[Akiyama, J., Stefan, H.G., 1984. Plunging flow into a reservoir: theory. Journal of Hydraulic Engineering, 110, 4, 484-499.10.1061/(ASCE)0733-9429(1984)110:4(484)]Search in Google Scholar
[Bonnecaze, R.T., Huppert, H.E., Lister, J.R., 1993. Particle-driven gravity currents. Journal of Fluid Mechanics, 250, 339-369.10.1017/S002211209300148X]Search in Google Scholar
[Bonnecaze, R.T., Hallworth, M.A., Huppert, H.E., Lister, J.R., 1995. Axisymmetric particle-driven gravity currents. Journal of Fluid Mechanics, 294, 93-121.10.1017/S0022112095002825]Search in Google Scholar
[Bournet, P.E., Dartus, D., Tassin, B., Vincon-Leite, B., 1999. Numerical investigation of plunging density current. Journal of Hydraulic Engineering, 125, 6, 584-594.10.1061/(ASCE)0733-9429(1999)125:6(584)]Search in Google Scholar
[Bradford, S.F., Katopodes, N.D., 1999a. Hydrodynamics of turbid underflows. I: Formulation and numerical analysis. Journal of Hydraulic Engineering, 125, 10, 1006-1015.10.1061/(ASCE)0733-9429(1999)125:10(1006)]Search in Google Scholar
[Bradford, S.F., Katopodes, N.D., 1999b. Hydrodynamics of turbid underflows. II: Aggradation, avulsion, and channelization. Journal of Hydraulic Engineering, 125, 10, 1016-1028.10.1061/(ASCE)0733-9429(1999)125:10(1016)]Search in Google Scholar
[Cantero, M.I., Balachandar, S., Cantelli, A., Pirmez, C., Parker, G., 2009. Turbidity current with a roof: direct numerical simulation of self-stratified turbulent channel flow driven by suspended sediment. Journal of Geophysical Research: Oceans, 114, C3, 126-138.10.1029/2008JC004978]Search in Google Scholar
[Cao, Z., Li, J., Pender, G., Liu, Q., 2015. Whole-process modeling of reservoir turbidity currents by a double layeraveraged model. Journal of Hydraulic Engineering, 141, 2, 04014069.10.1061/(ASCE)HY.1943-7900.0000951]Search in Google Scholar
[Chen, J.C., 1980. Studies on Gravitational Spreading Currents. PhD thesis. California Institute of Technology, The city is Pasadena, California.]Search in Google Scholar
[Dallimore, C.J., Imberger, J., Hodges, B.R., 2004. Modeling a plunging underflow. Journal of Hydraulic Engineering, 130, 11, 1068-1076.10.1061/(ASCE)0733-9429(2004)130:11(1068)]Search in Google Scholar
[De Cesare, G., Boillat, J., Schleiss, A.J., 2006. Circulation in stratified lakes due to flood-induced turbidity currents. Journal of Hydraulic Engineering, 132, 11, 1508-1517.10.1061/(ASCE)0733-9372(2006)132:11(1508)]Search in Google Scholar
[Fan, J., 2008. Stratified flow through outlets. Journal of Hydro- Environment Research, 2, 1, 3-18.10.1016/j.jher.2008.04.001]Search in Google Scholar
[Fan, J., 2007. Analysis on turbid density current outflow through outlets. Journal of Chinese Hydraulic Engineering, 38, 9, 1073-1079. (In Chinese.) Fan, J., Morris, G.L., 1992. Reservoir sedimentation I: Delta and density current deposits. Journal of Hydraulic Engineering, 118, 3, 354-369.10.1061/(ASCE)0733-9429(1992)118:3(354)]Search in Google Scholar
[Hoult, D.P., 1972. Oil spreading on the sea. Annual Review of Fluid Mechanics, 4, 1, 341-368.10.1146/annurev.fl.04.010172.002013]Search in Google Scholar
[Hu, P., Cao, Z., 2009. Fully coupled mathematical modeling of turbidity currents over erodible bed. Advances in Water Resources, 32, 1, 1-15.10.1016/j.advwatres.2008.07.018]Search in Google Scholar
[Hu, P., Cao, Z., Pender, G., Tan, G., 2012. Numerical modeling of turbidity currents in the Xiaolangdi reservoir, Yellow River, China. Journal of Hydrology, 464, 41-53.10.1016/j.jhydrol.2012.06.032]Search in Google Scholar
[Huang, H., Imran, J., Pirmez, C., 2008. Numerical study of turbidity currents with sudden-release and sustained-inflow mechanisms. Journal of Hydraulic Engineering, 134, 9, 1199-1209.10.1061/(ASCE)0733-9429(2008)134:9(1199)]Search in Google Scholar
[Huppert, H.E., 2006. Gravity currents: a personal perspective. Journal of Fluid Mechanics, 554, 299-322.10.1017/S002211200600930X]Search in Google Scholar
[Huppert, H.E., Simpson, J.E., 1980. The slumping of gravity currents. Journal of Fluid Mechanics, 99, 4, 785-799. 10.1017/S0022112080000894]Search in Google Scholar
[La Rocca, M., Adduce, C., Sciortino, G., Pinzon, A.B., 2008. Experimental and numerical simulation of three-dimensional gravity currents on smooth and rough bottom. Physics of Fluids, 20, 10, 106603.10.1063/1.3002381]Search in Google Scholar
[Lee, H.Y., Yu, W.S., 1997. Experimental study of reservoir turbidity current. Journal of Hydraulic Engineering, 123, 6, 520-528.10.1061/(ASCE)0733-9429(1997)123:6(520)]Search in Google Scholar
[Li, Y., Zhang, J., Ma, H., 2011. Analytical Froude number solution for reservoir density inflows. Journal of Hydraulic Engineering, 49, 5, 693-696.10.1080/00221686.2011.593905]Search in Google Scholar
[Li, W., van Maren, D.S., Wang, Z., de Vriend, H.J., Wu, B., 2014. Peak discharge increase in hyperconcentrated floods. Advances in Water Resources, 67, 65-77.10.1016/j.advwatres.2014.02.007]Search in Google Scholar
[Morris, G.L., Fan, J., 1998. Reservoir Sedimentation Handbook: Design and Management of Dams, Reservoirs, and Watersheds for Sustainable Use. McGraw Hill Professional, New York.]Search in Google Scholar
[Pantin, H.M., 1979. Interaction between velocity and effective density in turbidity flow: phase-plane analysis, with criteria for autosuspension. Marine Geology, 31, 59-99.10.1016/0025-3227(79)90057-4]Search in Google Scholar
[Parker, G., Garcia, M., Fukushima, Y., Yu, W., 1987. Experiments on turbidity currents over an erodible bed. Journal of Hydraulic Research, 25, 1, 123-147.10.1080/00221688709499292]Search in Google Scholar
[Parker, G., Fukushima, Y., Pantin, H.M., 1986. Selfaccelerating turbidity currents. Journal of Fluid Mechanics, 171, 145-181.10.1017/S0022112086001404]Search in Google Scholar
[Ruo, A.C., Chen, F., 2007. Modified shallow water equations for inviscid gravity currents. Physical Review E, 75, 2, 026302.10.1103/PhysRevE.75.026302]Search in Google Scholar
[Sequeiros, O.E., Cantero, M.I., Garcia, M.H., 2009. Sediment management by jets and turbidity currents with application to a reservoir for flood and pollution control in Chicago, Illinois. Journal of Hydraulic Research, 47, 3, 340-348.10.1080/00221686.2009.9522005]Search in Google Scholar
[Tan, W.Y., 1992. Shallow Water Hydrodynamics. Elsevier, New York.]Search in Google Scholar
[Toniolo, H., Parker, G., Voller, V., 2007. Role of ponded turbidity currents in reservoir trap efficiency. Journal of Hydraulic Engineering, 133, 6, 579-595.10.1061/(ASCE)0733-9429(2007)133:6(579)]Search in Google Scholar
[Toro, E.F., 2001. Shock-Capturing Methods for Free-Surface Shallow Flows. Wiley, Chichester, England.]Search in Google Scholar
[Toro, E.F., 2009. Riemann Solvers and Numerical Methods for Fluid Dynamics. Springer, Berlin.10.1007/b79761]Search in Google Scholar
[Wu, W.M., Wang, S.S.Y., 2007. One-dimensional modeling of dam-break flow over movable beds. Journal of Hydraulic Engineering, 133, 1, 48-58.10.1061/(ASCE)0733-9429(2007)133:1(48)]Search in Google Scholar
[Xia, J., Lin, B., Falconer, R.A., Wang, G., 2010. Modelling dam-break flows over mobile beds using a 2D coupled approach. Advances in Water Resources, 33, 2, 171-183.10.1016/j.advwatres.2009.11.004]Search in Google Scholar
[Xia, J., Li, T., Wang, Z., Zhang, J., 2016. Improved criterion for the plunge of reservoir turbidity currents. Proceedings of the Institution of Civil Engineers-Water Management. DOI: 10.1680/jwama.15.0004610.1680/jwama.15.00046]Search in Google Scholar
[Xie, J., 1990. River Simulation. Water Conservancy and Electric Power Press, Beijing. (In Chinese.)]Search in Google Scholar
[Ying, X., Khan, A.A., Wang, S.S., 2004. Upwind conservative scheme for the Saint Venant equations. Journal of Hydraulic Engineering, 130, 10, 977-987.10.1061/(ASCE)0733-9429(2004)130:10(977)]Search in Google Scholar
[Zhang, S., Duan, J.G., 2011. 1D finite volume model of unsteady flow over mobile bed. J. Hydrol., 405, 1, 57-68.10.1016/j.jhydrol.2011.05.010]Search in Google Scholar
[Zhang, R.J., Xie, J.H., 1993. Sedimentation Research in China. Water and Power Press, Beijing, China.]Search in Google Scholar
[Zhang, H., Huang, Y., Zhao, L., Jiang, E., 2002. A mathematical model for unsteady sediment transport in the lower Yellow River. I: model equations and numerical method. Advances in Water Science, 13, 3, 265-270. (In Chinese.)]Search in Google Scholar