Explores flow regimes, diffusion mixing, and energetic efficiency in microchannels, emphasizing the need for fast mixing with minimal energy.
Explores mass transfer coefficients in liquid and gas phases, with a focus on convective mass transfer around dissolving bubbles and experimental dynamics of granular systems.
Explores mass transfer, diffusion, and transport forces, covering Fick's equations and Nernst-Einstein equation in various materials.
Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
Explores evaporation physics, covering contact angles, wetting states, diffusion, Fick's Law, and heat-mass transfer analogy.
Covers the principles of mass transfer, including diffusion and Fick's equations, and their applications in various processes.
Explores mass transfer in electrochemistry, covering diffusion, migration, convection, Nernst Planck equation, linear diffusion approximations, and transient response.
Explores diffusion from a macroscopic perspective, emphasizing the derivation of the diffusion equation through mass conservation and fixed flux law.
Explores mixing in microchannels, discussing flow regimes, diffusion, shear field mixing, and energetic efficiency.
Covers diffusion of small particles in fluids without flow and its relation to heat conduction.
Explores mass transfer, Fick's laws, Nernst-Einstein equation, and transport forces in various desorption and absorption examples.
Covers thermal expansion, conductivity, and diffusion in materials, explaining how temperature affects properties and heat transfer.
