Transport and Mixing in Geophysical Flows
Transport and Mixing in Geophysical Flows Creators of Modern Physics / [electronic resource] :
edited by Jeffrey B. Weiss, Antonello Provenzale.
- IX, 262 p. online resource.
- Lecture Notes in Physics, 744 0075-8450 ; .
- Lecture Notes in Physics, 744 .
Theory -- Scalar Decay in Chaotic Mixing -- Transport of Inert and Reactive Particles: Lagrangian Statistics in Turbulent Flow -- Diffusion and Reaction–Diffusion in Steady Flows at Large Péclet Numbers -- An Introduction to Radiative Transfer for Geophysicists -- Coherent Vortices and Tracer Transport -- Experiments and Observations -- Dispersion and Mixing in Quasi-two-dimensional Rotating Flows -- Quantifying Inhomogeneous, Instantaneous, Irreversible Transport Using Passive Tracer Field as a Coordinate -- Lagrangian Statistics from Oceanic and Atmospheric Observations -- The Modulation of Biological Production by Oceanic Mesoscale Turbulence.
This volume collects a number of theoretical and experimental lectures on various aspects of transport and mixing of active and passive particles in geophysical flows. Transports in fluids can be approached from two complementary perspectives: in the Eulerian view of mixing, the focus is on the concentration field - advection stetches and folds the concentration field and sharpens the gradients, while diffusion smoothes the field. In the Langrangian view, fluid parcels are followed around as they move with the flow, experiencing chaotic or stochastic motion. Both pictures are considered in the present lectures, with passive particles carried freely by the flow and reactive particles, where chemically or biologically induced reactions change the character of the particles.
9783540752158
10.1007/978-3-540-75215-8 doi
Physical geography.
Geophysics/Geodesy.
Fluid- and Aerodynamics.
Atmospheric Sciences.
Environmental Physics.
QC801-809
550 526.1
Theory -- Scalar Decay in Chaotic Mixing -- Transport of Inert and Reactive Particles: Lagrangian Statistics in Turbulent Flow -- Diffusion and Reaction–Diffusion in Steady Flows at Large Péclet Numbers -- An Introduction to Radiative Transfer for Geophysicists -- Coherent Vortices and Tracer Transport -- Experiments and Observations -- Dispersion and Mixing in Quasi-two-dimensional Rotating Flows -- Quantifying Inhomogeneous, Instantaneous, Irreversible Transport Using Passive Tracer Field as a Coordinate -- Lagrangian Statistics from Oceanic and Atmospheric Observations -- The Modulation of Biological Production by Oceanic Mesoscale Turbulence.
This volume collects a number of theoretical and experimental lectures on various aspects of transport and mixing of active and passive particles in geophysical flows. Transports in fluids can be approached from two complementary perspectives: in the Eulerian view of mixing, the focus is on the concentration field - advection stetches and folds the concentration field and sharpens the gradients, while diffusion smoothes the field. In the Langrangian view, fluid parcels are followed around as they move with the flow, experiencing chaotic or stochastic motion. Both pictures are considered in the present lectures, with passive particles carried freely by the flow and reactive particles, where chemically or biologically induced reactions change the character of the particles.
9783540752158
10.1007/978-3-540-75215-8 doi
Physical geography.
Geophysics/Geodesy.
Fluid- and Aerodynamics.
Atmospheric Sciences.
Environmental Physics.
QC801-809
550 526.1