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Journal of Hydraulic Research Volume 58, 2020 - Issue 4
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Research papers

The effect of the inlet/outlet width ratio on the discharge of piano key weirs

Guodong Lia Professor, State Key Laboratory of Eco-hydraulics in Northwest Arid Region, Xi’an University of Technology, Xi’an, Shaanxi, PR China Email: [email protected]View further author information
,
Shanshan Lib PhD Candidate, State Key Laboratory of Eco-hydraulics in Northwest Arid Region, Xi’an University of Technology, Xi’an, Shaanxi, PR ChinaCorrespondence[email protected]
View further author information
&
Yuan Huc Assistant Engineer, Hydraulic Design Office, Ningxia Institute of Water Resources and Hydropower Survey and Design, Yinchuan City, Ningxia Hui Autonomous Region, PR China Email: [email protected]View further author information
Pages 594-604 | Received 27 Sep 2017, Accepted 12 Jun 2019, Published online: 25 Oct 2019

References

  • Abdollahi, A., Kabiri-Samani, A., Asghari, K., Atoof, H., & Bagheri, S. (2016). Numerical modeling of flow field around the labyrinth side-weirs in the presence of guide vanes. Ish Journal of Hydraulic Engineering, 23(1), 71–79.
  • Anderson, R. M., & Tullis, B. P. (2012). Comparison of piano key and rectangular labyrinth weir hydraulics. Journal of Hydraulic Engineering, 138(4), 358–361.
  • Anderson, R. M., & Tullis, B. P. (2013). Piano key weir hydraulics and labyrinth weir comparison. Journal of Irrigation and Drainage Engineering, 139(3), 246–253.
  • Bremer, F., Oertel, M. (2017). Numerical investigation of wall thickness influence on piano key weir discharge coefficients: A preliminary study. In S. Erpicum, F. Laugier, & M. Ho Ta Khanh (Eds.), Labyrinth and piano key weirs III – PKW 2017 (pp. 101–108). London: Taylor and Francis.
  • Denys, F., Basson, G., & Strasheim, J. (2017). Fluid structure interaction of piano key weirs. In S. Erpicum, F. Laugier, M. Ho Ta Khanh, & M. Pfister (Eds.), Labyrinth and piano key weirs III – PKW 2017 (pp. 119–126). London: Taylor and Francis.
  • Elsayed, K., & Lacor, C. (2011). Numerical modeling of the flow field and performance in cyclones of different cone-tip diameters. Computers & Fluids, 51(1), 48–59.
  • Hirt, C. W., & Nichols, B. D. (1981). Volume of fluid (VOF) method for the dynamics of free boundaries. Journal of Computational Physics, 39(1), 201–225.
  • Laiadi, A., Athmani, B., Belaabed, F., & Ouamane, A. (2017). The effect of the geometric shape of the alveoli on the performance of Piano Key Weirs. In S. Erpicum, F. Laugier, M. Ho Ta Khanh, & M. Pfister (Eds.), Labyrinth and piano key weirs III – PKW 2017 (pp. 93–100). London: Taylor and Francis.
  • Lefebvre, V., Vermeulen, J., & Blancher, B. (2014). Influence of geometrical parameters on PK-Weirs discharge with 3D numerical analysis. In S. Erpicum, F. Laugier, M. Pfister, M. Pirotton, G. M. Cicero, & A. J. Schleiss (Eds.), Labyrinth and piano key weirs II – PKW 2013 (pp. 49–56). London: Taylor and Francis.
  • Lempérière, F. (2011). New labyrinth weirs triple the spillways discharge. Water & Eenrgy International, 68(11), 77–78.
  • Lempérière, F., & Ouamane, A. (2003). The piano keys weir: A new cost-effective solution for spillways. International Journal on Hydropower & Dams, 10(5), 144–149.
  • Lempérière, F., Vigny, J., & Ouamane, A. (2011). General comments on labyrinths and piano key weirs. In Proceedings of the international work labyrinth piano key weirs-PKW (pp. 17–25). London: CRC Press.
  • Li, G., Miao, Z., Gao, B., & Chen, G. (2015). Numerical study on discharge capacity of piano-key weir at its different overflow edges. Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 34(8), 77–84.
  • Li, S., Li, G., Miao, Z., & Chen, G. (2016). [Numerical simulation study on the discharge characteristics of a piano key weir with various heights]. , 47(5), 60–64.
  • Machiels, O., Erpicum, S., Dewals, B. J., Archambeau, P., & Pirotton, M. (2011). Experimental observation of flow characteristics over a piano key weir. Journal of Hydraulic Research, 49(3), 359–366.
  • Machiels, O., Pirotton, M., Pierre, A., Dewals, B., & Erpicum, S. (2014). Experimental parametric study and design of piano key weirs. Journal of Hydraulic Research, 52(3), 326–335.
  • Ouamane, A., & Lempérière, F. (2006). Design of a new economic shape of weir. In Proceedings of the international symposium dams soc. 21st century (pp. 463–470). Barcelona: CIGB-ICOLD.
  • Pralong, J., Montarros, F., Blancher, B., & Laugier, F. (2011). A sensitivity analysis of piano key weirs geometrical parameters based on 3D numerical modeling. In Proceedings of the international work labyrinth piano key weirs-PKW (pp. 133–140). London: CRC Press.
  • Pralong, J., Vermeulen, J., Blancher, B., Laugier, F., Erpicum, S., Machiels, O., … Schleiss, A. J. (2011). A naming convention for the piano key weirs geometrical parameters. In Proceedings of the international work labyrinth piano key weirs-PKW (pp. 271–278). London: CRC Press.
  • Rehbock, T. (1929). Discussion of precise weir measurements. Transactions of ASCE, 93, 1143–1162.
  • Ribeiro, M. L., Bieri, M., Boillat, J.-L., Schleiss, A., Singhal, G., & Sharma, N. (2011). Discharge capacity of piano key weirs. Journal of Hydraulic Engineering, 138(2), 199–203.
  • Ribeiro, M. L., Pfister, M., Schleiss, A. J., & Boillat, J.-L. (2012). Hydraulic design of A-type piano key weirs. Journal of Hydraulic Research, 50(4), 400–408.
  • Savage, B. M., Crookston, B. M., & Paxson, G. S. (2016). Physical and numerical modeling of large headwater ratios for a 15° labyrinth spillway. Journal of Hydraulic Engineering, 142(11), 04016046.
  • Singhal, G. D. (2009). Experimental study of piano key weir (Ph.D. Thesis). Indian Institute of Technology, Roorkee.
  • Singhal, G. D., Mish, N. S., & Fish, C. S. P. O. (2011). Experimental study of hydraulically efficient piano key weir configuration. ISH Journal of Hydraulic Engineering, 17(1), 18–33.

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