References
- An, R.D., Li, J., Yi, W.M., Mao, X., 2019. Hydraulics and swimming behavior of schizothorax prenanti in vertical slot fishways. J. Hydrodyn., 31, 1, 169–176.10.1007/s42241-019-0009-1
- Bombač, M., Novak, G., Rodič, P., Četina, M., 2014. Numerical and physical model study of a vertical slot fishway. J. Hydrol. Hydromech., 62, 2, 150–159.10.2478/johh-2014-0013
- Bombač, M., Novak, G., Mlačnik, J., Četina, M., 2015. Extensive field measurements of flow in vertical slot fishway as data for validation of numerical simulations. Ecol. Eng., 84, 476–484.10.1016/j.ecoleng.2015.09.030
- Bombač, M., Četina, M., Novak, G., 2017. Study on flow characteristics in vertical slot fishways regarding slot layout optimization. Ecol. Eng., 107, 126–136.10.1016/j.ecoleng.2017.07.008
- Ead, S.A., Katopodis, C., Sikora, G.J., Rajaratnam, N., 2004. Flow regimes and structure in pool and weir fishways. J. Environ. Eng. Sci., 3, 5, 379–390.10.1139/s03-073
- Fuentes-Pérez, J.F., Sanz-Ronda, F.J., Martínez de Azagra Paredes, A., García-Vega, A., 2014. Modeling water-depth distribution in vertical-slot fishways under uniform and nonuniform scenarios. J. Hydraul. Eng., 140, 10, 06014016.10.1061/(ASCE)HY.1943-7900.0000923
- Fuentes-Pérez, J.F., Sanz-Ronda, F.J., de Azagra, A.M., García-Vega, A., 2016. Non-uniform hydraulic behavior of pool-weir fishways: a tool to optimize its design and performance. Ecol. Eng., 86, 5–12.10.1016/j.ecoleng.2015.10.021
- Fuentes-Pérez, J.F., Tuhtan, J.A., Eckert, M., Romão, F., Ferreira, M.T., Kruusmaa, M., Branco, P., 2019. Hydraulics of vertical-slot fishways: Nonuniform profiles. J. Hydraul. Eng., 145, 2, 06018020.10.1061/(ASCE)HY.1943-7900.0001565
- Katopodis, C., Rajaratnam, N., Wu, S., Tovell, D., 1997. Denil fishways of varying geometry. J. Hydraul. Eng., 123, 7, 624–631.10.1061/(ASCE)0733-9429(1997)123:7(624)
- Katopodis, C., Williams, J.G., 2012. The development of fish passage research in a historical context. Ecol. Eng., 48, 8–18.10.1016/j.ecoleng.2011.07.004
- Mao, X., Fu, J.J., Tuo, Y.C., An, R.D., Li, J., 2012. Influence of structure on hydraulic characteristics of T shape fishway. J Hydrodyn., 24, 5, 684–691.10.1016/S1001-6058(11)60292-8
- Mao, X., Zhang, J., Tang, K., Zhao, W., 2019. Designs for T shape fishways. Stavební obzor - Civil Engineering Journal, 28, 2, 270–280.10.14311/CEJ.2019.02.0022
- Marriner, B.A., Baki, A.B., Zhu, D.Z., Cooke, S.J., Katopodis, C., 2016. The hydraulics of a vertical slot fishway: a case study on the multi-species Vianney-Legendre fishway in Quebec, Canada. Ecol. Eng., 90, 190–202.10.1016/j.ecoleng.2016.01.032
- Menter, F.R., Kuntz, M., Langtry, R., 2003. Ten years of industrial experience with the SST turbulence model. Turbul. Model. Heat. Mass. Tran., 4, 1, 625–632.
- Puertas, J., Cea, L., Bermúdez, M., Pena, L., Rodríguez, Á., Rabunal, J.R., Balairón, L., Lara, Á., Aramburu, E., 2012. Computer application for the analysis and design of vertical slot fishways in accordance with the requirements of the target species. Ecol. Eng., 48, 51–60.10.1016/j.ecoleng.2011.05.009
- Quaranta, E., Katopodis, C., Revelli, R., Comoglio, C., 2017. Turbulent flow field comparison and related suitability for fish passage of a standard and a simplified low gradient vertical slot fishway. River Res. Appl., 33, 8, 1295–1305.10.1002/rra.3193
- Quaresma, A.L., Romão, F., Branco, P., Ferreira, M.T., Pinheiro, A.N., 2018. Multi slot versus single slot pool-type fish-ways: a modelling approach to compare hydrodynamics. Ecol. Eng., 122, 197–206.10.1016/j.ecoleng.2018.08.006
- Quaranta, E., Katopodis, C., Comoglio, C., 2019. Effects of bed slope on the flow field of vertical slot fishways. River Res. Appl., 35, 6, 656–668.10.1002/rra.3428
- Rajaratnam, N., Katopodis, C., 1984. Hydraulics of Denil fish-ways. J. Hydraul. Eng., 110, 9, 1219–1233.10.1061/(ASCE)0733-9429(1984)110:9(1219)
- Rajaratnam, N., Katopodis, C., Mainali, A., 1989. Pool-orifice and pool-orifice-weir fishways. Can. J. Civ. Eng., 16, 5, 774–777.10.1139/l89-112
- Rajaratnam, N., Katopodis, C., Solanki, S., 1992. New designs for vertical slot fishways. Can. J. Civ. Eng., 19, 3, 402–414.10.1139/l92-049
- Rodríguez, T.T., Agudo, J.P., Mosquera, L.P., González, E.P., 2006. Evaluating vertical slot fishway designs in terms of fish swimming capabilities. Ecol. Eng., 27, 1, 37–48.10.1016/j.ecoleng.2005.09.015
- Santos, J.M., Silva, A., Katopodis, C., Pinheiro, P., Pinheiro, A., Bochechas, J., Ferreira, M.T., 2012. Ecohydraulics of pool-type fishways: getting past the barriers. Ecol. Eng., 48, 38–50.10.1016/j.ecoleng.2011.03.006
- Tarrade, L., Texier, A., David, L., Larinier, M., 2008. Topologies and measurements of turbulent flow in vertical slot fishways. Hydrobiologia, 609, 1, 177–188.10.1007/s10750-008-9416-y
- Yagci, O., 2010. Hydraulic aspects of pool-weir fishways as ecologically friendly water structure. Ecol. Eng., 36, 1, 36–46.10.1016/j.ecoleng.2009.09.007
- Zhang, D., Jiang, C., Liang, D., Chen, Z., Yang, Y., Shi, Y., 2014. A refined volume-of-fluid algorithm for capturing sharp fluid interfaces on arbitrary meshes. J. Comput. Phys., 274, 709–736.10.1016/j.jcp.2014.06.043
- Zhang, D., Jiang, C., Liang, D., Cheng, L., 2015. A review on TVD schemes and a refined flux-limiter for steady-state calculations. J. Comput. Phys., 302, 114–154.10.1016/j.jcp.2015.08.042
- Zhang, D., Cheng, L., An, H., Draper, S., 2021. Flow around a surface-mounted finite circular cylinder completely submerged within the bottom boundary layer. Eur. J. Mech. B Fluids., 86, 169–197.10.1016/j.euromechflu.2020.11.011