Basic Information
Surface Energy and Surface Tension, Marangoni Stresses, Plateau-rayleigh Instability, Stability of Fluid Jets and Sheets, Formation of Drops and Bubbles, Dynamics of Superposed Fluids, Kelvin-helmholtz Instability, Thermo-cappilary and Chemical Effects, Dispersed-phase Flows, The Stability of Particle-laden Flows. Learning Outcomes# Upon Completion of This Course It Is Inteded That a Student Will Be Able To#_ 1. Understand The Concept of Surface Energy, Surface Tension And Curvature Pressure. 2. Formulate Flow Equations For Surface-dominated Flows._ 3. Conduct Scaling Analysis and Understand The Dimensionless Numbers Characterizing a Multiphase Flow.__ 4. Analyze The Stability of Fluid Jets, Sheets and Superposed Fluids. 5. Understand The Driving Mechanisms in Droplet Formation And Atomization Processes and Analyze The Dynamics of Particles And Droplets in Flows.
Faculty: Aerospace Engineering
|Undergraduate Studies
|Graduate Studies
Pre-required courses
(84135 - Numerical Analysis For Aerospace Engi. and 84314 - Viscous Flow and Heat Transfer)