References
- Amador, A., Sanchez-Juny, M., & Dolz, J. (2009). Developing flow region and pressure fluctuations on steeply sloping stepped spillways. Journal of Hydraulic Engineering, 135(12), 1092–1100.
- Boes, R. M., & Hager, W. H. (2003). Two phase flow characteristics of stepped spillways. Journal of Hydraulic Engineering, 129(9), 661–670.
- Hunt, S., Kadavy, K., & Hanson, G. (2014). Simplistic design methods for moderate-sloped stepped chutes. Journal of Hydraulic Engineering, 140(12), 04014062.
- Meireles, I., Renna, F., Matos, J., & Bombardelli, F. A. (2012). Skimming, nonaerated flow on stepped spillways over roller compacted concrete dams. Journal of Hydraulic Engineering, 138(10), 870–877.
- Wu, J. H., Zhang, B., & Ma, F. (2013). Inception point of air entrainment over stepped spillways. Journal of Hydrodynamics, Series B, 25(1), 91–96.
References
- Chanson, H. (2002). The hydraulics of stepped chutes and spillways. Balkema, Lisse: The Netherlands.
- Chanson, H. (2006). Hydraulics of skimming flows on stepped chutes: the effects of inflow conditions? Journal of Hydraulic Research, 44(1), 51–60.
- Meireles, I., & Matos, J. (2009). Skimming flow in the nonaerated region of stepped spillways over embankment dams. Journal of Hydraulic Engineering, 135(8), 685–689.
- Meireles, I., Renna, F., Matos, J., & Bombardelli, F. A. (2012). Skimming, nonaerated flow on stepped spillways over roller compacted concrete dams. Journal of Hydraulic Engineering, 138(10), 870–877.
- Wu, J. H., Zhang, B., & Ma, F. (2013). Inception point of air entrainment over stepped spillways. Journal of Hydrodynamics, Series B, 25(1), 91–96.