Advanced Fluid Mechanics
Duration: 19h3m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 5.06 GB
Genre: eLearning | Language: English
Continuity, Navier-Stokes, Potential flow, Buckingham PI Theorem, Pump, Turbine, Pressure Loss, Fittings, Drag and Lift
What you'll learn
Understand how the differential equation of conservation of mass and the differential linear momentum equation are derived and applied
Calculate the stream function and pressure field, and Description streamlines for a known velocity field
Obtain analytical solutions of the equations of motion for simple flow fields
Understand dimensional analysis and similarity, principle of dimensional homogeneity Pi theorem, non-dimensionalization of basic equations, modeling and its pitfalls.
Understand concepts of inviscid, low Reynolds number, high Reynolds number, laminar and turbulent flow.
Identify and discuss the features of external flow
Calculate boundary layer parameters for flow past a flat plate
Calculate the lift and drag forces for various objects
Requirements
Physics and Calculus
Fundamentals of Fluid Mechanics Course
Description
This is Advanced Fluid Mechanics which is a continuation of Fundamentals of Fluid Mechanics course. It includes:
Differential relations for fluid particles, fluid acceleration, Continuity equation, Potential flows and Navier-Stokes equation are introduced. Dimensional analysis and similarity, principle of dimensional homogeneity Pi theorem, non-dimensionalization of basic equations, modeling and its pitfalls. Flow in ducts and boundary layer flows. Pressure drop calculations. Minor losses in fittings. Energy equation applied to pumps and turbines. Flow over immersed bodies. Drag and Lift Calculations. Matlab codes for potential flows are also supplied.
Who this course is for:
Engineering Students
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Cantinho Satkeys
