Fluid Mechanics
Goals
The course presents the fundamental concepts and tools for studying and modeling fluid mechanics. The core of the course is the derivation of the fundamental laws regulating the dynamics and energetics of fluid systems and their application to classical engineering problems. These includes the analysis of flow within a pipe or around a bluff body, the determination of the force exerted by a fluid on a solid object, the energy transfer by forced and natural convection, the transport of pollutant within a turbulent flow.
Programme
- Kinematic properties and fundamental laws
- Newtonian viscous fluid flow
- Dimensional analysis - Reynolds number
- Regimes and flow structures as a function of the Reynolds number
- Turbulent flow
- Energy, thermodynamics and compressible flow
- Heat transfer
- Vorticity
- Mixing of fluids
Sustainable development
DD&RS level 1
Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.
Course
60h
Responsibles
- Pietro SALIZZONI
Language
English
Keywords
Fluid Particle, mass balance, momentum balance, energy balance, viscosity, Forces, Drag, Lift, head losses, viscous dissipation, turbulence, heat transfer, convection, conduction, passive scalar, fluid mixing.