Numerical simulation of mud-flows impacting structures
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[1] S. Pudasaini,et al. Interaction of two-phase debris flow with obstacles , 2018, Engineering Geology.
[2] Kai-heng Hu,et al. A quasi single-phase model for debris flows and its comparison with a two-phase model , 2018, Journal of Mountain Science.
[3] A. Vacca,et al. Applicability of Kinematic and Diffusive models for mud-flows: a steady state analysis , 2018 .
[4] G. Pender,et al. A depth‐averaged two‐phase model for debris flows over erodible beds , 2018 .
[5] A. Vacca,et al. Dam-break waves over an erodible embankment: experiments and simulations , 2018 .
[6] L. Zhang,et al. Two-dimensional simulation of debris flow impact pressures on buildings , 2017 .
[7] F. Alobaid,et al. Euler-Euler CFD simulation of the fuel reactor of a 1 MWth chemical-looping pilot plant: Influence of the drag models and specularity coefficient , 2017 .
[8] G. Pender,et al. A depth-averaged two-phase model for debris flows over fixed beds , 2017, International Journal of Sediment Research.
[9] A. Vacca,et al. Analysis of bedform instability with 1-D two-phase morphodynamical models , 2017, Advances in Water Resources.
[10] A. Gavrilov,et al. Direct numerical simulation of the turbulent energy balance and the shear stresses in power-law fluid flows in pipes , 2017 .
[11] A. Vacca,et al. Impact Forces of a Supercritical Flow of a Shear Thinning Slurry Against an Obstacle , 2017 .
[12] Y. You,et al. Experimental study on a debris-flow drainage channel with different types of energy dissipation baffles , 2017 .
[13] D. Laigle,et al. SPH-Based Numerical Study of the Impact of Mudflows on Obstacles , 2017 .
[14] Yongqi Wang,et al. Modelling and numerical simulation of two-phase debris flows , 2016 .
[15] Andrea Segalini,et al. Debris flow impact estimation on a rigid barrier , 2016 .
[16] T. Faug,et al. Gravitational wet avalanche pressure on pylon-like structures , 2016 .
[17] A. Vacca,et al. Development of roll-waves in power-law fluids with non-uniform initial conditions , 2016 .
[18] A. Vacca,et al. Two-Dimensional Two-Phase Depth-Integrated Model for Transients over Mobile Bed , 2016 .
[19] A. Vacca,et al. A new algorithm for bank-failure mechanisms in 2D morphodynamic models with unstructured grids , 2015 .
[20] Peng Cui,et al. Experimental analysis on the impact force of viscous debris flow , 2015 .
[21] S. Longo,et al. Non-Newtonian power-law gravity currents propagating in confining boundaries , 2015, Environmental Fluid Mechanics.
[22] M. Minale,et al. Rheology of natural slurries involved in a rapid mudflow with different soil organic carbon content , 2015 .
[23] Susanna Dazzi,et al. Experimental and numerical evaluation of the force due to the impact of a dam-break wave on a structure , 2015 .
[24] C. Ng,et al. Physical modeling of baffles influence on landslide debris mobility , 2015, Landslides.
[25] Andrea Vacca,et al. Simplified wave models applicability to shallow mud flows modeled as power-law fluids , 2014, Journal of Mountain Science.
[26] David L. George,et al. A depth-averaged debris-flow model that includes the effects of evolving dilatancy. I. Physical basis , 2014, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[27] C. Ouyang,et al. A two-phase model for numerical simulation of debris flows , 2014 .
[28] N. Balmforth,et al. Thixotropic gravity currents , 2013, Journal of Fluid Mechanics.
[29] J. Gray,et al. Gravity-driven granular free-surface flow around a circular cylinder , 2013, Journal of Fluid Mechanics.
[30] Andrea Vacca,et al. A two-phase model for fast geomorphic shallow flows , 2012 .
[31] P. Noble,et al. Thin power-law film flow down an inclined plane: consistent shallow-water models and stability under large-scale perturbations , 2012, Journal of Fluid Mechanics.
[32] S. Pudasaini. A general two-phase debris flow model , 2012 .
[33] Rui M. L. Ferreira,et al. Dam-break flows over mobile beds: experiments and benchmark tests for numerical models , 2012 .
[34] Andrea Segalini,et al. Debris flow risk mitigation by the means of rigid and flexible barriers – experimental tests and impact analysis , 2012 .
[35] F. Gori,et al. A three dimensional exact equation for the turbulent dissipation rate of Generalised Newtonian Fluids , 2012 .
[36] F. Gori,et al. Two new differential equations of turbulent dissipation rate and apparent viscosity for non-newtonian fluids☆ , 2011 .
[37] Yu Yang,et al. Prediction of debris-flow danger area by combining hydrological and inundation simulation methods , 2011 .
[38] Enrique D. Fernández-Nieto,et al. Shallow Water equations for Non-Newtonian fluids , 2010 .
[39] N. Alderman,et al. Friction factor-Reynolds number relationship for laminar flow of non-Newtonian fluids in open channels of different cross-sectional shapes , 2010 .
[40] Bin Chen,et al. CFD Simulation of Gas-Solid Flow in Dense Phase Bypass Pneumatic Conveying Using the Euler-Euler Model , 2010 .
[41] Wei Wu,et al. Flow–obstacle interaction in rapid granular avalanches: DEM simulation and comparison with experiment , 2009 .
[42] V. I. Bukreev. Force action of discontinuous waves on a vertical wall , 2009 .
[43] Marica Pelanti,et al. A Roe-type scheme for two-phase shallow granular flows over variable topography , 2008 .
[44] Manuel Jesús Castro Díaz,et al. A new Savage-Hutter type model for submarine avalanches and generated tsunami , 2008, J. Comput. Phys..
[45] Tamotsu Takahashi,et al. Debris Flow: Mechanics, Prediction and Countermeasures , 2007 .
[46] Murray Rudman,et al. Direct numerical simulation of turbulent non-Newtonian flow using a spectral element method , 2006 .
[47] A. Vacca,et al. Linear stability analysis of a 1-D model with dynamical description of bed-load transport , 2006 .
[48] Hubert Chanson,et al. Dam Break Wave of Thixotropic Fluid , 2006 .
[49] B. Zimanowski,et al. Non‐Newtonian viscosity of basaltic magma , 2006 .
[50] Yongqi Wang,et al. Modelling debris flows down general channels , 2005 .
[51] Long Le,et al. A two-fluid model for avalanche and debris flows , 2005, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[52] Yongqi Wang,et al. Influence of obstacles on rapid granular flows , 2005 .
[53] Luca Zaccarian,et al. Nonlinear antiwindup applied to Euler-Lagrange systems , 2004, IEEE Transactions on Robotics and Automation.
[54] C. A. Perazzo,et al. Steady and traveling flows of a power-law liquid over an incline , 2004 .
[55] Murray Rudman,et al. Turbulent pipe flow of shear-thinning fluids , 2004 .
[56] Juichiro Akiyama,et al. Closure of "Numerical and Experimental Study on Two-Dimensional Flood Flows with and without Structures" , 2003 .
[57] Angelo Leopardi,et al. Two-dimensional modeling of floods to map risk-prone areas , 2002 .
[58] Anton S. Shiriaev,et al. Partial stabilization of underactuated Euler-Lagrange systems via a class of feedback transformations , 2002, Syst. Control. Lett..
[59] Jasim Imran,et al. A numerical model of submarine debris flow with graphical user interface , 2001 .
[60] Richard M. Iverson,et al. Flow of variably fluidized granular masses across three‐dimensional terrain: 1. Coulomb mixture theory , 2001 .
[61] Xin Huang,et al. A Herschel–Bulkley model for mud flow down a slope , 1998, Journal of Fluid Mechanics.
[62] R. Iverson,et al. U. S. Geological Survey , 1967, Radiocarbon.
[63] C. Hwang,et al. Linear stability of power law liquid film flows down an inclined plane , 1994 .
[64] Chiang C. Mei,et al. Roll waves on a shallow layer of mud modelled as a power-law fluid , 1994, Journal of Fluid Mechanics.
[65] Bob Svendsen,et al. Debris flow modeling: A review , 1994 .
[66] P. Julien,et al. Two‐Dimensional Water Flood and Mudflow Simulation , 1993 .
[67] C. Mei,et al. Slow spreading of a sheet of Bingham fluid on an inclined plane , 1989, Journal of Fluid Mechanics.
[68] Oldrich Hungr,et al. Quantitative analysis of debris torrent hazards for design of remedial measures , 1984 .
[69] R. Dressler,et al. Hydraulic resistance effect upon the dam-break functions , 1952 .
[70] A. Gavrilov,et al. Reynolds-averaged modeling of turbulent flows of power-law fluids , 2016 .
[71] B. Turnbull,et al. Debris flows: Experiments and modelling , 2015 .
[72] Andrea Vacca,et al. Gravity-driven flow of a shear-thinning power-law fluid over a permeable plane , 2013 .
[73] D. Proske,et al. Analysing Debris-Flow Impact Models, Based on a Small Scale Modelling Approach , 2012, Surveys in Geophysics.
[74] Chiu-On Ng,et al. Rheological properties of some marine muds dredged from China coasts , 2010 .
[75] T. Mizuyama. Structural Countermeasures for Debris Flow Disasters , 2008 .
[76] Weiming Wu,et al. One-Dimensional Modeling of Dam-Break Flow over Movable Beds , 2007 .
[77] Sebastian Noelle,et al. Flow of dense avalanches past obstructions , 2001, Annals of Glaciology.
[78] Johannes Hübl,et al. Two-dimensional simulation of two viscous debris flows in Austria , 2001 .
[79] Philippe Coussot,et al. Steady, laminar, flow of concentrated mud suspensions in open channel , 1994 .
[80] P. Lax,et al. On Upstream Differencing and Godunov-Type Schemes for Hyperbolic Conservation Laws , 1983 .
[81] T. E. Lang,et al. A Biviscous Modified Bingham Model of Snow Avalanche Motion , 1983, Annals of Glaciology.