Sedimentation and Sediment Transport
ISBN 9789048162826
Taschenbuch/Paperback
CHF 114.30
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InhaltsangabePreface.
I: Turbulence, Mainly its Non-Local Aspects. Some mathematical contributions to the understanding of turbulence; C. Bardos. Nonlocality in turbulence; A. Tsinober. Effect of roughness transition in turbulent structures in the outer layer; M. Guala, et al. Stokes flows at infinite Rayleigh number; D. Dritschel. Turbulent boundary layers over compliant walls: Low-dimensional models and direct simulations; D. Rempfer, et al. The energetics and the heat and mass transfer in unsteady stratified turbulence; H. Hanazaki.
II: Turbulence and Sediment transport, Turbulence and Sedimentation. The probability of sediment movement at the threshold of motion and time dependent fluid processes; C.L. Dancey, P. Diplas. Turbulence dynamics in a two-phase flow; A. Gaion. Investigation of particle size distribution in turbulent open channel flow; T. Dreher, B. Westrich. Entrainment of large particles from granular bed protections under low-mobility transport conditions; B. Hofland, et al. Interaction between turbulent open-channel flow and pressure fluctuations in surface gravel layer; M. Detert, et al. Two-phase flow analysis of sediment velocity; B.P. Greimann. Experimental measurement of sediment suspension and particle kinetic stress transport within a horizontal channel flow; K. Kiger, et al.
III: Turbulent Structures and Sediment Transport. Turbulent structure of excited axisymmetric impinging jet; S. Alekseenko, et al. Resuspension by droplets; S.B. Dalziel, M.D. Seaton. Particle resuspension by an impacting vortex ring; R.J. Munro, S.B. Dalziel.
IV: TwoPhase Flows. On the effects of Stokes, Richardson, and stability numbers in persistent and accelerating vortices; A. Burgisser, et al. Centrifugal sedimentation processes in suspensions fundamentals and challenges of efficient simulation; M. Ungarish. On the onedimensional flow approximation in sedimentation processes; W. Schneider. Particle swarms settling in calm water; J. Bühler, D.A. Papantoniou. Flow of media with high nanoparticles' concentration; S.P. Bardakhanov.
V: Self Organization in Sedimentation Processes. The effect of homogeneous isotropic turbulence on the settling of heavy particles; A. Aliseda, et al. Numerical investigation of two-way coupling mechanisms in dilute, particle laden flows; E. Meiburg. Statistics of turbulence-induced fluctuations of particle concentration; G. Falkovich, et al. Numerical simulation of the coherent structures in a homogeneous sedimenting suspension; E.S. Asmolov. Simulation of particle flow using particle methods. A p3m algorithm for charged particulates; J.H. Walther, et al.
VI: Self Organization in Sediment Transport. LDV, PIV and LES investigation of flow over a fixed dune; R. Balachandar, et al. Sediment continuity for rivers with non-uniform sediment, dunes, and bed load transport; A. Blom, et al. The self-organization of ripples towards two-dimensional forms; A. Gyr. An integro-differential model for the dynamics of aeolian sand ripples; N.J. Balmforth. Simulation of sedimentation and mixing in deeply-submerged gravity currents; F. Necker, et al.
VII: Problems Related to Field Measurements and Inputs Needed for Numerical Models. River braiding in relation to unsteady water and sediment transport; H.M. Habersack. On the validity and limits of continuous-phase modelling of sediment transport in estuaries and coastal zones; E.A.
I: Turbulence, Mainly its Non-Local Aspects. Some mathematical contributions to the understanding of turbulence; C. Bardos. Nonlocality in turbulence; A. Tsinober. Effect of roughness transition in turbulent structures in the outer layer; M. Guala, et al. Stokes flows at infinite Rayleigh number; D. Dritschel. Turbulent boundary layers over compliant walls: Low-dimensional models and direct simulations; D. Rempfer, et al. The energetics and the heat and mass transfer in unsteady stratified turbulence; H. Hanazaki.
II: Turbulence and Sediment transport, Turbulence and Sedimentation. The probability of sediment movement at the threshold of motion and time dependent fluid processes; C.L. Dancey, P. Diplas. Turbulence dynamics in a two-phase flow; A. Gaion. Investigation of particle size distribution in turbulent open channel flow; T. Dreher, B. Westrich. Entrainment of large particles from granular bed protections under low-mobility transport conditions; B. Hofland, et al. Interaction between turbulent open-channel flow and pressure fluctuations in surface gravel layer; M. Detert, et al. Two-phase flow analysis of sediment velocity; B.P. Greimann. Experimental measurement of sediment suspension and particle kinetic stress transport within a horizontal channel flow; K. Kiger, et al.
III: Turbulent Structures and Sediment Transport. Turbulent structure of excited axisymmetric impinging jet; S. Alekseenko, et al. Resuspension by droplets; S.B. Dalziel, M.D. Seaton. Particle resuspension by an impacting vortex ring; R.J. Munro, S.B. Dalziel.
IV: TwoPhase Flows. On the effects of Stokes, Richardson, and stability numbers in persistent and accelerating vortices; A. Burgisser, et al. Centrifugal sedimentation processes in suspensions fundamentals and challenges of efficient simulation; M. Ungarish. On the onedimensional flow approximation in sedimentation processes; W. Schneider. Particle swarms settling in calm water; J. Bühler, D.A. Papantoniou. Flow of media with high nanoparticles' concentration; S.P. Bardakhanov.
V: Self Organization in Sedimentation Processes. The effect of homogeneous isotropic turbulence on the settling of heavy particles; A. Aliseda, et al. Numerical investigation of two-way coupling mechanisms in dilute, particle laden flows; E. Meiburg. Statistics of turbulence-induced fluctuations of particle concentration; G. Falkovich, et al. Numerical simulation of the coherent structures in a homogeneous sedimenting suspension; E.S. Asmolov. Simulation of particle flow using particle methods. A p3m algorithm for charged particulates; J.H. Walther, et al.
VI: Self Organization in Sediment Transport. LDV, PIV and LES investigation of flow over a fixed dune; R. Balachandar, et al. Sediment continuity for rivers with non-uniform sediment, dunes, and bed load transport; A. Blom, et al. The self-organization of ripples towards two-dimensional forms; A. Gyr. An integro-differential model for the dynamics of aeolian sand ripples; N.J. Balmforth. Simulation of sedimentation and mixing in deeply-submerged gravity currents; F. Necker, et al.
VII: Problems Related to Field Measurements and Inputs Needed for Numerical Models. River braiding in relation to unsteady water and sediment transport; H.M. Habersack. On the validity and limits of continuous-phase modelling of sediment transport in estuaries and coastal zones; E.A.