One-dimensional morphodynamic model coupling open-channel flow and turbidity current in reservoir

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/S002211209300148XSearch 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/S0022112095002825Search 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, 126-138.10.1029/2008JC004978Search 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.1943-7900.0000951Search 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.2008.04.001Search 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.04.010172.002013Search 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.2008.07.018Search 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.2012.06.032Search 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/S002211200600930XSearch 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/S0022112080000894Search 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, 106603.10.1063/1.3002381Search 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, 693-696.10.1080/00221686.2011.593905Search 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.2014.02.007Search 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)90057-4Search 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, 123-147.10.1080/00221688709499292Search in Google Scholar

Parker, G., Fukushima, Y., Pantin, H.M., 1986. Selfaccelerating turbidity currents. Journal of Fluid Mechanics, 171, 145-181.10.1017/S0022112086001404Search 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.75.026302Search 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, 340-348.10.1080/00221686.2009.9522005Search 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/b79761Search 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.2009.11.004Search 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.15.00046Search 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.2011.05.010Search 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