Turbulent Flow and Transport
Ocean waves breaking on a beach. (Image courtesy of California Environmental Resource Evaluation Service.)
Instructor(s)
Prof. Ain Sonin
MIT Course Number2.27
As Taught InSpring 2002
LevelGraduate
Ocean Wave Interaction with Ships and Offshore Energy Systems (13.022)
Some Description
Instructor(s)
Prof.
As Taught In
Spring 2002
Course Number
2.24
Level
Undergraduate/Graduate
Features
Lecture Notes, Student Work
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Course Features
Turbulent flows, with emphasis on engineering methods. Governing equations for momentum, energy, and species transfer.
Turbulence: its production, dissipation, and scaling laws. Reynolds averaged equations for momentum, energy, and species transfer. Simple closure approaches for free and bounded turbulent shear flows. Applications to jets, pipe and channel flows, boundary layers, buoyant plumes and thermals, and Taylor dispersion, etc., including heat and species transport as well as flow fields. Introduction to more complex closure schemes, including the k-epsilon, and statistical methods in turbulence.
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