Explores mixing in microchannels, discussing flow regimes, diffusion, shear field mixing, and energetic efficiency.
Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
Explores mixing times in microchannels, low efficiency reasons, laminar mixing, key numbers, materials, and chaotic mixer designs.
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Explores diffusion, transport phenomena, Fick's law, thermal and electrical transport, Onsager's relations, and thermoelectric effects.
Covers diffusion of small particles in fluids without flow and its relation to heat conduction.
Covers the principles of mass transfer, including diffusion and Fick's equations, and their applications in various processes.
Covers the solutions of neutron diffusion, including analytical solutions, Laplacian in different geometries, and the physical significance of the diffusion area.
Explores mass transfer, diffusion, and transport forces, covering Fick's equations and Nernst-Einstein equation in various materials.
