Fluid Mixing in Ideal Systems and Large-Scale Oceans

Explore a comprehensive lecture on fluid mixing dynamics presented by Dr. Nairita Pal from the Indian Institute of Technology Kharagpur, examining both ideal systems and large-scale oceanic phenomena. Delve into the complexities of turbulent mixing and phase-separation in multiphase fluid systems through a time-dependent Ginzburg Landau formulation. Discover how mathematical analysis reveals universal patterns in two-fluid mixing and phase separation processes. Examine an analytical moment closure model that bridges theoretical and numerical approaches to fluid mixing, including insights into turbulence transition. Learn about cutting-edge applications combining analytical models, numerical simulations, and data-driven techniques to address real-world fluid dynamics challenges. Gain valuable insights into this multiscale process where mass and momentum exchange occurs in highly nonlinear patterns across space and time, with applications ranging from oceanic systems to small-scale technological implementations.