水路におけるnonaerated skimming flowの流速特性と局所摩擦抵抗係数に与える相対ステップ高さの影響. Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering) 77:2, pages I_835-I_840.
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Feng Jiang, Weilin Xu, Jun Deng & Wangru Wei. (2020) Flow Structures of the Air-Water Layer in the Free Surface Region of High-Speed Open Channel Flows. Mathematical Problems in Engineering 2020, pages 1-10.
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Domenica Mirauda & Maria Grazia Russo. (2020) Entropy Wake Law for Streamwise Velocity Profiles in Smooth Rectangular Open Channels. Entropy 22:6, pages 654.
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C S JamesC S James. 2020. Hydraulic Structures. Hydraulic Structures 105 168 .
Wangru Wei, Weilin Xu, Jun Deng, Zhong Tian & Faxing Zhang. (2019) Bubble formation and scale dependence in free-surface air entrainment. Scientific Reports 9:1.
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Ryugen SATOH, Masayuki TAKAHASHI & Iwao OHTSU. (2019) AN ANALYTICAL METHOD OF NONAERATED SKIMMING FLOW IN A STEPPED CHANNEL階段状水路におけるnonaerated skimming flowの解析的検討. Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering) 75:2, pages I_811-I_816.
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S. Wilhelm, J. Jacob & P. Sagaut. (2018) An explicit power-law-based wall model for lattice Boltzmann method–Reynolds-averaged numerical simulations of the flow around airfoils. Physics of Fluids 30:6.
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Oscar Castro-Orgaz & Willi H. HagerOscar Castro-Orgaz & Willi H. Hager. 2017. Non-Hydrostatic Free Surface Flows. Non-Hydrostatic Free Surface Flows 393 561 .
Oscar Castro-Orgaz & Willi H. HagerOscar Castro-Orgaz & Willi H. Hager. 2017. Non-Hydrostatic Free Surface Flows. Non-Hydrostatic Free Surface Flows 81 316 .
Hassan Ibrahim Mohamed. (2013) An investigation of turbulent accelerated flow along smooth prismatic chutes. Water and Environment Journal 27:1, pages 71-78.
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O. Castro-Orgaz. (2011) Closure to “Velocity Profile and Flow Resistance Models for Developing Chute Flow” by Oscar Castro-Orgaz. Journal of Hydraulic Engineering 137:12, pages 1696-1699.
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Noor AfzalAbu SeenaA. Bushra. (2011) Discussion of “Velocity Profile and Flow Resistance Models for Developing Chute Flow” by Oscar Castro-Orgaz. Journal of Hydraulic Engineering 137:12, pages 1693-1696.
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Oscar Castro-Orgaz & Subhasish Dey. (2011) Power-law velocity profile in turbulent boundary layers: An integral reynolds-number dependent solution. Acta Geophysica 59:5, pages 993-1012.
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